OpenFOAM-Publications

From CSDMS
References OpenFOAM

Publication(s)YearTypeCited
Jacobsen, Niels G.; Fuhrman, David R.; Fredsøe, Jørgen; 2012. A wave generation toolbox for the open-source CFD library: OpenFoam®: WAVE GENERATION TOOLBOX. International Journal for Numerical Methods in Fluids, 70, 1073–1088. 10.1002/fld.2726
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2012

Model overview

532
Deshpande, Suraj S; Anumolu, Lakshman; Trujillo, Mario F; 2012. Evaluating the performance of the two-phase flow solver interFoam. Computational Science & Discovery, 5, 014016. 10.1088/1749-4699/5/1/014016
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2012

Model overview

396
Higuera, Pablo; Lara, Javier L.; Losada, Inigo J.; 2013. Realistic wave generation and active wave absorption for Navier–Stokes models. Coastal Engineering, 71, 102–118. 10.1016/j.coastaleng.2012.07.002
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2013Model application 298
Higuera, Pablo; Lara, Javier L.; Losada, Inigo J.; 2013. Simulating coastal engineering processes with OpenFOAM®. Coastal Engineering, 71, 119–134. 10.1016/j.coastaleng.2012.06.002
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2013Model application 197
Churchfield, Matthew; Lee, Sang; Moriarty, Patrick; Martinez, Luis; Leonardi, Stefano; Vijayakumar, Ganesh; Brasseur, James; 2012. A Large-Eddy Simulations of Wind-Plant Aerodynamics. . Volume .
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2012Model application 182
Scanlon, T.J.; Roohi, E.; White, C.; Darbandi, M.; Reese, J.M.; 2010. An open source, parallel DSMC code for rarefied gas flows in arbitrary geometries. Computers & Fluids, 39, 2078–2089. 10.1016/j.compfluid.2010.07.014
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2010Model application 202
Tabor, G.R.; Baba-Ahmadi, M.H.; 2010. Inlet conditions for large eddy simulation: A review. Computers & Fluids, 39, 553–567. 10.1016/j.compfluid.2009.10.007
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2010Model application 264
Albadawi, A.; Donoghue, D.B.; Robinson, A.J.; Murray, D.B.; Delauré, Y.M.C.; 2013. Influence of surface tension implementation in Volume of Fluid and coupled Volume of Fluid with Level Set methods for bubble growth and detachment. International Journal of Multiphase Flow, 53, 11–28. 10.1016/j.ijmultiphaseflow.2013.01.005
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2013Model application 172
Jasak, Hrvoje; 2009. OpenFOAM: Open source CFD in research and industry. International Journal of Naval Architecture and Ocean Engineering, 1, 89–94. 10.2478/IJNAOE-2013-0011
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2009Model application 201
Roohi, Ehsan; Zahiri, Amir Pouyan; Passandideh-Fard, Mahmood; 2013. Numerical simulation of cavitation around a two-dimensional hydrofoil using VOF method and LES turbulence model. Applied Mathematical Modelling, 37, 6469–6488. 10.1016/j.apm.2012.09.002
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2013Model application 140
Shen, Zhirong; Wan, Decheng; Carrica, Pablo M.; 2015. Dynamic overset grids in OpenFOAM with application to KCS self-propulsion and maneuvering. Ocean Engineering, 108, 287–306. 10.1016/j.oceaneng.2015.07.035
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2015Model application 106
Han, Xingsi; Li, Jingxuan; Morgans, Aimee S.; 2015. Prediction of combustion instability limit cycle oscillations by combining flame describing function simulations with a thermoacoustic network model. Combustion and Flame, 162, 3632–3647. 10.1016/j.combustflame.2015.06.020
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2015Model application 105
Kraposhin, Matvey V.; Smirnova, Elena V.; Elizarova, Tatiana G.; Istomina, Maria A.; 2018. Development of a new OpenFOAM solver using regularized gas dynamic equations. Computers & Fluids, 166, 163–175. 10.1016/j.compfluid.2018.02.010
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2018Model application 26
Scanlon, Thomas J.; White, Craig; Borg, Matthew K.; Palharini, Rodrigo C.; Farbar, Erin; Boyd, Iain D.; Reese, Jason M.; Brown, Richard E.; 2015. Open-Source Direct Simulation Monte Carlo Chemistry Modeling for Hypersonic Flows. AIAA Journal, 53, 1670–1680. 10.2514/1.J053370
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2015Model application 59
Wang, Yi; Chatterjee, Prateep; de Ris, John L.; 2011. Large eddy simulation of fire plumes. Proceedings of the Combustion Institute, 33, 2473–2480. 10.1016/j.proci.2010.07.031
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2011Model application 125
Bauwens, C.R.; Chaffee, J.; Dorofeev, S.B.; 2011. Vented explosion overpressures from combustion of hydrogen and hydrocarbon mixtures. International Journal of Hydrogen Energy, 36, 2329–2336. 10.1016/j.ijhydene.2010.04.005
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2011Model application 87
Higuera, Pablo; Lara, Javier L.; Losada, Inigo J.; 2014. Three-dimensional interaction of waves and porous coastal structures using OpenFOAM®. Part I: Formulation and validation. Coastal Engineering, 83, 243–258. 10.1016/j.coastaleng.2013.08.010
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2014Model application 128
Shah, Manish S.; Joshi, Jyeshtharaj B.; Kalsi, Avtar S.; Prasad, C.S.R.; Shukla, Daya S.; 2012. Analysis of flow through an orifice meter: CFD simulation. Chemical Engineering Science, 71, 300–309. 10.1016/j.ces.2011.11.022
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2012Model application 65
Zamani, Mahdi; Maghrebi, Mohammad Javad; Varedi, Seyed Rasoul; 2016. Starting torque improvement using J-shaped straight-bladed Darrieus vertical axis wind turbine by means of numerical simulation. Renewable Energy, 95, 109–126. 10.1016/j.renene.2016.03.069
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2016Model application 53
Dau, Van Thanh; Dinh, Thien Xuan; Bui, Tung Thanh; 2016. Jet flow generation in a circulatory miniaturized system. Sensors and Actuators B: Chemical, 223, 820–826. 10.1016/j.snb.2015.09.151
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2016Model application 24
Chen, L.F.; Zang, J.; Hillis, A.J.; Morgan, G.C.J.; Plummer, A.R.; 2014. Numerical investigation of wave–structure interaction using OpenFOAM. Ocean Engineering, 88, 91–109. 10.1016/j.oceaneng.2014.06.003
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2014Model application 127
Seiffert, Betsy; Hayatdavoodi, Masoud; Ertekin, R. Cengiz; 2014. Experiments and computations of solitary-wave forces on a coastal-bridge deck. Part I: Flat Plate. Coastal Engineering, 88, 194–209. 10.1016/j.coastaleng.2014.01.005
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2014Model application 110
Gürtler, F.-J.; Karg, M.; Leitz, K.-H.; Schmidt, M.; 2013. Simulation of Laser Beam Melting of Steel Powders using the Three-Dimensional Volume of Fluid Method. Physics Procedia, 41, 881–886. 10.1016/j.phpro.2013.03.162
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2013Model application 92
Mangani, L.; Buchmayr, M.; Darwish, M.; 2014. Development of a Novel Fully Coupled Solver in OpenFOAM: Steady-State Incompressible Turbulent Flows. Numerical Heat Transfer, Part B: Fundamentals, 66, 1–20. 10.1080/10407790.2014.894448
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2014Model application 30
Jensen, Bjarne; Jacobsen, Niels Gjøl; Christensen, Erik Damgaard; 2014. Investigations on the porous media equations and resistance coefficients for coastal structures. Coastal Engineering, 84, 56–72. 10.1016/j.coastaleng.2013.11.004
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2014Model application 88
Hoang, Duong A.; van Steijn, Volkert; Portela, Luis M.; Kreutzer, Michiel T.; Kleijn, Chris R.; 2013. Benchmark numerical simulations of segmented two-phase flows in microchannels using the Volume of Fluid method. Computers & Fluids, 86, 28–36. 10.1016/j.compfluid.2013.06.024
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2013Model application 139
Kunkelmann, Christian; Stephan, Peter; 2009. CFD Simulation of Boiling Flows Using the Volume-of-Fluid Method within OpenFOAM. Numerical Heat Transfer, Part A: Applications, 56, 631–646. 10.1080/10407780903423908
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2009Model application 153
Tuković, Ž.; Jasak, H.; 2012. A moving mesh finite volume interface tracking method for surface tension dominated interfacial fluid flow. Computers & Fluids, 55, 70–84. 10.1016/j.compfluid.2011.11.003
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2012Model application 110
Ding, Lin; Zhang, Li; Bernitsas, Michael M.; Chang, Che-Chun; 2016. Numerical simulation and experimental validation for energy harvesting of single-cylinder VIVACE converter with passive turbulence control. Renewable Energy, 85, 1246–1259. 10.1016/j.renene.2015.07.088
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2016Model application 70
Roenby, Johan; Bredmose, Henrik; Jasak, Hrvoje; 2016. A computational method for sharp interface advection. Royal Society Open Science, 3, 160405. 10.1098/rsos.160405
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2016Model application 2
Rocha, P.A. Costa; Rocha, H.H. Barbosa; Carneiro, F.O. Moura; Vieira da Silva, M.E.; Bueno, A. Valente; 2014. k–ω SST (shear stress transport) turbulence model calibration: A case study on a small scale horizontal axis wind turbine. Energy, 65, 412–418. 10.1016/j.energy.2013.11.050
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2014Model application 87
Campbell, R.L.; Paterson, E.G.; 2011. Fluid–structure interaction analysis of flexible turbomachinery. Journal of Fluids and Structures, 27, 1376–1391. 10.1016/j.jfluidstructs.2011.08.010
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2011Model application 69
Aufiero, Manuele; Brovchenko, Mariya; Cammi, Antonio; Clifford, Ivor; Geoffroy, Olivier; Heuer, Daniel; Laureau, Axel; Losa, Mario; Luzzi, Lelio; Merle-Lucotte, Elsa; Ricotti, Marco E.; Rouch, Hervé; 2014. Calculating the effective delayed neutron fraction in the Molten Salt Fast Reactor: Analytical, deterministic and Monte Carlo approaches. Annals of Nuclear Energy, 65, 78–90. 10.1016/j.anucene.2013.10.015
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2014Model application 45
Robertson, E.; Choudhury, V.; Bhushan, S.; Walters, D.K.; 2015. Validation of OpenFOAM numerical methods and turbulence models for incompressible bluff body flows. Computers & Fluids, 123, 122–145. 10.1016/j.compfluid.2015.09.010
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2015Model application 96
Decaix, J.; Balarac, G.; Dreyer, M.; Farhat, M.; Münch, C.; 2015. RANS and LES computations of the tip-leakage vortex for different gap widths. Journal of Turbulence, 16, 309–341. 10.1080/14685248.2014.984068
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2015Model application 60
Horgue, P.; Soulaine, C.; Franc, J.; Guibert, R.; Debenest, G.; 2015. An open-source toolbox for multiphase flow in porous media. Computer Physics Communications, 187, 217–226. 10.1016/j.cpc.2014.10.005
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2015Model application 52
Higuera, Pablo; Losada, Inigo J.; Lara, Javier L.; 2015. Three-dimensional numerical wave generation with moving boundaries. Coastal Engineering, 101, 35–47. 10.1016/j.coastaleng.2015.04.003
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2015Model application 68
Pal, Eshita; Kumar, Inder; Joshi, Jyeshtharaj B.; Maheshwari, N.K.; 2016. CFD simulations of shell-side flow in a shell-and-tube type heat exchanger with and without baffles. Chemical Engineering Science, 143, 314–340. 10.1016/j.ces.2016.01.011
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2016Model application 49
Cuoci, Alberto; Frassoldati, Alessio; Faravelli, Tiziano; Ranzi, Eliseo; 2013. A computational tool for the detailed kinetic modeling of laminar flames: Application to C2H4/CH4 coflow flames. Combustion and Flame, 160, 870–886. 10.1016/j.combustflame.2013.01.011
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2013Model application 91
Yamamoto, Takuya; Okano, Yasunori; Dost, Sadik; 2017. Validation of the S-CLSVOF method with the density-scaled balanced continuum surface force model in multiphase systems coupled with thermocapillary flows: Validation of the S-CLSVOF method with the density-scaled balanced continuum surface force model in multiphase systems coupled with thermocapilla. International Journal for Numerical Methods in Fluids, 83, 223–244. 10.1002/fld.4267
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2017Model application 47
Vukčević, Vuko; Jasak, Hrvoje; Malenica, Šime; 2016. Decomposition model for naval hydrodynamic applications, Part I: Computational method. Ocean Engineering, 121, 37–46. 10.1016/j.oceaneng.2016.05.022
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2016Model application 32
Ferrari, G.; Federici, D.; Schito, P.; Inzoli, F.; Mereu, R.; 2017. CFD study of Savonius wind turbine: 3D model validation and parametric analysis. Renewable Energy, 105, 722–734. 10.1016/j.renene.2016.12.077
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2017Model application 56
Logie, William R.; Pye, John D.; Coventry, Joe; 2018. Thermoelastic stress in concentrating solar receiver tubes: A retrospect on stress analysis methodology, and comparison of salt and sodium. Solar Energy, 160, 368–379. 10.1016/j.solener.2017.12.003
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2018Model application 48
Favero, J.L.; Secchi, A.R.; Cardozo, N.S.M.; Jasak, H.; 2010. Viscoelastic flow analysis using the software OpenFOAM and differential constitutive equations. Journal of Non-Newtonian Fluid Mechanics, 165, 1625–1636. 10.1016/j.jnnfm.2010.08.010
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2010Model application 80
Iturrioz, A.; Guanche, R.; Lara, J.L.; Vidal, C.; Losada, I.J.; 2015. Validation of OpenFOAM® for Oscillating Water Column three-dimensional modeling. Ocean Engineering, 107, 222–236. 10.1016/j.oceaneng.2015.07.051
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2015Model application 81
Kraposhin, Matvey; Bovtrikova, Arina; Strijhak, Sergei; 2015. Adaptation of Kurganov-Tadmor Numerical Scheme for Applying in Combination with the PISO Method in Numerical Simulation of Flows in a Wide Range of Mach Numbers. Procedia Computer Science, 66, 43–52. 10.1016/j.procs.2015.11.007
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2015Model application 44
Hassanaly, Malik; Koo, Heeseok; Lietz, Christopher F.; Chong, Shao Teng; Raman, Venkat; 2018. A minimally-dissipative low-Mach number solver for complex reacting flows in OpenFOAM. Computers & Fluids, 162, 11–25. 10.1016/j.compfluid.2017.11.020
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2018Model application 30
He, Ping; Mader, Charles A.; Martins, Joaquim R.R.A.; Maki, Kevin J.; 2018. An aerodynamic design optimization framework using a discrete adjoint approach with OpenFOAM. Computers & Fluids, 168, 285–303. 10.1016/j.compfluid.2018.04.012
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2018Model application 43
Balogh, M.; Parente, A.; Benocci, C.; 2012. RANS simulation of ABL flow over complex terrains applying an Enhanced k-ε model and wall function formulation: Implementation and comparison for fluent and OpenFOAM. Journal of Wind Engineering and Industrial Aerodynamics, 104, 360–368. 10.1016/j.jweia.2012.02.023
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2012Model application 92
Hayatdavoodi, Masoud; Seiffert, Betsy; Ertekin, R. Cengiz; 2014. Experiments and computations of solitary-wave forces on a coastal-bridge deck. Part II: Deck with girders. Coastal Engineering, 88, 210–228. 10.1016/j.coastaleng.2014.02.007
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2014Model application 89
Liu, Yuanchuan; Xiao, Qing; Incecik, Atilla; Peyrard, Christophe; Wan, Decheng; 2017. Establishing a fully coupled CFD analysis tool for floating offshore wind turbines. Renewable Energy, 112, 280–301. 10.1016/j.renene.2017.04.052
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2017Model application 72
Jasak, Hrvoje; 2009. Dynamic Mesh Handling in OpenFOAM. . Volume .
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2009Model application 95
Ding, Lin; Bernitsas, Michael M.; Kim, Eun Soo; 2013. 2-D URANS vs. experiments of flow induced motions of two circular cylinders in tandem with passive turbulence control for 30,000. Ocean Engineering, 72, 429–440. 10.1016/j.oceaneng.2013.06.005
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2013Model application 74
Zhang, Meng; Zhang, Wu; Wu, Zhengwei; Shen, Yinan; Wu, Huayin; Cheng, Jianping; Zhang, Hongna; Li, Fengchen; Cai, Weihua; 2019. Modulation of viscoelastic fluid response to external body force. Scientific Reports, 9, 9402. 10.1038/s41598-019-45612-2
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2019Model application 3
Corsini, Alessandro; Delibra, Giovanni; Sheard, Anthony G.; 2013. On the Role of Leading-Edge Bumps in the Control of Stall Onset in Axial Fan Blades. Journal of Fluids Engineering, 135, 081104. 10.1115/1.4024115
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2013Model application 54
Yang, Lu; Nieves-Remacha, Maria Jose; Jensen, Klavs F.; 2017. Simulations and analysis of multiphase transport and reaction in segmented flow microreactors. Chemical Engineering Science, 169, 106–116. 10.1016/j.ces.2016.12.003
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2017Model application 56
Flores, Federico; Garreaud, René; Muñoz, Ricardo C.; 2013. CFD simulations of turbulent buoyant atmospheric flows over complex geometry: Solver development in OpenFOAM. Computers & Fluids, 82, 1–13. 10.1016/j.compfluid.2013.04.029
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2013Model application 47
Lubchenko, Nazar; Magolan, Ben; Sugrue, Rosie; Baglietto, Emilio; 2018. A more fundamental wall lubrication force from turbulent dispersion regularization for multiphase CFD applications. International Journal of Multiphase Flow, 98, 36–44. 10.1016/j.ijmultiphaseflow.2017.09.003
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2018Model application 37
Salvador, F.J.; Romero, J.-V.; Roselló, M.-D.; Martínez-López, J.; 2010. Validation of a code for modeling cavitation phenomena in Diesel injector nozzles. Mathematical and Computer Modelling, 52, 1123–1132. 10.1016/j.mcm.2010.02.027
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2010Model application 58
Novella, R.; García, A.; Pastor, J.M.; Domenech, V.; 2011. The role of detailed chemical kinetics on CFD diesel spray ignition and combustion modelling. Mathematical and Computer Modelling, 54, 1706–1719. 10.1016/j.mcm.2010.12.048
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2011Model application 60
Colarossi, Michael; Trask, Nathaniel; Schmidt, David P.; Bergander, Mark J.; 2012. Multidimensional modeling of condensing two-phase ejector flow. International Journal of Refrigeration, 35, 290–299. 10.1016/j.ijrefrig.2011.08.013
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2012Model application 58
Lachaud, Jean; Mansour, Nagi N.; 2014. Porous-Material Analysis Toolbox Based on OpenFOAM and Applications. Journal of Thermophysics and Heat Transfer, 28, 191–202. 10.2514/1.T4262
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2014Model application 67
Kim, Jongtae; Yadav, Mohan; Kim, Seungjin; 2014. Characteristics of Secondary Flow Induced by 90-Degree Elbow in Turbulent Pipe Flow. Engineering Applications of Computational Fluid Mechanics, 8, 229–239. 10.1080/19942060.2014.11015509
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2014Model application 58
Koch, Max; Lechner, Christiane; Reuter, Fabian; Köhler, Karsten; Mettin, Robert; Lauterborn, Werner; 2016. Numerical modeling of laser generated cavitation bubbles with the finite volume and volume of fluid method, using OpenFOAM. Computers & Fluids, 126, 71–90. 10.1016/j.compfluid.2015.11.008
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2016Model application 94
Van Cauwenberge, David J.; Schietekat, Carl M.; Floré, Jens; Van Geem, Kevin M.; Marin, Guy B.; 2015. CFD-based design of 3D pyrolysis reactors: RANS vs. LES. Chemical Engineering Journal, 282, 66–76. 10.1016/j.cej.2015.03.020
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2015Model application 31
Al-Sharif, Sharaf; Albeirutty, Mohammed; Cipollina, Andrea; Micale, Giorgio; 2013. Modelling flow and heat transfer in spacer-filled membrane distillation channels using open source CFD code. Desalination, 311, 103–112. 10.1016/j.desal.2012.11.005
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2013Model application 71
Sun, Rui; Xiao, Heng; 2016. SediFoam: A general-purpose, open-source CFD–DEM solver for particle-laden flow with emphasis on sediment transport. Computers & Geosciences, 89, 207–219. 10.1016/j.cageo.2016.01.011
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2016Model application 81
Habchi, Charbel; Russeil, Serge; Bougeard, Daniel; Harion, Jean-Luc; Lemenand, Thierry; Ghanem, Akram; Valle, Dominique Della; Peerhossaini, Hassan; 2013. Partitioned solver for strongly coupled fluid–structure interaction. Computers & Fluids, 71, 306–319. 10.1016/j.compfluid.2012.11.004
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2013Model application 88
Fiorina, Carlo; Clifford, Ivor; Aufiero, Manuele; Mikityuk, Konstantin; 2015. GeN-Foam: a novel OpenFOAM ® based multi-physics solver for 2D/3D transient analysis of nuclear reactors. Nuclear Engineering and Design, 294, 24–37. 10.1016/j.nucengdes.2015.05.035
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2015Model application 48
Vachaparambil, Kurian J.; Einarsrud, Kristian Etienne; 2019. Comparison of Surface Tension Models for the Volume of Fluid Method. Processes, 7, 542. 10.3390/pr7080542
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2019Model application 18
Othmer, Carsten; de Villiers, Eugene; Weller, Henry; 2007. Implementation of a Continuous Adjoint for Topology Optimization of Ducted Flows. . Volume .
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2007Model application 46
Guibert, R.; Nazarova, M.; Horgue, P.; Hamon, G.; Creux, P.; Debenest, G.; 2015. Computational Permeability Determination from Pore-Scale Imaging: Sample Size, Mesh and Method Sensitivities. Transport in Porous Media, 107, 641–656. 10.1007/s11242-015-0458-0
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2015Model application 57
Lysenko, Dmitry A.; Ertesvåg, Ivar S.; Rian, Kjell Erik; 2012. Large-Eddy Simulation of the Flow Over a Circular Cylinder at Reynolds Number 3900 Using the OpenFOAM Toolbox. Flow, Turbulence and Combustion, 89, 491–518. 10.1007/s10494-012-9405-0
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2012Model application 96
Xiong, Qingang; Aramideh, Soroush; Passalacqua, Alberto; Kong, Song-Charng; 2014. BIOTC: An open-source CFD code for simulating biomass fast pyrolysis. Computer Physics Communications, 185, 1739–1746. 10.1016/j.cpc.2014.02.012
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2014Model application 55
Kassem, Hassan I.; Saqr, Khalid M.; Aly, Hossam. S.; Sies, Mohsin M.; Wahid, Mazlan Abdul; 2011. Implementation of the eddy dissipation model of turbulent non-premixed combustion in OpenFOAM. International Communications in Heat and Mass Transfer, 38, 363–367. 10.1016/j.icheatmasstransfer.2010.12.012
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2011Model application 59
Kooij, Gijs L.; Botchev, Mikhail A.; Frederix, Edo M.A.; Geurts, Bernard J.; Horn, Susanne; Lohse, Detlef; van der Poel, Erwin P.; Shishkina, Olga; Stevens, Richard J.A.M.; Verzicco, Roberto; 2018. Comparison of computational codes for direct numerical simulations of turbulent Rayleigh–Bénard convection. Computers & Fluids, 166, 1–8. 10.1016/j.compfluid.2018.01.010
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2018Model application 43
Pimenta, F.; Alves, M.A.; 2017. Stabilization of an open-source finite-volume solver for viscoelastic fluid flows. Journal of Non-Newtonian Fluid Mechanics, 239, 85–104. 10.1016/j.jnnfm.2016.12.002
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2017Model application 83
Chen, Goong; Xiong, Qingang; Morris, Phillip J.; Paterson, Eric G.; Sergeev, Alexey; Wang, Yi-Ching; 2014. OpenFOAM for Computational Fluid Dynamics. Notices of the American Mathematical Society, 61, 354. 10.1090/noti1095
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2014Model application 56
Higuera, Pablo; Lara, Javier L.; Losada, Inigo J.; 2014. Three-dimensional interaction of waves and porous coastal structures using OpenFOAM®. Part II: Application. Coastal Engineering, 83, 259–270. 10.1016/j.coastaleng.2013.09.002
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2014Model application 73
Molines, Jorge; Bayon, Arnau; Gómez-Martín, M. Esther; Medina, Josep R.; 2019. Influence of Parapets on Wave Overtopping on Mound Breakwaters with Crown Walls. Sustainability, 11, 7109. 10.3390/su11247109
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2019Model application 5
Khamlaj, Tariq Abdulsalam; Rumpfkeil, Markus Peer; 2018. Analysis and optimization of ducted wind turbines. Energy, 162, 1234–1252. 10.1016/j.energy.2018.08.106
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2018Model application 37
Gracik, Stefan; Heidarinejad, Mohammad; Liu, Jiying; Srebric, Jelena; 2015. Effect of urban neighborhoods on the performance of building cooling systems. Building and Environment, 90, 15–29. 10.1016/j.buildenv.2015.02.037
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2015Model application 50
Vukčević, Vuko; Jasak, Hrvoje; Gatin, Inno; 2017. Implementation of the Ghost Fluid Method for free surface flows in polyhedral Finite Volume framework. Computers & Fluids, 153, 1–19. 10.1016/j.compfluid.2017.05.003
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2017Model application 51
Jiang, Sheng-chao; Teng, Bin; Bai, Wei; Gou, Ying; 2015. Numerical simulation of coupling effect between ship motion and liquid sloshing under wave action. Ocean Engineering, 108, 140–154. 10.1016/j.oceaneng.2015.07.044
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2015Model application 39
White, C.; Borg, M.K.; Scanlon, T.J.; Longshaw, S.M.; John, B.; Emerson, D.R.; Reese, J.M.; 2018. dsmcFoam+: An OpenFOAM based direct simulation Monte Carlo solver. Computer Physics Communications, 224, 22–43. 10.1016/j.cpc.2017.09.030
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2018Model application 64
Guan, Kelly M.; Nazarova, Marfa; Guo, Bo; Tchelepi, Hamdi; Kovscek, Anthony R.; Creux, Patrice; 2019. Effects of Image Resolution on Sandstone Porosity and Permeability as Obtained from X-Ray Microscopy. Transport in Porous Media, 127, 233–245. 10.1007/s11242-018-1189-9
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2019Model application 29
Bauwens, C.; Chaffee, J.; Dorofeev, S.; 2008. Experimental and Numerical Study of Methane-air Deflagrations in a Vented Enclosure. Fire Safety Science, 9, 1043–1054. 10.3801/IAFSS.FSS.9-1043
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2008Model application 47
Marschall, Holger; Hinterberger, Korbinian; Schüler, Christian; Habla, Florian; Hinrichsen, Olaf; 2012. Numerical simulation of species transfer across fluid interfaces in free-surface flows using OpenFOAM. Chemical Engineering Science, 78, 111–127. 10.1016/j.ces.2012.02.034
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2012Model application 81
Laureau, A.; Heuer, D.; Merle-Lucotte, E.; Rubiolo, P.R.; Allibert, M.; Aufiero, M.; 2017. Transient coupled calculations of the Molten Salt Fast Reactor using the Transient Fission Matrix approach. Nuclear Engineering and Design, 316, 112–124. 10.1016/j.nucengdes.2017.02.022
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2017Model application 25
Benim, Ali Cemal; Iqbal, Sohail; Meier, Wolfgang; Joos, Franz; Wiedermann, Alexander; 2017. Numerical investigation of turbulent swirling flames with validation in a gas turbine model combustor. Applied Thermal Engineering, 110, 202–212. 10.1016/j.applthermaleng.2016.08.143
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2017Model application 38
Roohi, Ehsan; Pendar, Mohammad-Reza; Rahimi, Amin; 2016. Simulation of three-dimensional cavitation behind a disk using various turbulence and mass transfer models. Applied Mathematical Modelling, 40, 542–564. 10.1016/j.apm.2015.06.002
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2016Model application 53
Shi, Yong; Fu, Haohuan; Tian, Yingjie; Krzhizhanovskaya, Valeria V.; Lees, Michael Harold; Dongarra, Jack; Sloot, Peter M. A.; Bondarev, Alexander E.; Kuvshinnikov, Artem E.; 2018. Analysis of the Accuracy of OpenFOAM Solvers for the Problem of Supersonic Flow Around a Cone. In: (eds.)Computational Science – ICCS 2018.. 221–230.
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2018Model application 17
Pendar, Mohammad-Reza; Roohi, Ehsan; 2016. Investigation of cavitation around 3D hemispherical head-form body and conical cavitators using different turbulence and cavitation models. Ocean Engineering, 112, 287–306. 10.1016/j.oceaneng.2015.12.010
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2016Model application 57
Ley, Jens; Sigmund, Sebastian; el Moctar, Ould; 2014. Numerical Prediction of the Added Resistance of Ships in Waves. . Volume .
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2014Model application 22
Aufiero, Manuele; Cammi, Antonio; Geoffroy, Olivier; Losa, Mario; Luzzi, Lelio; Ricotti, Marco E.; Rouch, Hervé; 2014. Development of an OpenFOAM model for the Molten Salt Fast Reactor transient analysis. Chemical Engineering Science, 111, 390–401. 10.1016/j.ces.2014.03.003
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2014Model application 42
Meredith, K.; Xin, Y.; de Vries, J.; 2011. A Numerical Model for Simulation of Thin-Film Water Transport over Solid Fuel Surfaces. Fire Safety Science, 10, 415–428. 10.3801/IAFSS.FSS.10-415
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2011Model application 24
Bannari, Rachid; Kerdouss, Fouzi; Selma, Brahim; Bannari, Abdelfettah; Proulx, Pierre; 2008. Three-dimensional mathematical modeling of dispersed two-phase flow using class method of population balance in bubble columns. Computers & Chemical Engineering, 32, 3224–3237. 10.1016/j.compchemeng.2008.05.016
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2008Model application 79
Wu, Wei-Tao; Jamiolkowski, Megan A.; Wagner, William R.; Aubry, Nadine; Massoudi, Mehrdad; Antaki, James F.; 2017. Multi-Constituent Simulation of Thrombus Deposition. Scientific Reports, 7, 42720. 10.1038/srep42720
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2017Model application 36
Filippov, A. S.; Grigoryev, S. Y.; Tarasov, O. V.; Iudina, T. A.; 2014. CFD Simulation of PANDA and MISTRA Cooler Tests of ERCOSAM-SAMARA Project. . Volume .
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2014Model application 4
Sugrue, Rosemary; Magolan, Ben; Lubchenko, Nazar; Baglietto, Emilio; 2017. Assessment of a simplified set of momentum closure relations for low volume fraction regimes in STAR-CCM+ and OpenFOAM. Annals of Nuclear Energy, 110, 79–87. 10.1016/j.anucene.2017.05.059
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2017Model application 25
Stringer, R.M.; Zang, J.; Hillis, A.J.; 2014. Unsteady RANS computations of flow around a circular cylinder for a wide range of Reynolds numbers. Ocean Engineering, 87, 1–9. 10.1016/j.oceaneng.2014.04.017
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2014Model application 57
Cvijetic, Gregor; Jasak, Hrvoje; Vukcevic, Vuko; 2016. Finite Volume Implementation of the Harmonic Balance Method for Periodic Non-Linear Flows. . Volume .
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2016Model application 13
Page, Maryse; Beaudoin, Martin; Giroux, Anne-Marie; 2011. Steady-state Capabilities for Hydroturbines with OpenFOAM. International Journal of Fluid Machinery and Systems, 4, 161–171. 10.5293/IJFMS.2011.4.1.161
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2011Model application 12
Page, M; Beaudoin, M; Giroux, A M; 2010. Steady-state capabilities for hydroturbines with OpenFOAM. IOP Conference Series: Earth and Environmental Science, 12, 012076. 10.1088/1755-1315/12/1/012076
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2010Model application 5
Shoja-Sani, Ahmad; Roohi, Ehsan; Kahrom, Mohsen; Stefanov, Stefan; 2014. Investigation of aerodynamic characteristics of rarefied flow around NACA 0012 airfoil using DSMC and NS solvers. European Journal of Mechanics - B/Fluids, 48, 59–74. 10.1016/j.euromechflu.2014.04.008
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2014Model application 26
Miao, Yucong; Liu, Shuhua; Chen, Bicheng; Zhang, Bihui; Wang, Shu; Li, Shuyan; 2013. Simulating urban flow and dispersion in Beijing by coupling a CFD model with the WRF model. Advances in Atmospheric Sciences, 30, 1663–1678. 10.1007/s00376-013-2234-9
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2013Model application 40
Gariani, Gabriela; Maggi, Filippo; Galfetti, Luciano; 2011. Numerical simulation of HTPB combustion in a 2D hybrid slab combustor. Acta Astronautica, 69, 289–296. 10.1016/j.actaastro.2011.03.015
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2011Model application 48
Tavangar, Saeed; Hashemabadi, Seyed Hassan; Saberimoghadam, Ali; 2015. CFD simulation for secondary breakup of coal–water slurry drops using OpenFOAM. Fuel Processing Technology, 132, 153–163. 10.1016/j.fuproc.2014.12.037
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2015Model application 45
Macpherson, Graham B.; Reese, Jason M.; 2008. Molecular dynamics in arbitrary geometries: Parallel evaluation of pair forces. Molecular Simulation, 34, 97–115. 10.1080/08927020801930554
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2008Model application 50
Coughtrie, A.R.; Borman, D.J.; Sleigh, P.A.; 2013. Effects of turbulence modelling on prediction of flow characteristics in a bench-scale anaerobic gas-lift digester. Bioresource Technology, 138, 297–306. 10.1016/j.biortech.2013.03.162
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2013Model application 33
Lachaud, Jean; van Eekelen, Tom; Scoggins, James B.; Magin, Thierry E.; Mansour, Nagi N.; 2015. Detailed chemical equilibrium model for porous ablative materials. International Journal of Heat and Mass Transfer, 90, 1034–1045. 10.1016/j.ijheatmasstransfer.2015.05.106
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2015Model application 42
Selma, B.; Bannari, R.; Proulx, P.; 2010. Simulation of bubbly flows: Comparison between direct quadrature method of moments (DQMOM) and method of classes (CM). Chemical Engineering Science, 65, 1925–1941. 10.1016/j.ces.2009.11.018
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2010Model application 76
Zhang, Chongwei; 2015. Application of an improved semi-Lagrangian procedure to fully-nonlinear simulation of sloshing in non-wall-sided tanks. Applied Ocean Research, 51, 74–92. 10.1016/j.apor.2015.03.001
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2015Model application 19
Jackson, D. W. T.; Beyers, J. H. M.; Lynch, K.; Cooper, J. A. G.; Baas, A. C. W.; Delgado-Fernandez, I.; 2011. Investigation of three-dimensional wind flow behaviour over coastal dune morphology under offshore winds using computational fluid dynamics (CFD) and ultrasonic anemometry: THREE-DIMENSIONAL WIND FLOW OVER COASTAL DUNES. Earth Surface Processes and Landforms, 36, 1113–1124. 10.1002/esp.2139
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2011Model application 81
Boccardo, Gianluca; Augier, Frédéric; Haroun, Yacine; Ferré, Daniel; Marchisio, Daniele L.; 2015. Validation of a novel open-source work-flow for the simulation of packed-bed reactors. Chemical Engineering Journal, 279, 809–820. 10.1016/j.cej.2015.05.032
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2015Model application 67
Vuorinen, V.; Keskinen, J.-P.; Duwig, C.; Boersma, B.J.; 2014. On the implementation of low-dissipative Runge–Kutta projection methods for time dependent flows using OpenFOAM®. Computers & Fluids, 93, 153–163. 10.1016/j.compfluid.2014.01.026
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2014Model application 53
Yao, Jianxi; 2015. Investigation on hydrodynamic performance of a marine propeller in oblique flow by RANS computations. International Journal of Naval Architecture and Ocean Engineering, 7, 56–69. 10.1515/ijnaoe-2015-0005
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2015Model application 24
Hajivand, Ahmad; Mousavizadegan, S. Hossein; 2015. Virtual maneuvering test in CFD media in presence of free surface. International Journal of Naval Architecture and Ocean Engineering, 7, 540–558. 10.1515/ijnaoe-2015-0039
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2015Model application 19
Bhusare, V.H.; Dhiman, M.K.; Kalaga, D.V.; Roy, S.; Joshi, J.B.; 2017. CFD simulations of a bubble column with and without internals by using OpenFOAM. Chemical Engineering Journal, 317, 157–174. 10.1016/j.cej.2017.01.128
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2017Model application 55
Lin, Zaibin; Pokrajac, Dubravka; Guo, Yakun; Jeng, Dong-sheng; Tang, Tian; Rey, Nick; Zheng, Jinhai; Zhang, Jisheng; 2017. Investigation of nonlinear wave-induced seabed response around mono-pile foundation. Coastal Engineering, 121, 197–211. 10.1016/j.coastaleng.2017.01.002
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2017Model application 54
Verstraete, Tom; Coletti, Filippo; Bulle, Je´re´my; Vanderwielen, Timothe´e; Arts, Tony; 2011. Optimization of a U-Bend for Minimal Pressure Loss in Internal Cooling Channels: Part I—Numerical Method. . Volume .
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2011Model application 3
Concli, Franco; 2016. Pressure distribution in small hydrodynamic journal bearings considering cavitation: a numerical approach based on the open-source CFD code OpenFOAM®: Cavitation in Journal Bearings. Lubrication Science, 28, 329–347. 10.1002/ls.1334
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2016Model application 23
Fiorina, Carlo; Kerkar, Nordine; Mikityuk, Konstantin; Rubiolo, Pablo; Pautz, Andreas; 2016. Development and verification of the neutron diffusion solver for the GeN-Foam multi-physics platform. Annals of Nuclear Energy, 96, 212–222. 10.1016/j.anucene.2016.05.023
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2016Model application 15
Meredith, Karl; de Vries, Jaap; Wang, Yi; Xin, Yibing; 2013. A comprehensive model for simulating the interaction of water with solid surfaces in fire suppression environments. Proceedings of the Combustion Institute, 34, 2719–2726. 10.1016/j.proci.2012.06.094
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2013Model application 24
Passalacqua, A.; Fox, R.O.; 2011. Implementation of an iterative solution procedure for multi-fluid gas–particle flow models on unstructured grids. Powder Technology, 213, 174–187. 10.1016/j.powtec.2011.07.030
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2011Model application 69
Mack, A.; Spruijt, M.P.N.; 2013. Validation of OpenFoam for heavy gas dispersion applications. Journal of Hazardous Materials, 262, 504–516. 10.1016/j.jhazmat.2013.08.065
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2013Model application 29
Petit, Olivier; Bosioc, Alin I.; Nilsson, Hakan; Muntean, Sebastian; Susan-Resiga, Romeo F.; 2011. Unsteady Simulations of the Flow in a Swirl Generator, Using OpenFOAM. International Journal of Fluid Machinery and Systems, 4, 199–208. 10.5293/IJFMS.2011.4.1.199
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2011Model application 25
Jeanjean, Antoine P.R.; Buccolieri, Riccardo; Eddy, James; Monks, Paul S.; Leigh, Roland J.; 2017. Air quality affected by trees in real street canyons: The case of Marylebone neighbourhood in central London. Urban Forestry & Urban Greening, 22, 41–53. 10.1016/j.ufug.2017.01.009
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2017Model application 91
Vilfayeau, S.; Ren, N.; Wang, Y.; Trouvé, A.; 2015. Numerical simulation of under-ventilated liquid-fueled compartment fires with flame extinction and thermally-driven fuel evaporation. Proceedings of the Combustion Institute, 35, 2563–2571. 10.1016/j.proci.2014.05.072
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2015Model application 29
Bayon, Arnau; Valero, Daniel; García-Bartual, Rafael; Vallés-Morán, Francisco ​José; López-Jiménez, P. Amparo; 2016. Performance assessment of OpenFOAM and FLOW-3D in the numerical modeling of a low Reynolds number hydraulic jump. Environmental Modelling & Software, 80, 322–335. 10.1016/j.envsoft.2016.02.018
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2016Model application 65
Wu, Wei-Tao; Aubry, Nadine; Massoudi, Mehrdad; Kim, Jeongho; Antaki, James F.; 2014. A numerical study of blood flow using mixture theory. International Journal of Engineering Science, 76, 56–72. 10.1016/j.ijengsci.2013.12.001
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2014Model application 30
Yan, Linbo; Lim, C. Jim; Yue, Guangxi; He, Boshu; Grace, John R.; 2016. Simulation of biomass-steam gasification in fluidized bed reactors: Model setup, comparisons and preliminary predictions. Bioresource Technology, 221, 625–635. 10.1016/j.biortech.2016.09.089
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2016Model application 46
Komen, Ed; Shams, Afaque; Camilo, Leonardo; Koren, Barry; 2014. Quasi-DNS capabilities of OpenFOAM for different mesh types. Computers & Fluids, 96, 87–104. 10.1016/j.compfluid.2014.02.013
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2014Model application 51
Wardle, Kent E.; Weller, Henry G.; 2013. Hybrid Multiphase CFD Solver for Coupled Dispersed/Segregated Flows in Liquid-Liquid Extraction. International Journal of Chemical Engineering, 2013, 1–13. 10.1155/2013/128936
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2013Model application 67
Molins, Sergi; Soulaine, Cyprien; Prasianakis, Nikolaos I.; Abbasi, Aida; Poncet, Philippe; Ladd, Anthony J. C.; Starchenko, Vitalii; Roman, Sophie; Trebotich, David; Tchelepi, Hamdi A.; Steefel, Carl I.; 2020. Simulation of mineral dissolution at the pore scale with evolving fluid-solid interfaces: review of approaches and benchmark problem set. Computational Geosciences, , . 10.1007/s10596-019-09903-x
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2020Model application 36
Albadawi, A.; Donoghue, D.B.; Robinson, A.J.; Murray, D.B.; Delauré, Y.M.C.; 2013. On the analysis of bubble growth and detachment at low Capillary and Bond numbers using Volume of Fluid and Level Set methods. Chemical Engineering Science, 90, 77–91. 10.1016/j.ces.2012.12.004
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2013Model application 65
Su, Junwei; Gu, Zhaolin; Xu, Xiao Yun; 2011. Discrete element simulation of particle flow in arbitrarily complex geometries. Chemical Engineering Science, 66, 6069–6088. 10.1016/j.ces.2011.08.025
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2011Model application 53
Li, Linmin; Li, Baokuan; Liu, Zhongqiu; 2017. Modeling of spout-fluidized beds and investigation of drag closures using OpenFOAM. Powder Technology, 305, 364–376. 10.1016/j.powtec.2016.10.005
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2017Model application 41
Lachaud, Jean; Mansour, Nagi; Ceballos, Alejandro; Pejakovic, Dusan; Zhang, Luning; Marschall, Jochen; 2011. Validation of a volume-averaged fiber-scale model for the oxidation of a carbon-fiber preform. . Volume .
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2011Model application 25
Weber, Norbert; Landgraf, Steffen; Mushtaq, Kashif; Nimtz, Michael; Personnettaz, Paolo; Weier, Tom; Zhao, Ji; Sadoway, Donald; 2019. Modeling discontinuous potential distributions using the finite volume method, and application to liquid metal batteries. Electrochimica Acta, 318, 857–864. 10.1016/j.electacta.2019.06.085
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2019Model application 8
Giorgi, Giuseppe; Ringwood, John V.; 2016. Implementation of latching control in a numerical wave tank with regular waves. Journal of Ocean Engineering and Marine Energy, 2, 211–226. 10.1007/s40722-016-0052-8
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2016Model application 20
Passalacqua, A.; Laurent, F.; Madadi-Kandjani, E.; Heylmun, J.C.; Fox, R.O.; 2018. An open-source quadrature-based population balance solver for OpenFOAM. Chemical Engineering Science, 176, 306–318. 10.1016/j.ces.2017.10.043
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2018Model application 26
Petit, Olivier; Nilsson, Håkan; 2013. Numerical Investigations of Unsteady Flow in a Centrifugal Pump with a Vaned Diffuser. International Journal of Rotating Machinery, 2013, 1–14. 10.1155/2013/961580
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2013Model application 30
Schmitt, Pál; Elsaesser, Björn; 2015. On the use of OpenFOAM to model oscillating wave surge converters. Ocean Engineering, 108, 98–104. 10.1016/j.oceaneng.2015.07.055
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2015Model application 49
Cai, Xuan; Marschall, Holger; Wörner, Martin; Deutschmann, Olaf; 2015. Numerical Simulation of Wetting Phenomena with a Phase-Field Method Using OpenFOAM®. Chemical Engineering & Technology, 38, 1985–1992. 10.1002/ceat.201500089
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2015Model application 36
de les Valls, E.Mas; Batet, L.; de Medina, V.; Fradera, J.; Sedano, L.; 2011. Modelling of integrated effect of volumetric heating and magnetic field on tritium transport in a U-bend flow as applied to HCLL blanket concept. Fusion Engineering and Design, 86, 341–356. 10.1016/j.fusengdes.2011.02.075
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2011Model application 28
Yang, Lu; Ładosz, Agnieszka; Jensen, Klavs F.; 2019. Analysis and simulation of multiphase hydrodynamics in capillary microseparators. Lab on a Chip, 19, 706–715. 10.1039/C8LC01296B
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2019Model application 2
Lucchini, T.; D'Errico, G.; Jasak, H.; Tukovic, Z.; 2007. Automatic Mesh Motion with Topological Changes for Engine Simulation. . Volume .
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2007Model application 43
Kunkelmann, Christian; Stephan, Peter; 2010. Numerical simulation of the transient heat transfer during nucleate boiling of refrigerant HFE-7100. International Journal of Refrigeration, 33, 1221–1228. 10.1016/j.ijrefrig.2010.07.013
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2010Model application 74
Li, Xiaopeng; Yao, Wei; Fan, Xuejun; 2016. Large-Eddy Simulation of Time Evolution and Instability of Highly Underexpanded Sonic Jets. AIAA Journal, 54, 3191–3211. 10.2514/1.J054689
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2016Model application 35
Lucas, Christian; Rusche, Henrik; Schroeder, Andreas; Koehler, Juergen; 2014. Numerical investigation of a two-phase CO2 ejector. International Journal of Refrigeration, 43, 154–166. 10.1016/j.ijrefrig.2014.03.003
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2014Model application 50
Schmalfuß, Silvio; Säuberlich, Ralph; Sommerfeld, Martin; 2012. CFD-Simulation und LDA-Messung der Strömungsvorgänge beim Fluidphasenresonanzmischen. Chemie Ingenieur Technik, 84, 547–552. 10.1002/cite.201100205
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2012Model application 4
Greifzu, Franziska; Kratzsch, Christoph; Forgber, Thomas; Lindner, Friederike; Schwarze, Rüdiger; 2016. Assessment of particle-tracking models for dispersed particle-laden flows implemented in OpenFOAM and ANSYS FLUENT. Engineering Applications of Computational Fluid Mechanics, 10, 30–43. 10.1080/19942060.2015.1104266
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2016Model application 52
Braun, James; Saracoglu, Bayindir H.; Paniagua, Guillermo; 2017. Unsteady Performance of Rotating Detonation Engines with Different Exhaust Nozzles. Journal of Propulsion and Power, 33, 121–130. 10.2514/1.B36164
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2017Model application 34
Vranckx, Stijn; Vos, Peter; Maiheu, Bino; Janssen, Stijn; 2015. Impact of trees on pollutant dispersion in street canyons: A numerical study of the annual average effects in Antwerp, Belgium. Science of The Total Environment, 532, 474–483. 10.1016/j.scitotenv.2015.06.032
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2015Model application 74
Wang, Qiang; Zhou, Hu; Wan, Decheng; 2012. Numerical simulation of wind turbine blade-tower interaction. Journal of Marine Science and Application, 11, 321–327. 10.1007/s11804-012-1139-9
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2012Model application 35
Ashour, Rakan F.; Kelley, Douglas H.; Salas, Alejandro; Starace, Marco; Weber, Norbert; Weier, Tom; 2018. Competing forces in liquid metal electrodes and batteries. Journal of Power Sources, 378, 301–310. 10.1016/j.jpowsour.2017.12.042
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2018Model application 21
Zocca, Marta; Gori, Giulio; Guardone, Alberto; 2017. Blockage and Three-Dimensional Effects in Wind-Tunnel Testing of Ice Accretion over Wings. Journal of Aircraft, 54, 759–767. 10.2514/1.C033750
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2017Model application 6
Salvador, F.J.; Carreres, M.; Jaramillo, D.; Martínez-López, J.; 2015. Comparison of microsac and VCO diesel injector nozzles in terms of internal nozzle flow characteristics. Energy Conversion and Management, 103, 284–299. 10.1016/j.enconman.2015.05.062
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2015Model application 36
King, Marco-Felipe; Gough, Hannah L.; Halios, Christos; Barlow, Janet F.; Robertson, Adam; Hoxey, Roger; Noakes, Catherine J.; 2017. Investigating the influence of neighbouring structures on natural ventilation potential of a full-scale cubical building using time-dependent CFD. Journal of Wind Engineering and Industrial Aerodynamics, 169, 265–279. 10.1016/j.jweia.2017.07.020
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2017Model application 37
Devolder, Brecht; Stratigaki, Vasiliki; Troch, Peter; Rauwoens, Pieter; 2018. CFD Simulations of Floating Point Absorber Wave Energy Converter Arrays Subjected to Regular Waves. Energies, 11, 641. 10.3390/en11030641
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2018Model application 29
Gandhi, Mayurkumar S.; Sathe, Mayur J.; Joshi, Jyeshtharaj B.; Vijayan, Pallippattu K.; 2011. Two phase natural convection: CFD simulations and PIV measurement. Chemical Engineering Science, 66, 3152–3171. 10.1016/j.ces.2011.02.060
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2011Model application 36
Wu, Wei-Tao; Yang, Fang; Antaki, James F.; Aubry, Nadine; Massoudi, Mehrdad; 2015. Study of blood flow in several benchmark micro-channels using a two-fluid approach. International Journal of Engineering Science, 95, 49–59. 10.1016/j.ijengsci.2015.06.004
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2015Model application 29
Darbandi, Masoud; Roohi, Ehsan; 2011. Study of subsonic–supersonic gas flow through micro/nanoscale nozzles using unstructured DSMC solver. Microfluidics and Nanofluidics, 10, 321–335. 10.1007/s10404-010-0671-7
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2011Model application 52
Habla, Florian; Marschall, Holger; Hinrichsen, Olaf; Dietsche, Laura; Jasak, Hrvoje; Favero, Jovani L.; 2011. Numerical simulation of viscoelastic two-phase flows using openFOAM®. Chemical Engineering Science, 66, 5487–5496. 10.1016/j.ces.2011.06.076
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2011Model application 40
Stefan, D; Rudolf, P; 2015. Proper Orthogonal Decomposition of Pressure Fields in a Draft Tube Cone of the Francis (Tokke) Turbine Model. Journal of Physics: Conference Series, 579, 012002. 10.1088/1742-6596/579/1/012002
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2015Model application 14
Huang, Zhi-wei; He, Guo-qiang; Qin, Fei; Wei, Xiang-geng; 2015. Large eddy simulation of flame structure and combustion mode in a hydrogen fueled supersonic combustor. International Journal of Hydrogen Energy, 40, 9815–9824. 10.1016/j.ijhydene.2015.06.011
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2015Model application 58
da Rosa, Cezar A.; Braatz, Richard D.; 2018. Multiscale Modeling and Simulation of Macromixing, Micromixing, and Crystal Size Distribution in Radial Mixers/Crystallizers. Industrial & Engineering Chemistry Research, 57, 5433–5441. 10.1021/acs.iecr.8b00359
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2018Model application 14
Mukin, R.V.; 2014. Modeling of bubble coalescence and break-up in turbulent bubbly flow. International Journal of Multiphase Flow, 62, 52–66. 10.1016/j.ijmultiphaseflow.2014.02.008
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2014Model application 35
Concli, Franco; Gorla, Carlo; Della Torre, Augusto; Montenegro, Gianluca; 2015. Churning power losses of ordinary gears: a new approach based on the internal fluid dynamics simulations: CHURNING POWER LOSSES OF ORDINARY GEARS. Lubrication Science, 27, 313–326. 10.1002/ls.1280
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2015Model application 33
Ping, Ping; Wang, Qingsong; Chung, Youngmann; Wen, Jennifer; 2017. Modelling electro-thermal response of lithium-ion batteries from normal to abuse conditions. Applied Energy, 205, 1327–1344. 10.1016/j.apenergy.2017.08.073
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2017Model application 50
Jha, Pankaj; Churchfield, Matthew; Moriarty, Patrick; Schmitz, Sven; 2013. Accuracy of State-of-the-Art Actuator-Line Modeling for Wind Turbine Wakes. . Volume .
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2013Model application 21
Vu, Thi C.; Devals, Christophe; Zhang, Ying; Nennemann, Bernd; Guibault, Francois; 2011. Steady and unsteady flow computation in an elbow draft tube with experimental validation. International Journal of Fluid Machinery and Systems, 4, 85–96. 10.5293/IJFMS.2011.4.1.085
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2011Model application 24
Gómez, F.; Gómez, R.; Theofilis, V.; 2014. On three-dimensional global linear instability analysis of flows with standard aerodynamics codes. Aerospace Science and Technology, 32, 223–234. 10.1016/j.ast.2013.10.006
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2014Model application 38
Castilla, R.; Gamez-Montero, P. J.; del Campo, D.; Raush, G.; Garcia-Vilchez, M.; Codina, E.; 2015. Three-Dimensional Numerical Simulation of an External Gear Pump With Decompression Slot and Meshing Contact Point. Journal of Fluids Engineering, 137, 041105. 10.1115/1.4029223
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2015Model application 29
Cheng, Jingcai; Yang, Chao; Jiang, Mo; Li, Qian; Mao, Zai-Sha; 2017. Simulation of antisolvent crystallization in impinging jets with coupled multiphase flow-micromixing-PBE. Chemical Engineering Science, 171, 500–512. 10.1016/j.ces.2017.06.011
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2017Model application 19
Lysenko, Dmitry A.; Ertesvåg, Ivar S.; Rian, Kjell E.; 2013. Modeling of turbulent separated flows using OpenFOAM. Computers & Fluids, 80, 408–422. 10.1016/j.compfluid.2012.01.015
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2013Model application 50
Wu, Wei; Bernitsas, Michael M.; Maki, Kevin; 2014. RANS Simulation Versus Experiments of Flow Induced Motion of Circular Cylinder With Passive Turbulence Control at 35,000 < RE < 130,000. Journal of Offshore Mechanics and Arctic Engineering, 136, 041802. 10.1115/1.4027895
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2014Model application 32
Farias, Lauren F.I.; de Souza, Jeferson A.; Braatz, Richard D.; da Rosa, Cezar A.; 2019. Coupling of the population balance equation into a two-phase model for the simulation of combined cooling and antisolvent crystallization using OpenFOAM. Computers & Chemical Engineering, 123, 246–256. 10.1016/j.compchemeng.2019.01.009
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2019Model application 6
Ku, Xiaoke; Li, Tian; Løvås, Terese; 2014. Eulerian–Lagrangian Simulation of Biomass Gasification Behavior in a High-Temperature Entrained-Flow Reactor. Energy & Fuels, 28, 5184–5196. 10.1021/ef5010557
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2014Model application 60
Heft, Angelina I.; Indinger, Thomas; Adams, Nikolaus A.; 2012. Experimental and Numerical Investigation of the DrivAer Model. . Volume .
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2012Model application 28
Qin, Xinsheng; Motley, Michael; LeVeque, Randall; Gonzalez, Frank; Mueller, Kaspar; 2018. A comparison of a two-dimensional depth-averaged flow model and a three-dimensional RANS model for predicting tsunami inundation and fluid forces. Natural Hazards and Earth System Sciences, 18, 2489–2506. 10.5194/nhess-18-2489-2018
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2018Model application 7
da Rosa, Cezar A.; Braatz, Richard D.; 2018. openCrys: Open-Source Software for the Multiscale Modeling of Combined Antisolvent and Cooling Crystallization in Turbulent Flow. Industrial & Engineering Chemistry Research, 57, 11702–11711. 10.1021/acs.iecr.8b01849
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2018Model application 7
Zhang, Hongming; Zhang, Lixiang; 2012. Numerical simulation of cavitating turbulent flow in a high head Francis turbine at part load operation with OpenFOAM. Procedia Engineering, 31, 156–165. 10.1016/j.proeng.2012.01.1006
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2012Model application 17
Wang, Chao; Nilsson, Håkan; Yang, Jiandong; Petit, Olivier; 2017. 1D–3D coupling for hydraulic system transient simulations. Computer Physics Communications, 210, 1–9. 10.1016/j.cpc.2016.09.007
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2017Model application 25
Minakuchi, H.; Takagi, Y.; Okano, Y.; Gima, S.; Dost, S.; 2014. The relative contributions of thermo-solutal Marangoni convections on flow patterns in a liquid bridge. Journal of Crystal Growth, 385, 61–65. 10.1016/j.jcrysgro.2013.05.042
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2014Model application 24
Hajishafiee, A.; Kadiric, A.; Ioannides, S.; Dini, D.; 2017. A coupled finite-volume CFD solver for two-dimensional elasto-hydrodynamic lubrication problems with particular application to rolling element bearings. Tribology International, 109, 258–273. 10.1016/j.triboint.2016.12.046
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2017Model application 32
Dose, B.; Rahimi, H.; Herráez, I.; Stoevesandt, B.; Peinke, J.; 2018. Fluid-structure coupled computations of the NREL 5 MW wind turbine by means of CFD. Renewable Energy, 129, 591–605. 10.1016/j.renene.2018.05.064
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2018Model application 24
D’Alessandro, Valerio; Montelpare, Sergio; Ricci, Renato; 2016. Detached–eddy simulations of the flow over a cylinder at Re = 3900 using OpenFOAM. Computers & Fluids, 136, 152–169. 10.1016/j.compfluid.2016.05.031
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2016Model application 40
Lilleberg, Bjørn; Christ, Dominik; Ertesvåg, Ivar S.; Rian, Kjell Erik; Kneer, Reinhold; 2013. Numerical Simulation with an Extinction Database for Use with the Eddy Dissipation Concept for Turbulent Combustion. Flow, Turbulence and Combustion, 91, 319–346. 10.1007/s10494-013-9463-y
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2013Model application 32
Nieves-Remacha, María José; Yang, Lu; Jensen, Klavs F.; 2015. OpenFOAM Computational Fluid Dynamic Simulations of Two-Phase Flow and Mass Transfer in an Advanced-Flow Reactor. Industrial & Engineering Chemistry Research, 54, 6649–6659. 10.1021/acs.iecr.5b00480
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2015Model application 39
Mohamed Ismail, Harun; Ng, Hoon Kiat; Gan, Suyin; Lucchini, Tommaso; Onorati, Angelo; 2013. Development of a reduced biodiesel combustion kinetics mechanism for CFD modelling of a light-duty diesel engine. Fuel, 106, 388–400. 10.1016/j.fuel.2012.10.015
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2013Model application 54
Devolder, Brecht; Rauwoens, Pieter; Troch, Peter; 2017. Application of a buoyancy-modified k-ω SST turbulence model to simulate wave run-up around a monopile subjected to regular waves using OpenFOAM ®. Coastal Engineering, 125, 81–94. 10.1016/j.coastaleng.2017.04.004
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2017Model application 47
Herzog, Nicoleta; Schreiber, Matthias; Egbers, Christoph; Krautz, Hans Joachim; 2012. A comparative study of different CFD-codes for numerical simulation of gas–solid fluidized bed hydrodynamics. Computers & Chemical Engineering, 39, 41–46. 10.1016/j.compchemeng.2011.12.002
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2012Model application 52
Jeanjean, A.P.R.; Hinchliffe, G.; McMullan, W.A.; Monks, P.S.; Leigh, R.J.; 2015. A CFD study on the effectiveness of trees to disperse road traffic emissions at a city scale. Atmospheric Environment, 120, 1–14. 10.1016/j.atmosenv.2015.08.003
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2015Model application 62
Hartinger, Markus; Dumont, Marie-Laure; Ioannides, Stathis; Gosman, David; Spikes, Hugh; 2008. CFD Modeling of a Thermal and Shear-Thinning Elastohydrodynamic Line Contact. Journal of Tribology, 130, 041503. 10.1115/1.2958077
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2008Model application 56
Yuan, Weixing; Wall, Alanna; Lee, Richard; 2018. Combined numerical and experimental simulations of unsteady ship airwakes. Computers & Fluids, 172, 29–53. 10.1016/j.compfluid.2018.06.006
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2018Model application 25
Arif, S.; Branken, D.J.; Everson, R.C.; Neomagus, H.W.J.P.; le Grange, L.A.; Arif, A.; 2016. CFD modeling of particle charging and collection in electrostatic precipitators. Journal of Electrostatics, 84, 10–22. 10.1016/j.elstat.2016.08.008
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2016Model application 38
Stahlmann, Arne; Schlurmann, Torsten; 2012. INVESTIGATIONS ON SCOUR DEVELOPMENT AT TRIPOD FOUNDATIONS FOR OFFSHORE WIND TURBINES: MODELING AND APPLICATION. Coastal Engineering Proceedings, 1, 90. 10.9753/icce.v33.sediment.90
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2012Model application 13
Kuvshinnikov, Artem E.; Bondarev, Alexander E.; 2017. Comparative Study of the Accuracy for OpenFOAM Solvers. . Volume .
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2017Model application 9
Bai, Xiao-Dong; Zhang, Wei; Zheng, Jin-Hai; Wang, Yong; 2020. On the mass source internal wave making method for ALE based numerical wave tank. Journal of Marine Science and Technology, , . 10.1007/s00773-020-00702-z
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2020Model application 0
Vyzikas, Thomas; Deshoulières, Samy; Giroux, Olivier; Barton, Matthew; Greaves, Deborah; 2017. Numerical study of fixed Oscillating Water Column with RANS-type two-phase CFD model. Renewable Energy, 102, 294–305. 10.1016/j.renene.2016.10.044
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2017Model application 40
He, Ping; Mader, Charles A.; Martins, Joaquim R. R. A.; Maki, Kevin J.; 2020. DAFoam: An Open-Source Adjoint Framework for Multidisciplinary Design Optimization with OpenFOAM. AIAA Journal, 58, 1304–1319. 10.2514/1.J058853
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2020Model application 14
Razmi, Hamid; Soltani Goharrizi, Ataallah; Mohebbi, Ali; 2019. CFD simulation of an industrial hydrocyclone based on multiphase particle in cell (MPPIC) method. Separation and Purification Technology, 209, 851–862. 10.1016/j.seppur.2018.06.073
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2019Model application 31
Wang, Qian; Ren, Xiao-Guang; Xu, Xin-Hai; Li, Chao; Ji, Hong-Yu; Yang, Xue-Jun; 2017. Coupling Strategies Investigation of Hybrid Atomistic-Continuum Method Based on State Variable Coupling. Advances in Materials Science and Engineering, 2017, 1–21. 10.1155/2017/1014636
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2017Model application 22
Morgan, Gerald Charles John; Zang, Jun; Greaves, Deborah; Heath, Andrew; Whitlow, Chris; Young, John; 2011. USING THE RASINTERFOAM CFD MODEL FOR WAVE TRANSFORMATION AND COASTAL MODELLING. Coastal Engineering Proceedings, 1, 23. 10.9753/icce.v32.waves.23
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2011Model application 26
Rzehak, Roland; Kriebitzsch, Sebastian; 2015. Multiphase CFD-simulation of bubbly pipe flow: A code comparison. International Journal of Multiphase Flow, 68, 135–152. 10.1016/j.ijmultiphaseflow.2014.09.005
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2015Model application 52
Dao, My Ha; Chew, Lup Wai; Zhang, Yali; 2018. Modelling physical wave tank with flap paddle and porous beach in OpenFOAM. Ocean Engineering, 154, 204–215. 10.1016/j.oceaneng.2018.02.024
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2018Model application 7
Gaggero, Stefano; Villa, Diego; Tani, Giorgio; Viviani, Michele; Bertetta, Daniele; 2017. Design of ducted propeller nozzles through a RANSE-based optimization approach. Ocean Engineering, 145, 444–463. 10.1016/j.oceaneng.2017.09.037
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2017Model application 23
Liu, Yefei; Hinrichsen, Olaf; 2014. Study on CFD–PBM turbulence closures based on k–ε and Reynolds stress models for heterogeneous bubble column flows. Computers & Fluids, 105, 91–100. 10.1016/j.compfluid.2014.09.023
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2014Model application 49
He, Ping; Mader, Charles A.; Martins, Joaquim; Maki, Kevin; 2019. An Object-oriented Framework for Rapid Discrete Adjoint Development using OpenFOAM. . Volume .
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2019Model application 6
Borrmann, S.; Kratzsch, C.; Halbauer, L.; Buchwalder, A.; Biermann, H.; Saenko, I.; Chattopadhyay, K.; Schwarze, R.; 2019. Electron beam welding of CrMnNi-steels: CFD-modeling with temperature sensitive thermophysical properties. International Journal of Heat and Mass Transfer, 139, 442–455. 10.1016/j.ijheatmasstransfer.2019.04.125
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2019Model application 5
Neumann, Tomasz; Gornicz, T; Kulczyk, J; 2013. The Assessment of the Application of the CFD Package OpenFOAM to Simulating Flow Around the Propeller. In: (eds.)Marine Navigation and Safety of Sea Transportation.. 247–251.
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2013Model application 3
Kågström, Bo; Elmroth, Erik; Dongarra, Jack; Waśniewski, Jerzy; Hutchison, David; Kanade, Takeo; Kittler, Josef; Kleinberg, Jon M.; Mattern, Friedemann; Mitchell, John C.; Naor, Moni; Nierstrasz, Oscar; Pandu Rangan, C.; Steffen, Bernhard; Sudan, Madhu; Terzopoulos, Demetri; Tygar, Doug; Vardi, Moshe Y.; Weikum, Gerhard; 2007. Applied Parallel Computing. State of the Art in Scientific Computing: 8th International Workshop, PARA 2006, Umeå, Sweden, June 18-21, 2006, Revised Selected Papers. In: (eds.).. .
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2007Model application 31
Huang, Luofeng; Ren, Kang; Li, Minghao; Tuković, Željko; Cardiff, Philip; Thomas, Giles; 2019. Fluid-structure interaction of a large ice sheet in waves. Ocean Engineering, 182, 102–111. 10.1016/j.oceaneng.2019.04.015
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2019Model application 21
Dau, V.T.; Dinh, T.X.; 2015. Numerical study and experimental validation of a valveless piezoelectric air blower for fluidic applications. Sensors and Actuators B: Chemical, 221, 1077–1083. 10.1016/j.snb.2015.07.041
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2015Model application 30
Lewandowski, Michał T.; Ertesvåg, Ivar S.; 2018. Analysis of the Eddy Dissipation Concept formulation for MILD combustion modelling. Fuel, 224, 687–700. 10.1016/j.fuel.2018.03.110
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2018Model application 28
Toja-Silva, Francisco; Peralta, Carlos; Lopez-Garcia, Oscar; Navarro, Jorge; Cruz, Ignacio; 2015. Roof region dependent wind potential assessment with different RANS turbulence models. Journal of Wind Engineering and Industrial Aerodynamics, 142, 258–271. 10.1016/j.jweia.2015.04.012
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2015Model application 45
Zhou, Zhi-Fu; Lu, Guan-Yu; Chen, Bin; 2018. Numerical study on the spray and thermal characteristics of R404A flashing spray using OpenFOAM. International Journal of Heat and Mass Transfer, 117, 1312–1321. 10.1016/j.ijheatmasstransfer.2017.10.095
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2018Model application 29
Wang, Yiwei; Huang, Chenguang; Fang, Xin; Yu, Xianian; Wu, Xiaocui; Du, Tezhuan; 2016. Cloud Cavitating Flow Over a Submerged Axisymmetric Projectile and Comparison Between Two-Dimensional RANS and Three-Dimensional Large-Eddy Simulation Methods. Journal of Fluids Engineering, 138, 061102. 10.1115/1.4032293
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2016Model application 13
Zhang, Chenguang; 2020. sdfibm: a signed distance field based discrete forcing immersed boundary method in OpenFOAM. Computer Physics Communications, 255, 107370. 10.1016/j.cpc.2020.107370
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2020Model application 2
Li, Jingxuan; Xia, Yu; Morgans, Aimee S.; Han, Xingsi; 2017. Numerical prediction of combustion instability limit cycle oscillations for a combustor with a long flame. Combustion and Flame, 185, 28–43. 10.1016/j.combustflame.2017.06.018
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2017Model application 40
Okafor, Ekenechukwu C.; Somarathne, K.D. Kunkuma A.; Hayakawa, Akihiro; Kudo, Taku; Kurata, Osamu; Iki, Norihiko; Kobayashi, Hideaki; 2019. Towards the development of an efficient low-NOx ammonia combustor for a micro gas turbine. Proceedings of the Combustion Institute, 37, 4597–4606. 10.1016/j.proci.2018.07.083
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2019Model application 66
Wray, Timothy J.; Agarwal, Ramesh K.; 2015. Low-Reynolds-Number One-Equation Turbulence Model Based on k-ω Closure. AIAA Journal, 53, 2216–2227. 10.2514/1.J053632
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2015Model application 20
Jasak, Hrvoje; Vukčević, Vuko; Gatin, Inno; Lalović, Igor; 2019. CFD validation and grid sensitivity studies of full scale ship self propulsion. International Journal of Naval Architecture and Ocean Engineering, 11, 33–43. 10.1016/j.ijnaoe.2017.12.004
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2019Model application 46
Devolder, Brecht; Troch, Peter; Rauwoens, Pieter; 2018. Performance of a buoyancy-modified k-ω and k-ω SST turbulence model for simulating wave breaking under regular waves using OpenFOAM®. Coastal Engineering, 138, 49–65. 10.1016/j.coastaleng.2018.04.011
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2018Model application 34
Roghair, Ivo; Musterd, Michiel; van den Ende, Dirk; Kleijn, Chris; Kreutzer, Michiel; Mugele, Frieder; 2015. A numerical technique to simulate display pixels based on electrowetting. Microfluidics and Nanofluidics, 19, 465–482. 10.1007/s10404-015-1581-5
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2015Model application 29
Byrne, Jonathan; Cardiff, Philip; Brabazon, Anthony; O׳Neill, Michael; 2014. Evolving parametric aircraft models for design exploration and optimisation. Neurocomputing, 142, 39–47. 10.1016/j.neucom.2014.04.004
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2014Model application 23
Cregg, P.J.; Murphy, Kieran; Mardinoglu, Adil; 2012. Inclusion of interactions in mathematical modelling of implant assisted magnetic drug targeting. Applied Mathematical Modelling, 36, 1–34. 10.1016/j.apm.2011.05.036
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2012Model application 44
Gebreslassie, Mulualem G.; Tabor, Gavin R.; Belmont, Michael R.; 2013. Numerical simulation of a new type of cross flow tidal turbine using OpenFOAM – Part I: Calibration of energy extraction. Renewable Energy, 50, 994–1004. 10.1016/j.renene.2012.08.065
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2013Model application 24
Garcia-Oliver, Jose M; Pastor, Jose M.; Pandal, A.; Trask, N.; Baldwin, E.; Schmidt, David P.; 2013. DIESEL SPRAY CFD SIMULATIONS BASED ON THE Σ-Υ EULERIAN ATOMIZATION MODEL. Atomization and Sprays, 23, 71–95. 10.1615/AtomizSpr.2013007198
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2013Model application 38
Hopp-Hirschler, Manuel; Shadloo, Mostafa Safdari; Nieken, Ulrich; 2018. A Smoothed Particle Hydrodynamics approach for thermo-capillary flows. Computers & Fluids, 176, 1–19. 10.1016/j.compfluid.2018.09.010
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2018Model application 59
Cao, Hong-Jian; Wan, De-Cheng; 2015. Development of Multidirectional Nonlinear Numerical Wave Tank by Naoe-FOAM-SJTU Solver. Journal of Advanced Research in Ocean Engineering, 1, 14–24. 10.5574/JAROE.2015.1.1.014
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2015Model application 1
Cao, Hong-Jian; Wan, De-Cheng; 2014. Development of Multidirectional Nonlinear Numerical Wave Tank by Naoe-FOAM-SJTU Solver. International Journal of Ocean System Engineering, 4, 49–56. 10.5574/IJOSE.2014.4.1.049
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2014Model application 25
Temel, Orkun; Bricteux, Laurent; van Beeck, Jeroen; 2018. Coupled WRF-OpenFOAM study of wind flow over complex terrain. Journal of Wind Engineering and Industrial Aerodynamics, 174, 152–169. 10.1016/j.jweia.2018.01.002
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2018Model application 30
Cadieux, Francois; Sun, Guangrui; Domaradzki, Julian A.; 2017. Effects of numerical dissipation on the interpretation of simulation results in computational fluid dynamics. Computers & Fluids, 154, 256–272. 10.1016/j.compfluid.2017.06.009
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2017Model application 9
Bayon, Arnau; Toro, Juan Pablo; Bombardelli, Fabián A.; Matos, Jorge; López-Jiménez, Petra Amparo; 2018. Influence of VOF technique, turbulence model and discretization scheme on the numerical simulation of the non-aerated, skimming flow in stepped spillways. Journal of Hydro-environment Research, 19, 137–149. 10.1016/j.jher.2017.10.002
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2018Model application 30
Hu, Zheng Zheng; Greaves, Deborah; Raby, Alison; 2016. Numerical wave tank study of extreme waves and wave-structure interaction using OpenFoam®. Ocean Engineering, 126, 329–342. 10.1016/j.oceaneng.2016.09.017
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2016Model application 65
Seng, Sopheak; Jensen, Jørgen Juncher; Malenica, Šime; 2014. Global hydroelastic model for springing and whipping based on a free-surface CFD code (OpenFOAM). International Journal of Naval Architecture and Ocean Engineering, 6, 1024–1040. 10.2478/IJNAOE-2013-0229
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2014Model application 27
Yang, Wen-Jing; Yi, Wei; Ren, Xiao-Guang; Xu, Li-Yang; Xu, Xin-Hai; Yuan, Xue-Feng; 2015. Toward large scale parallel computer simulation of viscoelastic fluid flow: A study of benchmark flow problems. Journal of Non-Newtonian Fluid Mechanics, 222, 82–95. 10.1016/j.jnnfm.2014.09.004
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2015Model application 16
Syrakos, Alexandros; Varchanis, Stylianos; Dimakopoulos, Yannis; Goulas, Apostolos; Tsamopoulos, John; 2017. A critical analysis of some popular methods for the discretisation of the gradient operator in finite volume methods. Physics of Fluids, 29, 127103. 10.1063/1.4997682
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2017Model application 0
Franke, J.; Sturm, M.; Kalmbach, C.; 2012. Validation of OpenFOAM 1.6.x with the German VDI guideline for obstacle resolving micro-scale models. Journal of Wind Engineering and Industrial Aerodynamics, 104, 350–359. 10.1016/j.jweia.2012.02.021
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2012Model application 31
Wang, Jianhua; Zou, Lu; Wan, Decheng; 2017. CFD simulations of free running ship under course keeping control. Ocean Engineering, 141, 450–464. 10.1016/j.oceaneng.2017.06.052
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2017Model application 31
Lachaud, J.; Scoggins, J.B.; Magin, T.E.; Meyer, M.G.; Mansour, N.N.; 2017. A generic local thermal equilibrium model for porous reactive materials submitted to high temperatures. International Journal of Heat and Mass Transfer, 108, 1406–1417. 10.1016/j.ijheatmasstransfer.2016.11.067
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2017Model application 28
Cheng, Zhen; Hsu, Tian-Jian; Calantoni, Joseph; 2017. SedFoam: A multi-dimensional Eulerian two-phase model for sediment transport and its application to momentary bed failure. Coastal Engineering, 119, 32–50. 10.1016/j.coastaleng.2016.08.007
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2017Model application 53
Desantes, José María; Salvador, Francisco Javier; Carreres, Marcos; Martínez-López, Jorge; 2015. Large-eddy simulation analysis of the influence of the needle lift on the cavitation in diesel injector nozzles. Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering, 229, 407–423. 10.1177/0954407014542627
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2015Model application 29
Liu, Yuanchuan; Xiao, Qing; Incecik, Atilla; Wan, De-cheng; 2016. Investigation of the effects of platform motion on the aerodynamics of a floating offshore wind turbine. Journal of Hydrodynamics, 28, 95–101. 10.1016/S1001-6058(16)60611-X
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2016Model application 19
Chauchat, Julien; Cheng, Zhen; Nagel, Tim; Bonamy, Cyrille; Hsu, Tian-Jian; 2017. SedFoam-2.0: a 3-D two-phase flow numerical model for sediment transport. Geoscientific Model Development, 10, 4367–4392. 10.5194/gmd-10-4367-2017
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2017Model application 35
Capurso, T.; Lopez, M.; 2017. Numerical investigation of cavitation on a NACA0015 hydrofoil by means of OpenFOAM. Energy Procedia, 126, 794–801. 10.1016/j.egypro.2017.08.280
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2017Model application 9
Ferrari, Andrea; Magnini, Mirco; Thome, John R.; 2017. A Flexible Coupled Level Set and Volume of Fluid (flexCLV) method to simulate microscale two-phase flow in non-uniform and unstructured meshes. International Journal of Multiphase Flow, 91, 276–295. 10.1016/j.ijmultiphaseflow.2017.01.017
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2017Model application 31
Wu, Kun; Zhang, Peng; Yao, Wei; Fan, Xuejun; 2017. Numerical Investigation on Flame Stabilization in DLR Hydrogen Supersonic Combustor with Strut Injection. Combustion Science and Technology, 189, 2154–2179. 10.1080/00102202.2017.1365847
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2017Model application 30
Chen, Feng; Drumm, Eric. C.; Guiochon, Georges; 2011. Coupled discrete element and finite volume solution of two classical soil mechanics problems. Computers and Geotechnics, 38, 638–647. 10.1016/j.compgeo.2011.03.009
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2011Model application 43
Shen, Zhi-rong; Wan, De-cheng; 2016. An irregular wave generating approach based on naoe-FOAM-SJTU solver. China Ocean Engineering, 30, 177–192. 10.1007/s13344-016-0010-1
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2016Model application 22
Jasak, Hrvoje; Beaudoin, Martin; 2011. OpenFOAM Turbo Tools: From General Purpose CFD to Turbomachinery Simulations. . Volume .
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2011Model application 25
Hong, Se-Woon; Exadaktylos, Vasileios; Lee, In-Bok; Amon, Thomas; Youssef, Ali; Norton, Tomas; Berckmans, Daniel; 2017. Validation of an open source CFD code to simulate natural ventilation for agricultural buildings. Computers and Electronics in Agriculture, 138, 80–91. 10.1016/j.compag.2017.03.022
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2017Model application 22
Cocks, Peter; Sankaran, Vaidyanathan; Soteriou, Marios; 2013. Is LES of reacting flows predictive? Part 1: Impact of numerics. . Volume .
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2013Model application 24
Raayai-Ardakani, Shabnam; McKinley, Gareth H.; 2017. Drag reduction using wrinkled surfaces in high Reynolds number laminar boundary layer flows. Physics of Fluids, 29, 093605. 10.1063/1.4995566
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2017Model application 28
Heidarinejad, Mohammad; Gracik, Stefan; Sadeghipour Roudsari, Mostapha; Khoshdel Nikkho, Saber; Liu, Jiying; Liu, Kai; Pitchorov, George; Srebric, Jelena; 2016. Influence of building surface solar irradiance on environmental temperatures in urban neighborhoods. Sustainable Cities and Society, 26, 186–202. 10.1016/j.scs.2016.06.011
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2016Model application 22
Magolan, Ben; Lubchenko, Nazar; Baglietto, Emilio; 2019. A quantitative and generalized assessment of bubble-induced turbulence models for gas-liquid systems. Chemical Engineering Science: X, 2, 100009. 10.1016/j.cesx.2019.100009
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2019Model application 12
Alekseev, V. V.; Kozlov, F. A.; Sorokin, A. P.; Varseev, E. V.; Kumaev, V. Ya.; Kondrat’ev, A. S.; 2015. Calculation of Impurity Mass Transfer in Cold Traps with Sodium Cooling. Atomic Energy, 118, 318–323. 10.1007/s10512-015-9999-0
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2015Model application 2
Peralta, C.; Nugusse, H.; Kokilavani, S.P.; Schmidt, J.; Stoevesandt, B.; Medjroubi, W.; Stoevesand, B.; Peralta, C.; 2014. Validation of the simpleFoam (RANS) solver for the atmospheric boundary layer in complex terrain. ITM Web of Conferences, 2, 01002. 10.1051/itmconf/20140201002
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2014Model application 16
Cao, Yong; Tamura, Tetsuro; 2016. Large-eddy simulations of flow past a square cylinder using structured and unstructured grids. Computers & Fluids, 137, 36–54. 10.1016/j.compfluid.2016.07.013
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2016Model application 54
Anez, J.; Ahmed, A.; Hecht, N.; Duret, B.; Reveillon, J.; Demoulin, F.X.; 2019. Eulerian–Lagrangian spray atomization model coupled with interface capturing method for diesel injectors. International Journal of Multiphase Flow, 113, 325–342. 10.1016/j.ijmultiphaseflow.2018.10.009
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2019Model application 20
Auger, Anne; Fonseca, Carlos M.; Lourenço, Nuno; Machado, Penousal; Paquete, Luís; Whitley, Darrell; Daniels, Steven J.; Rahat, Alma A. M.; Everson, Richard M.; Tabor, Gavin R.; Fieldsend, Jonathan E.; 2018. A Suite of Computationally Expensive Shape Optimisation Problems Using Computational Fluid Dynamics. In: (eds.)Parallel Problem Solving from Nature – PPSN XV.. 296–307.
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2018Model application 23
Zhou, Zheyu; Hsu, Tian-Jian; Cox, Daniel; Liu, Xiaofeng; 2017. Large-eddy simulation of wave-breaking induced turbulent coherent structures and suspended sediment transport on a barred beach: SEDIMENT TRANSPORT UNDER BREAKING WAVES. Journal of Geophysical Research: Oceans, 122, 207–235. 10.1002/2016JC011884
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2017Model application 34
Houssami, M. El; Thomas, J.C.; Lamorlette, A.; Morvan, D.; Chaos, M.; Hadden, R.; Simeoni, A.; 2016. Experimental and numerical studies characterizing the burning dynamics of wildland fuels. Combustion and Flame, 168, 113–126. 10.1016/j.combustflame.2016.04.004
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2016Model application 22
Samkhaniani, N.; Ansari, M.R.; 2016. Numerical simulation of bubble condensation using CF-VOF. Progress in Nuclear Energy, 89, 120–131. 10.1016/j.pnucene.2016.02.004
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2016Model application 40
Bayraktar, Evren; Mierka, Otto; Turek, Stefan; 2012. Benchmark computations of 3D laminar flow around a cylinder with CFX, OpenFOAM and FeatFlow. International Journal of Computational Science and Engineering, 7, 253. 10.1504/IJCSE.2012.048245
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2012Model application 33
Repetto, Rodolfo; Pralits, Jan O.; Siggers, Jennifer H.; Soleri, Paolo; 2015. Phakic Iris-Fixated Intraocular Lens Placement in the Anterior Chamber: Effects on Aqueous Flow. Investigative Opthalmology & Visual Science, 56, 3061. 10.1167/iovs.14-16118
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2015Model application 19
Veilleux, Jean-Christophe; Dumas, Guy; 2017. Numerical optimization of a fully-passive flapping-airfoil turbine. Journal of Fluids and Structures, 70, 102–130. 10.1016/j.jfluidstructs.2017.01.019
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2017Model application 32
Ma, Likun; Roekaerts, Dirk; 2016. Modeling of spray jet flame under MILD condition with non-adiabatic FGM and a new conditional droplet injection model. Combustion and Flame, 165, 402–423. 10.1016/j.combustflame.2015.12.025
(View/edit entry)
2016Model application 35
Vuorinen, V.; Chaudhari, A.; Keskinen, J.-P.; 2015. Large-eddy simulation in a complex hill terrain enabled by a compact fractional step OpenFOAM® solver. Advances in Engineering Software, 79, 70–80. 10.1016/j.advengsoft.2014.09.008
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2015Model application 33
Zikanov, Oleg; 2019. Numerical simulation of rolling pad instability in cuboid liquid metal batteries. Physics of Fluids, 31, 124104. 10.1063/1.5123170
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2019Model application 0
Buffo, Antonio; Marchisio, Daniele L.; Vanni, Marco; Renze, Peter; 2013. Simulation of polydisperse multiphase systems using population balances and example application to bubbly flows. Chemical Engineering Research and Design, 91, 1859–1875. 10.1016/j.cherd.2013.06.021
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2013Model application 43
Hinterberger, Christof; Olesen, Mark; 2010. Automatic Geometry Optimization of Exhaust Systems Based on Sensitivities Computed by a Continuous Adjoint CFD Method in OpenFOAM. . Volume .
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2010Model application 13
Rakhsha, Milad; Akbaridoust, Farzan; Abbassi, Abbas; Majid, Saffar-Avval; 2015. Experimental and numerical investigations of turbulent forced convection flow of nano-fluid in helical coiled tubes at constant surface temperature. Powder Technology, 283, 178–189. 10.1016/j.powtec.2015.05.019
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2015Model application 39
Deising, Daniel; Marschall, Holger; Bothe, Dieter; 2016. A unified single-field model framework for Volume-Of-Fluid simulations of interfacial species transfer applied to bubbly flows. Chemical Engineering Science, 139, 173–195. 10.1016/j.ces.2015.06.021
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2016Model application 37
Rabbani, Harris Sajjad; Joekar-Niasar, Vahid; Shokri, Nima; 2016. Effects of intermediate wettability on entry capillary pressure in angular pores. Journal of Colloid and Interface Science, 473, 34–43. 10.1016/j.jcis.2016.03.053
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2016Model application 45
Senturk, Utku; Smits, Alexander J.; 2018. Numerical simulations of the flow around a square pitching panel. Journal of Fluids and Structures, 76, 454–468. 10.1016/j.jfluidstructs.2017.11.001
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2018Model application 11
Gaggero, Stefano; Villa, Diego; 2017. Steady cavitating propeller performance by using OpenFOAM, StarCCM+and a boundary element method. Proceedings of the Institution of Mechanical Engineers, Part M: Journal of Engineering for the Maritime Environment, 231, 411–440. 10.1177/1475090216644280
(View/edit entry)
2017Model application 25
Huang, Jian; Yu, Chao; Wang, Yiwei; Xu, Chang; Huang, Chenguang; 2017. Passive control of cavitating flow around an axisymmetric projectile by using a trip bar. Theoretical and Applied Mechanics Letters, 7, 181–184. 10.1016/j.taml.2017.09.003
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2017Model application 7
Silva, L.F.L.R.; Lage, P.L.C.; 2011. Development and implementation of a polydispersed multiphase flow model in OpenFOAM. Computers & Chemical Engineering, 35, 2653–2666. 10.1016/j.compchemeng.2011.04.011
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2011Model application 53
Gandhir, A.; Hassan, Y.; 2011. RANS modeling for flow in nuclear fuel bundle in pressurized water reactors (PWR). Nuclear Engineering and Design, 241, 4404–4408. 10.1016/j.nucengdes.2011.08.084
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2011Model application 25
Bilger, C.; Aboukhedr, M.; Vogiatzaki, K.; Cant, R.S.; 2017. Evaluation of two-phase flow solvers using Level Set and Volume of Fluid methods. Journal of Computational Physics, 345, 665–686. 10.1016/j.jcp.2017.05.044
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2017Model application 24
Duran, Ahmet; Celebi, M. Serdar; Piskin, Senol; Tuncel, Mehmet; 2015. Scalability of OpenFOAM for bio-medical flow simulations. The Journal of Supercomputing, 71, 938–951. 10.1007/s11227-014-1344-1
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2015Model application 14
Bella, G.; Krastev, V. K.; 2011. On the RANS Modeling of Turbulent Airflow Over a Simplified Car Model. . Volume .
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2011Model application 12
Shen, Chun; Xia, Xin-lin; Wang, Yong-zhen; Yu, Feng; Jiao, Zhen-wei; 2016. Implementation of density-based implicit LU-SGS solver in the framework of OpenFOAM. Advances in Engineering Software, 91, 80–88. 10.1016/j.advengsoft.2015.10.007
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2016Model application 12
Horneber, T.; Rauh, C.; Delgado, A.; 2014. Numerical simulations of fluid dynamics in carrier structures for catalysis: characterization and need for optimization. Chemical Engineering Science, 117, 229–238. 10.1016/j.ces.2014.06.036
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2014Model application 13
Towara, M.; Naumann, U.; 2013. A Discrete Adjoint Model for OpenFOAM. Procedia Computer Science, 18, 429–438. 10.1016/j.procs.2013.05.206
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2013Model application 37
Martins, Ricardo; Leandro, Jorge; de Carvalho, Rita Fernandes; 2014. Characterization of the hydraulic performance of a gully under drainage conditions. Water Science and Technology, 69, 2423–2430. 10.2166/wst.2014.168
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2014Model application 28
Hutchison, David; Kanade, Takeo; Kittler, Josef; Kleinberg, Jon M.; Mattern, Friedemann; Mitchell, John C.; Naor, Moni; Nierstrasz, Oscar; Pandu Rangan, C.; Steffen, Bernhard; Sudan, Madhu; Terzopoulos, Demetri; Tygar, Doug; Vardi, Moshe Y.; Weikum, Gerhard; Manninen, Pekka; Öster, Per; Åström, J. A.; Carter, A.; Hetherington, J.; Ioakimidis, K.; Lindahl, E.; Mozdzynski, G.; Nash, R. W.; Schlatter, P.; Signell, A.; Westerholm, J.; 2013. Preparing Scientific Application Software for Exascale Computing. In: (eds.)Applied Parallel and Scientific Computing.. 27–42.
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2013Model application 2
Hutchison, David; Kanade, Takeo; Kittler, Josef; Kleinberg, Jon M.; Mattern, Friedemann; Mitchell, John C.; Naor, Moni; Nierstrasz, Oscar; Pandu Rangan, C.; Steffen, Bernhard; Sudan, Madhu; Terzopoulos, Demetri; Tygar, Doug; Vardi, Moshe Y.; Weikum, Gerhard; Manninen, Pekka; Öster, Per; Åström, J. A.; Carter, A.; Hetherington, J.; Ioakimidis, K.; Lindahl, E.; Mozdzynski, G.; Nash, R. W.; Schlatter, P.; Signell, A.; Westerholm, J.; 2013. Preparing Scientific Application Software for Exascale Computing. In: (eds.)Applied Parallel and Scientific Computing.. 27–42.
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2013Model application 6
Indurain, B.; Uystepruyst, D.; Beaubert, F.; Lalot, S.; Helgadóttir, Á.; 2020. Numerical investigation of several twisted tubes with non-conventional tube cross sections on heat transfer and pressure drop. Journal of Thermal Analysis and Calorimetry, 140, 1555–1568. 10.1007/s10973-019-08965-4
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2020Model application 7
Kang, Peter K.; Lee, Woonghee; Lee, Seockheon; Kim, Albert S.; 2017. Origin of structural parameter inconsistency in forward osmosis models: A pore-scale CFD study. Desalination, 421, 47–60. 10.1016/j.desal.2017.05.018
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2017Model application 12
Sun, Rui; Xiao, Heng; 2015. Diffusion-based coarse graining in hybrid continuum–discrete solvers: Applications in CFD–DEM. International Journal of Multiphase Flow, 72, 233–247. 10.1016/j.ijmultiphaseflow.2015.02.014
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2015Model application 45
Cao, Liu; Sun, Fei; Chen, Tao; Tang, Yulong; Liao, Dunming; 2018. Quantitative prediction of oxide inclusion defects inside the casting and on the walls during cast-filling processes. International Journal of Heat and Mass Transfer, 119, 614–623. 10.1016/j.ijheatmasstransfer.2017.11.127
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2018Model application 8
Fiaschi, Daniele; Manfrida, Giampaolo; Russo, Luigi; Talluri, Lorenzo; 2017. Improvement of waste heat recuperation on an industrial textile dryer: Redesign of heat exchangers network and components. Energy Conversion and Management, 150, 924–940. 10.1016/j.enconman.2017.05.053
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2017Model application 19
Santo, H.; Stagonas, D.; Buldakov, E.; Taylor, P.H.; 2017. Current blockage in sheared flow: Experiments and numerical modelling of regular waves and strongly sheared current through a space-frame structure. Journal of Fluids and Structures, 70, 374–389. 10.1016/j.jfluidstructs.2017.02.010
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2017Model application 7
Bannari, R.; Bannari, A.; Selma, B.; Proulx, P.; 2011. Mass transfer and shear in an airlift bioreactor: Using a mathematical model to improve reactor design and performance. Chemical Engineering Science, 66, 2057–2067. 10.1016/j.ces.2011.01.038
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2011Model application 40
Wang, C.J.; Wen, J.X.; 2017. Numerical simulation of flame acceleration and deflagration-to-detonation transition in hydrogen-air mixtures with concentration gradients. International Journal of Hydrogen Energy, 42, 7657–7663. 10.1016/j.ijhydene.2016.06.107
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2017Model application 30
Dau, Van Thanh; Dinh, Thien Xuan; Terebessy, Tibor; Bui, Tung Thanh; 2016. Bipolar corona discharge based air flow generation with low net charge. Sensors and Actuators A: Physical, 244, 146–155. 10.1016/j.sna.2016.03.028
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2016Model application 22
Seo, Seonguk; Park, Sunho; Koo, BonYong; 2017. Effect of wave periods on added resistance and motions of a ship in head sea simulations. Ocean Engineering, 137, 309–327. 10.1016/j.oceaneng.2017.04.009
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2017Model application 12
Abishek, S.; King, A.J.C.; Nadim, N.; Mullins, B.J.; 2018. Effect of microstructure on melting in metal-foam/paraffin composite phase change materials. International Journal of Heat and Mass Transfer, 127, 135–144. 10.1016/j.ijheatmasstransfer.2018.07.054
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2018Model application 36
Jiang, Sheng-Chao; Bai, Wei; Tang, Guo-Qiang; 2018. Numerical simulation of wave resonance in the narrow gap between two non-identical boxes. Ocean Engineering, 156, 38–60. 10.1016/j.oceaneng.2018.02.055
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2018Model application 27
Li, Yu-long; Zhu, Ren-chuan; Miao, Guo-ping; Fan, Ju; 2012. Simulation of Tank Sloshing Based on Openfoam and Coupling with Ship Motions in Time Domain. Journal of Hydrodynamics, 24, 450–457. 10.1016/S1001-6058(11)60266-7
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2012Model application 28
Galindo-Lopez, S.; Salehi, F.; Cleary, M.J.; Masri, A.R.; Neuber, G.; Stein, O.T.; Kronenburg, A.; Varna, A.; Hawkes, E.R.; Sundaram, B.; Klimenko, A.Y.; Ge, Y.; 2018. A stochastic multiple mapping conditioning computational model in OpenFOAM for turbulent combustion. Computers & Fluids, 172, 410–425. 10.1016/j.compfluid.2018.03.083
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2018Model application 23
Raghavendra, K.; Sarkar, Sandip; Ajmani, S.K.; Denys, M.B.; Singh, M.K.; 2013. Mathematical modelling of single and multi-strand tundish for inclusion analysis. Applied Mathematical Modelling, 37, 6284–6300. 10.1016/j.apm.2013.01.013
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2013Model application 26
Cuoci, Alberto; Frassoldati, Alessio; Faravelli, Tiziano; Ranzi, Eliseo; 2013. Numerical Modeling of Laminar Flames with Detailed Kinetics Based on the Operator-Splitting Method. Energy & Fuels, 27, 7730–7753. 10.1021/ef4016334
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2013Model application 59
Wang, Jianhua; Zou, Lu; Wan, Decheng; 2018. Numerical simulations of zigzag maneuver of free running ship in waves by RANS-Overset grid method. Ocean Engineering, 162, 55–79. 10.1016/j.oceaneng.2018.05.021
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2018Model application 23
Ferrari, Andrea; Magnini, Mirco; Thome, John R.; 2018. Numerical analysis of slug flow boiling in square microchannels. International Journal of Heat and Mass Transfer, 123, 928–944. 10.1016/j.ijheatmasstransfer.2018.03.012
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2018Model application 36
Castorina, G.; Reno, M.; Galluccio, L.; Lombardo, A.; 2017. Microfluidic networking: Switching multidroplet frames to improve signaling overhead. Nano Communication Networks, 14, 48–59. 10.1016/j.nancom.2017.08.004
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2017Model application 13
Li, Yajie; Ahmadi, Azita; Omari, Aziz; Pu, Hongting; 2020. Three-dimensional microscale simulation of colloidal particle transport and deposition in chemically heterogeneous capillary tubes. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 586, 124166. 10.1016/j.colsurfa.2019.124166
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2020Model application 1
Haddadi, B.; ordan, C.; Norouzi, H.R.; Harasek, M.; 2016. Investigation of the Pressure Drop of Random Packed Bed Adsorbers. Chemical Engineering Transactions, 52, 439-444. 10.3303/CET1652074
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2016

Model application

4
Scheufler, Henning; Roenby, Johan; 2019. Accurate and efficient surface reconstruction from volume fraction data on general meshes. Journal of Computational Physics, 383, 1–23. 10.1016/j.jcp.2019.01.009
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2019Model application 18
Dietterich, Hannah R.; Lev, Einat; Chen, Jiangzhi; Richardson, Jacob A.; Cashman, Katharine V.; 2017. Benchmarking computational fluid dynamics models of lava flow simulation for hazard assessment, forecasting, and risk management. Journal of Applied Volcanology, 6, 9. 10.1186/s13617-017-0061-x
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2017Model application 26
Lechner, Christiane; Koch, Max; Lauterborn, Werner; Mettin, Robert; 2017. Pressure and tension waves from bubble collapse near a solid boundary: A numerical approach. The Journal of the Acoustical Society of America, 142, 3649–3659. 10.1121/1.5017619
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2017Model application 32
Nagel, Wolfgang E.; Kröner, Dietmar H.; Resch, Michael M.; Zhang, Feichi; Bonart, Henning; Zirwes, Thorsten; Habisreuther, Peter; Bockhorn, Henning; Zarzalis, Nikolaos; 2015. Direct Numerical Simulation of Chemically Reacting Flows with the Public Domain Code OpenFOAM. In: (eds.)High Performance Computing in Science and Engineering ‘14.. 221–236.
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2015Model application 19
Garten, B.; Hunger, F.; Messig, D.; Stelzner, B.; Trimis, D.; Hasse, C.; 2015. Detailed radiation modeling of a partial-oxidation flame. International Journal of Thermal Sciences, 87, 68–84. 10.1016/j.ijthermalsci.2014.07.022
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2015Model application 27
Dunbar, Alexander J.; Craven, Brent A.; Paterson, Eric G.; 2015. Development and validation of a tightly coupled CFD/6-DOF solver for simulating floating offshore wind turbine platforms. Ocean Engineering, 110, 98–105. 10.1016/j.oceaneng.2015.08.066
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2015Model application 28
Carolan, D.; Chong, H.M.; Ivankovic, A.; Kinloch, A.J.; Taylor, A.C.; 2015. Co-continuous polymer systems: A numerical investigation. Computational Materials Science, 98, 24–33. 10.1016/j.commatsci.2014.10.039
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2015Model application 25
Towara, Markus; Schanen, Michel; Naumann, Uwe; 2015. MPI-Parallel Discrete Adjoint OpenFOAM. Procedia Computer Science, 51, 19–28. 10.1016/j.procs.2015.05.181
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2015Model application 18
Fontoura, D.V.R.; Matos, E.M.; Nunhez, J.R.; 2013. A three-dimensional two-phase flow model with phase change inside a tube of petrochemical pre-heaters. Fuel, 110, 196–203. 10.1016/j.fuel.2012.09.065
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2013Model application 15
Simonetti, I.; Cappietti, L.; Elsafti, H.; Oumeraci, H.; 2018. Evaluation of air compressibility effects on the performance of fixed OWC wave energy converters using CFD modelling. Renewable Energy, 119, 741–753. 10.1016/j.renene.2017.12.027
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2018Model application 41
Ariza, Cristian; Casado, Cintia; Wang, Ruo-Qian; Adams, Eric; Marugán, Javier; 2018. Comparative Evaluation of OpenFOAM® and ANSYS® Fluent for the Modeling of Annular Reactors. Chemical Engineering & Technology, 41, 1473–1483. 10.1002/ceat.201700455
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2018Model application 3
Selma, Brahim; Désilets, Martin; Proulx, Pierre; 2014. Optimization of an industrial heat exchanger using an open-source CFD code. Applied Thermal Engineering, 69, 241–250. 10.1016/j.applthermaleng.2013.11.054
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2014Model application 23
Wen, Jennifer; Heidari, Ali; Xu, Baopeng; Jie, Hongen; 2013. Dispersion of carbon dioxide from vertical vent and horizontal releases—A numerical study. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 227, 125–139. 10.1177/0954408913480078
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2013Model application 24
Fiates, Juliane; Vianna, Sávio S.V.; 2016. Numerical modelling of gas dispersion using OpenFOAM. Process Safety and Environmental Protection, 104, 277–293. 10.1016/j.psep.2016.09.011
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2016Model application 16
Turkeri, Hasret; Pope, Stephen B.; Muradoglu, Metin; 2019. A LES/PDF simulator on block-structured meshes. Combustion Theory and Modelling, 23, 1–41. 10.1080/13647830.2018.1475683
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2019Model application 12
Gratton, Tim; Ghisu, Tiziano; Parks, Geoff; Cambuli, Francesco; Puddu, Pierpaolo; 2018. Optimization of blade profiles for the Wells turbine. Ocean Engineering, 169, 202–214. 10.1016/j.oceaneng.2018.08.066
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2018Model application 17
Ashton, Neil; Skaperdas, Vangelis; 2019. Verification and Validation of OpenFOAM for High-Lift Aircraft Flows. Journal of Aircraft, 56, 1641–1657. 10.2514/1.C034918
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2019Model application 5
Gao, Zhengming; Li, Dongyue; Buffo, Antonio; Podgórska, Wioletta; Marchisio, Daniele L.; 2016. Simulation of droplet breakage in turbulent liquid–liquid dispersions with CFD-PBM: Comparison of breakage kernels. Chemical Engineering Science, 142, 277–288. 10.1016/j.ces.2015.11.040
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2016Model application 42
Urkiola, A.; Fernandez-Gamiz, U.; Errasti, I.; Zulueta, E.; 2017. Computational characterization of the vortex generated by a Vortex Generator on a flat plate for different vane angles. Aerospace Science and Technology, 65, 18–25. 10.1016/j.ast.2017.02.008
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2017Model application 22
Kim, Jongtae; Hong, Seong-Wan; 2015. Analysis of hydrogen flame acceleration in APR1400 containment by coupling hydrogen distribution and combustion analysis codes. Progress in Nuclear Energy, 78, 101–109. 10.1016/j.pnucene.2014.09.003
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2015Model application 20
Mikuž, Blaž; Tiselj, Iztok; 2016. Wall-resolved Large Eddy Simulation in grid-free 5×5 rod bundle of MATiS-H experiment. Nuclear Engineering and Design, 298, 64–77. 10.1016/j.nucengdes.2015.12.021
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2016Model application 20
Vyzikas, Thomas; Stagonas, Dimitris; Buldakov, Eugeny; Greaves, Deborah; 2018. The evolution of free and bound waves during dispersive focusing in a numerical and physical flume. Coastal Engineering, 132, 95–109. 10.1016/j.coastaleng.2017.11.003
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2018Model application 20
Casseau, Vincent; Palharini, Rodrigo; Scanlon, Thomas; Brown, Richard; 2016. A Two-Temperature Open-Source CFD Model for Hypersonic Reacting Flows, Part One: Zero-Dimensional Analysis. Aerospace, 3, 34. 10.3390/aerospace3040034
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2016Model application 20
Cao, Hong-jian; Wan, De-cheng; 2015. RANS-VOF solver for solitary wave run-up on a circular cylinder. China Ocean Engineering, 29, 183–196. 10.1007/s13344-015-0014-2
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2015Model application 23
Sekar, Vinothkumar; Khoo, Boo Cheong; 2019. Fast flow field prediction over airfoils using deep learning approach. Physics of Fluids, 31, 057103. 10.1063/1.5094943
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2019Model application 55
Cheng, Ping; Huang, Yang; Wan, Decheng; 2019. A numerical model for fully coupled aero-hydrodynamic analysis of floating offshore wind turbine. Ocean Engineering, 173, 183–196. 10.1016/j.oceaneng.2018.12.021
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2019Model application 15
Zeng, Qingyun; Gonzalez-Avila, Silvestre Roberto; Dijkink, Rory; Koukouvinis, Phoevos; Gavaises, Manolis; Ohl, Claus-Dieter; 2018. Wall shear stress from jetting cavitation bubbles. Journal of Fluid Mechanics, 846, 341–355. 10.1017/jfm.2018.286
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2018Model application 38
Fuentes-Pérez, J.F.; Silva, A.T.; Tuhtan, J.A.; García-Vega, A.; Carbonell-Baeza, R.; Musall, M.; Kruusmaa, M.; 2018. 3D modelling of non-uniform and turbulent flow in vertical slot fishways. Environmental Modelling & Software, 99, 156–169. 10.1016/j.envsoft.2017.09.011
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2018Model application 23
Hager, A.; Kloss, C.; Pirker, S.; Goniva, C.; 2014. Parallel Resolved Open Source CFD-DEM: Method, Validation and Application. The Journal of Computational Multiphase Flows, 6, 13–27. 10.1260/1757-482X.6.1.13
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2014Model application 53
Nagel, Tim; Chauchat, Julien; Bonamy, Cyrille; Liu, Xiaofeng; Cheng, Zhen; Hsu, Tian-Jian; 2020. Three-dimensional scour simulations with a two-phase flow model. Advances in Water Resources, 138, 103544. 10.1016/j.advwatres.2020.103544
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2020Model application 10
Mohd Yasin, M.F.; Cant, R.S.; Chong, C.T.; Hochgreb, S.; 2014. Discrete multicomponent model for biodiesel spray combustion simulation. Fuel, 126, 44–54. 10.1016/j.fuel.2014.02.020
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2014Model application 14
Pawlowski, S.; Nayak, N.; Meireles, M.; Portugal, C.A.M.; Velizarov, S.; Crespo, J.G.; 2018. CFD modelling of flow patterns, tortuosity and residence time distribution in monolithic porous columns reconstructed from X-ray tomography data. Chemical Engineering Journal, 350, 757–766. 10.1016/j.cej.2018.06.017
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2018Model application 27
Cregg, P.J.; Murphy, Kieran; Mardinoglu, Adil; 2008. Calculation of nanoparticle capture efficiency in magnetic drug targeting. Journal of Magnetism and Magnetic Materials, 320, 3272–3275. 10.1016/j.jmmm.2008.06.021
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2008Model application 33
Choi, Hoi Hyun; Nguyen, Van Thinh; Nguyen, John; 2016. Numerical Investigation of Backward Facing Step Flow over Various Step Angles. Procedia Engineering, 154, 420–425. 10.1016/j.proeng.2016.07.508
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2016Model application 13
Orgogozo, Laurent; Prokushkin, Anatoly S.; Pokrovsky, Oleg S.; Grenier, Christophe; Quintard, Michel; Viers, Jérôme; Audry, Stéphane; 2019. Water and energy transfer modeling in a permafrost‐dominated, forested catchment of Central Siberia: The key role of rooting depth. Permafrost and Periglacial Processes, 30, 75–89. 10.1002/ppp.1995
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2019Model application 12
Jacobsen, Niels G.; van Gent, Marcel R.A.; Wolters, Guido; 2015. Numerical analysis of the interaction of irregular waves with two dimensional permeable coastal structures. Coastal Engineering, 102, 13–29. 10.1016/j.coastaleng.2015.05.004
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2015Model application 32
Varna, Achinta; Cleary, Matthew J.; Hawkes, Evatt R.; 2017. A multiple mapping conditioning mixing model with a mixture-fraction like reference variable. Part 2: RANS implementation and validation against a turbulent jet flame. Combustion and Flame, 181, 354–364. 10.1016/j.combustflame.2017.03.017
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2017Model application 10
Khodaparast, S.; Magnini, M.; Borhani, N.; Thome, J. R.; 2015. Dynamics of isolated confined air bubbles in liquid flows through circular microchannels: an experimental and numerical study. Microfluidics and Nanofluidics, 19, 209–234. 10.1007/s10404-015-1566-4
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2015Model application 28
Agius Anastasi, Anthea; Ritos, Konstantinos; Cassar, Glenn; Borg, Matthew K.; 2016. Mechanical properties of pristine and nanoporous graphene. Molecular Simulation, 42, 1502–1511. 10.1080/08927022.2016.1209753
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2016Model application 25
Imbrioscia, Gerardo Martín; Fasoli, Héctor José; 2014. Simulation and study of proposed modifications over straight-parallel flow field design. International Journal of Hydrogen Energy, 39, 8861–8867. 10.1016/j.ijhydene.2013.11.079
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2014Model application 29
Vlahopoulos, Nickolas; Diaz, Jonmarcos; Maki, Kevin; 2019. Structural vibration of an elastically supported plate due to excitation of a turbulent boundary layer. The Journal of the Acoustical Society of America, 146, 2836–2837. 10.1121/1.5136831
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2019Model application 0
Nieto, F.; Owen, J.S.; Hargreaves, D.M.; Hernández, S.; 2015. Bridge deck flutter derivatives: Efficient numerical evaluation exploiting their interdependence. Journal of Wind Engineering and Industrial Aerodynamics, 136, 138–150. 10.1016/j.jweia.2014.11.006
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2015Model application 21
Zhao, Peng; Xu, Ji; Ge, Wei; Wang, Junwu; 2020. A CFD-DEM-IBM method for Cartesian grid simulation of gas-solid flow in complex geometries. Chemical Engineering Journal, 389, 124343. 10.1016/j.cej.2020.124343
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2020Model application 9
Lubryka, Eliza; Malecha, Ziemowit Miłosz; 2017. The numerical boundary conditions of the wrapping pattern of thin insulation. International Journal of Heat and Mass Transfer, 108, 512–518. 10.1016/j.ijheatmasstransfer.2016.12.050
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2017Model application 6
Ding, Yanming; Zhou, Ru; Wang, Changjian; Lu, Kaihua; Lu, Shouxiang; 2018. Modeling and analysis of bench-scale pyrolysis of lignocellulosic biomass based on merge thickness. Bioresource Technology, 268, 77–80. 10.1016/j.biortech.2018.07.134
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2018Model application 21
Tesch, K; Kaczorowska-Ditrich, K; 2018. Discrete-continuous optimisation of an axial flow blood pump. Journal of Physics: Conference Series, 1101, 012044. 10.1088/1742-6596/1101/1/012044
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2018Model application 4
Simonetti, Irene; Cappietti, Lorenzo; El Safti, Hisham; Oumeraci, Hocine; 2015. Numerical Modelling of Fixed Oscillating Water Column Wave Energy Conversion Devices: Toward Geometry Hydraulic Optimization. . Volume .
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2015Model application 23
Chen, Lifen; Sun, Liang; Zang, Jun; Hillis, A. J.; Plummer, A. R.; 2016. Numerical study of roll motion of a 2-D floating structure in viscous flow. Journal of Hydrodynamics, 28, 544–563. 10.1016/S1001-6058(16)60659-5
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2016Model application 17
Swapnasrita, Sangita; Pesch, Georg R.; Dreyer, Jochen A.H.; Riefler, Norbert; Wriedt, Thomas; Mädler, Lutz; 2019. Implementation of parcel method for surface reactions in DSMC. Computers & Fluids, 187, 1–11. 10.1016/j.compfluid.2019.04.015
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2019Model application 2
Yao, Yina; Li, Cong; Zhang, Hui; Yang, Rui; 2017. Modelling the impact, spreading and freezing of a water droplet on horizontal and inclined superhydrophobic cooled surfaces. Applied Surface Science, 419, 52–62. 10.1016/j.apsusc.2017.04.085
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2017Model application 31
Kuan, Yee Han; Kabinejadian, Foad; Nguyen, Vinh-Tan; Leo, Hwa Liang; 2018. Risk of Thrombosis in Downstream Flow of Mechanical Aortic Valves. In: (eds.)New Approaches to Aortic Diseases from Valve to Abdominal Bifurcation.. 433–443.
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2018Model application 0
Ivanov, E. A.; Zharkovsky, A. A.; Borshchev, I. O.; Svoboda, D. G.; 2019. Technique for axial pump characteristics predicting in CFD package OpenFOAM. . Volume .
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2019Model application 6
Liu, Wei; You, Ruoyu; Zhang, Jie; Chen, Qingyan; 2017. Development of a fast fluid dynamics-based adjoint method for the inverse design of indoor environments. Journal of Building Performance Simulation, 10, 326–343. 10.1080/19401493.2016.1257654
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2017Model application 20
Ku, Xiaoke; Li, Tian; Løvås, Terese; 2013. Influence of drag force correlations on periodic fluidization behavior in Eulerian–Lagrangian simulation of a bubbling fluidized bed. Chemical Engineering Science, 95, 94–106. 10.1016/j.ces.2013.03.038
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2013Model application 49
Chen, L.F.; 2019. Numerical modelling of interactions of waves and sheared currents with a surface piercing vertical cylinder. Coastal Engineering, 145, 65–83. 10.1016/j.coastaleng.2019.01.001
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2019Model application 10
Bianchini, C.; Facchini, B.; Simonetti, F.; Tarchi, L.; Zecchi, S.; 2010. Numerical and Experimental Investigation of Turning Flow Effects on Innovative Pin Fin Arrangements for Trailing Edge Cooling Configurations. . Volume .
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2010Model application 7
Bianchini, C.; Facchini, B.; Simonetti, F.; Tarchi, L.; Zecchi, S.; 2012. Numerical and Experimental Investigation of Turning Flow Effects on Innovative Pin Fin Arrangements for Trailing Edge Cooling Configurations. Journal of Turbomachinery, 134, 021005. 10.1115/1.4003230
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2012Model application 27
Shekarian, Ali Akbar; Tabejamaat, Sadegh; Shoraka, Yashar; 2014. Effects of incident shock wave on mixing and flame holding of hydrogen in supersonic air flow. International Journal of Hydrogen Energy, 39, 10284–10292. 10.1016/j.ijhydene.2014.04.154
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2014Model application 34
Wang, C.H. John; Zhao, Dan; Schlüter, Jörg; Holzäpfel, Frank; Stephan, Anton; 2017. LES study on the shape effect of ground obstacles on wake vortex dissipation. Aerospace Science and Technology, 63, 245–258. 10.1016/j.ast.2016.12.032
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2017Model application 16
Laureau, A.; Rubiolo, P.R.; Heuer, D.; Merle-Lucotte, E.; Brovchenko, M.; Caruge, D.; Calvin, C.; Diop, C.M.; Malvagi, F.; Trama, J.-C.; 2014. Coupled neutronics and thermal-hydraulics numerical simulations of a Molten Fast Salt Reactor (MFSR). . Volume .
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2014Model application 7
Sjökvist, Linnea; Wu, Jinming; Ransley, Edward; Engström, Jens; Eriksson, Mikael; Göteman, Malin; 2017. Numerical models for the motion and forces of point-absorbing wave energy converters in extreme waves. Ocean Engineering, 145, 1–14. 10.1016/j.oceaneng.2017.08.061
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2017Model application 20
Li, Yajie; Ahmadi, Azita; Omari, Aziz; Pu, Hongting; 2018. Three-dimensional microscale simulation of colloidal particle transport and deposition in model porous media with converging/diverging geometries. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 544, 179–186. 10.1016/j.colsurfa.2018.02.034
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2018Model application 6
Rocha, P. A. Costa; Rocha, H. H. Barbosa; Carneiro, F. O. Moura; da Silva, M. E. Vieira; de Andrade, C. Freitas; 2016. A case study on the calibration of the k–ω SST (shear stress transport) turbulence model for small scale wind turbines designed with cambered and symmetrical airfoils. Energy, 97, 144–150. 10.1016/j.energy.2015.12.081
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2016Model application 32
Rognin, E.; Willis-Fox, N.; Aljohani, T. A.; Daly, R.; 2018. A multiscale model for the rupture of linear polymers in strong flows. Journal of Fluid Mechanics, 848, 722–742. 10.1017/jfm.2018.411
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2018Model application 5
Kumar, Rajesh; Dewan, Anupam; 2014. URANS computations with buoyancy corrected turbulence models for turbulent thermal plume. International Journal of Heat and Mass Transfer, 72, 680–689. 10.1016/j.ijheatmasstransfer.2014.01.066
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2014Model application 28
Ben Ramoul, L.; Korichi, A.; Popa, C.; Zaidi, H.; Polidori, G.; 2019. Numerical study of flow characteristics and pollutant dispersion using three RANS turbulence closure models. Environmental Fluid Mechanics, 19, 379–400. 10.1007/s10652-018-9628-2
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2019Model application 4
Cervi, E.; Lorenzi, S.; Cammi, A.; Luzzi, L.; 2019. Development of a multiphysics model for the study of fuel compressibility effects in the Molten Salt Fast Reactor. Chemical Engineering Science, 193, 379–393. 10.1016/j.ces.2018.09.025
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2019Model application 21
Minakuchi, H.; Okano, Y.; Dost, S.; 2017. Effect of thermo-solutal Marangoni convection on the azimuthal wave number in a liquid bridge. Journal of Crystal Growth, 468, 502–505. 10.1016/j.jcrysgro.2016.09.028
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2017Model application 6
Nóbrega, J. Miguel; Jasak, Hrvoje; Tano-Retamales, M.; Rubiolo, P.; Doche, O.; 2019. Development of Data-Driven Turbulence Models in OpenFOAM. In: (eds.).. .
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2019

Model application

1
Yu, H.; Goldsworthy, L.; Brandner, P.A.; Garaniya, V.; 2017. Development of a compressible multiphase cavitation approach for diesel spray modelling. Applied Mathematical Modelling, 45, 705–727. 10.1016/j.apm.2017.01.035
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2017Model application 31
Cosden, Ian A.; Lukes, Jennifer R.; 2013. A hybrid atomistic–continuum model for fluid flow using LAMMPS and OpenFOAM. Computer Physics Communications, 184, 1958–1965. 10.1016/j.cpc.2013.03.009
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2013Model application 28
Li, Weijun; He, Yuanping; Zhang, Yunwei; Su, Junwei; Chen, Chungang; Yu, Chuck Wah; Zhang, Renjian; Gu, Zhaolin; 2019. LES simulation of flow field and pollutant dispersion in a street canyon under time-varying inflows with TimeVarying-SIMPLE approach. Building and Environment, 157, 185–196. 10.1016/j.buildenv.2019.04.049
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2019Model application 6
Etrati, Ali; Frigaard, Ian A.; 2018. Viscosity effects in density-stable miscible displacement flows: Experiments and simulations. Physics of Fluids, 30, 123104. 10.1063/1.5065388
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2018Model application 11
Nowruzi, Hashem; Ghassemi, Hassan; Ghiasi, Mahmoud; 2017. Performance predicting of 2D and 3D submerged hydrofoils using CFD and ANNs. Journal of Marine Science and Technology, 22, 710–733. 10.1007/s00773-017-0443-0
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2017Model application 15
Yuan, Haomin; Pidaparti, Sandeep; Wolf, Mathew; Edlebeck, John; Anderson, Mark; 2015. Numerical modeling of supercritical carbon dioxide flow in see-through labyrinth seals. Nuclear Engineering and Design, 293, 436–446. 10.1016/j.nucengdes.2015.08.016
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2015Model application 11
Shen, Chun; Sun, Fengxian; Xia, Xinlin; 2014. Implementation of density-based solver for all speeds in the framework of OpenFOAM. Computer Physics Communications, 185, 2730–2741. 10.1016/j.cpc.2014.06.009
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2014Model application 26
Koch, James R. L.; Agarwal, Ramesh K.; 2015. Simulation of Forward Osmosis Flow in a Two-Dimensional Asymmetric Membrane Channel With Draw Channel Circular Baffle Implementation. . Volume .
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2015Model application 0
Abbasi, Ali; Annor, Frank; van de Giesen, Nick; 2016. Investigation of Temperature Dynamics in Small and Shallow Reservoirs, Case Study: Lake Binaba, Upper East Region of Ghana. Water, 8, 84. 10.3390/w8030084
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2016Model application 17
Herrmann-Priesnitz, Benjamín; Calderón-Muñoz, Williams R.; Salas, Eduardo A.; Vargas-Uscategui, Alejandro; Duarte-Mermoud, Manuel A.; Torres, Diego A.; 2016. Hydrodynamic structure of the boundary layers in a rotating cylindrical cavity with radial inflow. Physics of Fluids, 28, 033601. 10.1063/1.4943860
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2016Model application 11
Jonas, Michael; Gilbert, Rose Robin; Ferguson, Joshua; Varsamopoulos, Georgios; Gupta, Sandeep K. S.; 2012. A transient model for data center thermal prediction. . Volume .
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2012Model application 20
Magnini, M.; Ullmann, A.; Brauner, N.; Thome, J.R.; 2018. Numerical study of water displacement from the elbow of an inclined oil pipeline. Journal of Petroleum Science and Engineering, 166, 1000–1017. 10.1016/j.petrol.2018.03.067
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2018Model application 9
Sabanskis, A.; Virbulis, J.; 2015. Simulation of the influence of gas flow on melt convection and phase boundaries in FZ silicon single crystal growth. Journal of Crystal Growth, 417, 51–57. 10.1016/j.jcrysgro.2014.07.041
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2015Model application 10
Cregg, P.J.; Murphy, Kieran; Mardinoglu, Adil; 2009. Inclusion of magnetic dipole–dipole and hydrodynamic interactions in implant-assisted magnetic drug targeting. Journal of Magnetism and Magnetic Materials, 321, 3893–3898. 10.1016/j.jmmm.2009.07.056
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2009Model application 23
Ye, Haixuan; Wan, Decheng; 2017. Benchmark computations for flows around a stationary cylinder with high Reynolds numbers by RANS-overset grid approach. Applied Ocean Research, 65, 315–326. 10.1016/j.apor.2016.10.010
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2017Model application 15
Orgogozo, L.; Renon, N.; Soulaine, C.; Hénon, F.; Tomer, S.K.; Labat, D.; Pokrovsky, O.S.; Sekhar, M.; Ababou, R.; Quintard, M.; 2014. An open source massively parallel solver for Richards equation: Mechanistic modelling of water fluxes at the watershed scale. Computer Physics Communications, 185, 3358–3371. 10.1016/j.cpc.2014.08.004
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2014Model application 24
Bayon-Barrachina, Arnau; Lopez-Jimenez, Petra Amparo; 2015. Numerical analysis of hydraulic jumps using OpenFOAM. Journal of Hydroinformatics, 17, 662–678. 10.2166/hydro.2015.041
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2015Model application 27
Zhao, Majie; Zhou, Taotao; Ye, Taohong; Zhu, Minming; Zhang, Hongda; 2017. Large eddy simulation of reacting flow in a hydrogen jet into supersonic cross-flow combustor with an inlet compression ramp. International Journal of Hydrogen Energy, 42, 16782–16792. 10.1016/j.ijhydene.2017.04.250
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2017Model application 36
Li, Hongchen; Huang, Jian; Wu, Xianqian; Zhang, Jian; Wang, Jingzhu; Wang, Yiwei; Huang, Chenguang; 2020. Dynamic behaviors of a laser-induced bubble and transition mechanism of collapse patterns in a tube. AIP Advances, 10, 035210. 10.1063/1.5142739
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2020Model application 0
Fabre, S.; Stickland, M.; Scanlon, T.; Oldroyd, A.; Kindler, D.; Quail, F.; 2014. Measurement and simulation of the flow field around the FINO 3 triangular lattice meteorological mast. Journal of Wind Engineering and Industrial Aerodynamics, 130, 99–107. 10.1016/j.jweia.2014.04.002
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2014Model application 9
Dubas, Aleksander J.; Bressloff, N.W.; Sharkh, S.M.; 2015. Numerical modelling of rotor–stator interaction in rim driven thrusters. Ocean Engineering, 106, 281–288. 10.1016/j.oceaneng.2015.07.012
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2015Model application 13
Ashton, Neil; Denison, Marie; Zastawny, Marian; 2018. 3rd High-Lift Workshop Summary Paper - OpenFOAM, STAR-CCM+ & LAVA simulations on Unstructured Grids. . Volume .
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2018Model application 4
Torres-Herrador, Francisco; Meurisse, Jeremie B.E.; Panerai, Francesco; Blondeau, Julien; Lachaud, Jean; Bessire, Brody K.; Magin, Thierry E.; Mansour, Nagi N.; 2019. A high heating rate pyrolysis model for the Phenolic Impregnated Carbon Ablator (PICA) based on mass spectroscopy experiments. Journal of Analytical and Applied Pyrolysis, 141, 104625. 10.1016/j.jaap.2019.05.014
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2019Model application 9
Zhao, Ruiwen; Creech, Angus C. W.; Borthwick, Alistair G. L.; Venugopal, Vengatesan; Nishino, Takafumi; 2020. Aerodynamic Analysis of a Two-Bladed Vertical-Axis Wind Turbine Using a Coupled Unsteady RANS and Actuator Line Model. Energies, 13, 776. 10.3390/en13040776
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2020Model application 5
Kohanpur, Amir H.; Rahromostaqim, Mahsa; Valocchi, Albert J.; Sahimi, Muhammad; 2020. Two-phase flow of CO2-brine in a heterogeneous sandstone: Characterization of the rock and comparison of the lattice-Boltzmann, pore-network, and direct numerical simulation methods. Advances in Water Resources, 135, 103469. 10.1016/j.advwatres.2019.103469
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2020Model application 14
Kheirkhah Gildeh, Hossein; Mohammadian, Abdolmajid; Nistor, Ioan; Qiblawey, Hazim; 2015. Numerical modeling of $$30^{\circ }$$ 30 ∘ and $$45{^\circ }$$ 45 ∘ inclined dense turbulent jets in stationary ambient. Environmental Fluid Mechanics, 15, 537–562. 10.1007/s10652-014-9372-1
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2015Model application 28
Nóbrega, J. Miguel; Jasak, Hrvoje; Anez, J.; Puggelli, S.; Hecht, N.; Andreini, A.; Reveillon, J.; Demoulin, F. X.; 2019. Liquid Atomization Modeling in OpenFOAM $$^{\textregistered }$$. In: (eds.)OpenFOAM®.. 297–308.
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2019Model application 0
Jubayer, Chowdhury Mohammad; Hangan, Horia; 2016. A numerical approach to the investigation of wind loading on an array of ground mounted solar photovoltaic (PV) panels. Journal of Wind Engineering and Industrial Aerodynamics, 153, 60–70. 10.1016/j.jweia.2016.03.009
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2016Model application 33
Abolghasemi, Mohammad Amin; Piggott, Matthew D.; Spinneken, Johannes; Viré, Axelle; Cotter, Colin J.; Crammond, Sarah; 2016. Simulating tidal turbines with multi-scale mesh optimisation techniques. Journal of Fluids and Structures, 66, 69–90. 10.1016/j.jfluidstructs.2016.07.007
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2016Model application 24
Feng, Jingchao; Chen, Hongli; He, Qingyun; Ye, Minyou; 2015. Further validation of liquid metal MHD code for unstructured grid based on OpenFOAM. Fusion Engineering and Design, 100, 260–264. 10.1016/j.fusengdes.2015.06.059
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2015Model application 16
Cardiff, P.; Karač, A.; Ivanković, A.; 2012. Development of a finite volume contact solver based on the penalty method. Computational Materials Science, 64, 283–284. 10.1016/j.commatsci.2012.03.011
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2012Model application 27
Wang, Changchang; Wu, Qin; Huang, Biao; Wang, Guoyu; 2018. Numerical investigation of cavitation vortex dynamics in unsteady cavitating flow with shock wave propagation. Ocean Engineering, 156, 424–434. 10.1016/j.oceaneng.2018.03.011
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2018Model application 20
He, Qingyun; Chen, Hongli; Feng, Jingchao; 2015. Acceleration of the OpenFOAM-based MHD solver using graphics processing units. Fusion Engineering and Design, 101, 88–93. 10.1016/j.fusengdes.2015.09.017
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2015Model application 9
Niemietz, K.; Galindo, V.; Pätzold, O.; Gerbeth, G.; Stelter, M.; 2011. Flow modelling with relevance to vertical gradient freeze crystal growth under the influence of a travelling magnetic field. Journal of Crystal Growth, 318, 150–155. 10.1016/j.jcrysgro.2010.10.077
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2011Model application 17
Constant, E.; Favier, J.; Meldi, M.; Meliga, P.; Serre, E.; 2017. An immersed boundary method in OpenFOAM : Verification and validation. Computers & Fluids, 157, 55–72. 10.1016/j.compfluid.2017.08.001
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2017Model application 25
Nagorny, V. S.; Smirnovsky, A. A.; Chernyshev, A. S.; Kolodyazhny, D. Yu.; 2015. Charge transfer in a sharply nonuniform electric field mediated by swirling liquid flow with minimal hydraulic resistance. Technical Physics Letters, 41, 859–862. 10.1134/S1063785015090072
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2015Model application 3
Seiffert, Betsy R.; Hayatdavoodi, Masoud; Ertekin, R. Cengiz; 2015. Experiments and calculations of cnoidal wave loads on a coastal-bridge deck with girders. European Journal of Mechanics - B/Fluids, 52, 191–205. 10.1016/j.euromechflu.2015.03.010
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2015Model application 26
Li, Hongjiang; Rutland, Christopher J; Hernández Pérez, Francisco E; Im, Hong G; 2020. Large-eddy spray simulation under direct-injection spark-ignition engine-like conditions with an integrated atomization/breakup model. International Journal of Engine Research, , 146808741988186. 10.1177/1468087419881867
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2020Model application 1
Ye, Bingsheng; Wang, Yiwei; Huang, Chenguang; Huang, Jian; 2019. Numerical study of the pressure wave-induced shedding mechanism in the cavitating flow around an axisymmetric projectile via a compressible multiphase solver. Ocean Engineering, 187, 106179. 10.1016/j.oceaneng.2019.106179
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2019Model application 13
Batet, L.; Fradera, J.; Valls, E. Mas de les; Sedano, L.A.; 2011. Numeric implementation of a nucleation, growth and transport model for helium bubbles in lead–lithium HCLL breeding blanket channels: Theory and code development. Fusion Engineering and Design, 86, 421–428. 10.1016/j.fusengdes.2011.03.074
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2011Model application 9
Patel, G.; Tanskanen, V.; Kyrki-Rajamäki, R.; 2014. Numerical modelling of low-Reynolds number direct contact condensation in a suppression pool test facility. Annals of Nuclear Energy, 71, 376–387. 10.1016/j.anucene.2014.04.009
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2014Model application 22
Hettel, Matthias; Diehm, Claudia; Bonart, Henning; Deutschmann, Olaf; 2015. Numerical simulation of a structured catalytic methane reformer by DUO: The new computational interface for OpenFOAM® and DETCHEM™. Catalysis Today, 258, 230–240. 10.1016/j.cattod.2015.02.011
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2015Model application 20
Oliveira, Thomas D.S.; Blunt, Martin J.; Bijeljic, Branko; 2019. Modelling of multispecies reactive transport on pore-space images. Advances in Water Resources, 127, 192–208. 10.1016/j.advwatres.2019.03.012
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2019Model application 10
Dich, Nguyen Quang; Dinh, Thien Xuan; Pham, Phuc Hong; Dau, Van Thanh; 2015. Study of valveless electromagnetic micropump by volume-of-fluid and OpenFOAM. Japanese Journal of Applied Physics, 54, 057201. 10.7567/JJAP.54.057201
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2015Model application 13
Madhav Rao, Vendra C.; Sathiah, Pratap; Wen, Jennifer X.; 2018. Effects of congestion and confining walls on turbulent deflagrations in a hydrogen storage facility-part 2: Numerical study. International Journal of Hydrogen Energy, 43, 15593–15621. 10.1016/j.ijhydene.2018.06.100
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2018Model application 8
Marti, Jan; Haselbacher, Andreas; Steinfeld, Aldo; 2015. A numerical investigation of gas-particle suspensions as heat transfer media for high-temperature concentrated solar power. International Journal of Heat and Mass Transfer, 90, 1056–1070. 10.1016/j.ijheatmasstransfer.2015.07.033
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2015Model application 23
Kazmouz, Samuel J.; Giusti, Andrea; Mastorakos, Epaminondas; 2016. Numerical simulation of shale gas flow in three-dimensional fractured porous media. Journal of Unconventional Oil and Gas Resources, 16, 90–112. 10.1016/j.juogr.2016.10.002
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2016Model application 6
Sun, L.; Zang, J.; Chen, L.; Eatock Taylor, R.; Taylor, P.H.; 2016. Regular waves onto a truncated circular column: A comparison of experiments and simulations. Applied Ocean Research, 59, 650–662. 10.1016/j.apor.2016.03.011
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2016Model application 14
Meredith, K. V.; Vries, J. de; Xin, Y.; 2011. A numerical model for partially-wetted flow of thin liquid films. . Volume .
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2011Model application 16
Gourbesville, Philippe; Cunge, Jean; Caignaert, Guy; Kozák, Jiří; Rudolf, Pavel; Hudec, Martin; Urban, Ondřej; Štefan, David; Huzlík, Rostislav; Čala, Martin; 2018. Investigation of the Cavitation Within Venturi Tube: Influence of the Generated Vortex. In: (eds.)Advances in Hydroinformatics.. 1049–1067.
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2018Model application 3
Vegendla, S. N. P.; Messig, D.; Weise, S.; Hasse, C.; 2011. Flamelet-Based Time-Scale Analysis of a High-Pressure Gasifier. Energy & Fuels, 25, 3892–3899. 10.1021/ef200790v
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2011Model application 20
Abdollahzadeh, M.; Pascoa, J.C.; Oliveira, P.J.; 2016. Implementation of the classical plasma–fluid model for simulation of dielectric barrier discharge (DBD) actuators in OpenFOAM. Computers & Fluids, 128, 77–90. 10.1016/j.compfluid.2016.01.012
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2016Model application 32
Fiates, Juliane; Santos, Raphael Ribeiro Cruz; Neto, Fernando Fernandes; Francesconi, Artur Zaghini; Simoes, Vinicius; Vianna, Sávio S.V.; 2016. An alternative CFD tool for gas dispersion modelling of heavy gas. Journal of Loss Prevention in the Process Industries, 44, 583–593. 10.1016/j.jlp.2016.08.002
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2016Model application 20
Garrido-Mendoza, Carlos A.; Thiagarajan, Krish P.; Souto-Iglesias, Antonio; Colagrossi, Andrea; Bouscasse, Benjamin; 2015. Computation of flow features and hydrodynamic coefficients around heave plates oscillating near a seabed. Journal of Fluids and Structures, 59, 406–431. 10.1016/j.jfluidstructs.2015.10.003
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2015Model application 21
Meng, Zi; Zhang, Shichao; Chen, Zhibin; Wang, Shisheng; Wang, Changjian; 2019. Code development for analyzing transient behaviors induced by the in-box LOCA of liquid blanket in hydrogen fusion energy systems. International Journal of Hydrogen Energy, 44, 3021–3030. 10.1016/j.ijhydene.2018.12.066
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2019Model application 1
ed-Dı̂n Fertahi, Saïf; Bouhal, T.; Rajad, Omar; Kousksou, T.; Arid, A.; El Rhafiki, T.; Jamil, A.; Benbassou, A.; 2018. CFD performance enhancement of a low cut-in speed current Vertical Tidal Turbine through the nested hybridization of Savonius and Darrieus. Energy Conversion and Management, 169, 266–278. 10.1016/j.enconman.2018.05.027
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2018Model application 26
Li, Yuzhu; Ong, Muk Chen; Tang, Tian; 2018. Numerical analysis of wave-induced poro-elastic seabed response around a hexagonal gravity-based offshore foundation. Coastal Engineering, 136, 81–95. 10.1016/j.coastaleng.2018.02.005
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2018Model application 29
Kraposhin, Matvey V.; Ryazanov, Daniil A.; Smirnova, Elena V.; Elizarova, Tatiana G.; Istomina, Maria A.; 2017. Development of OpenFOAM Solver for Compressible Viscous Flows Simulation Using Quasi-Gas Dynamic Equations. . Volume .
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2017Model application 7
Lavrov, A.; Rodrigues, J.M.; Gadelho, J.F.M.; Guedes Soares, C.; 2017. Calculation of hydrodynamic coefficients of ship sections in roll motion using Navier-Stokes equations. Ocean Engineering, 133, 36–46. 10.1016/j.oceaneng.2017.01.027
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2017Model application 16
Personnettaz, Paolo; Beckstein, Pascal; Landgraf, Steffen; Köllner, Thomas; Nimtz, Michael; Weber, Norbert; Weier, Tom; 2018. Thermally driven convection in Li. Journal of Power Sources, 401, 362–374. 10.1016/j.jpowsour.2018.08.069
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2018Model application 14
Ok, H.T.; Lee, S.J.; Choi, J.H.; 2017. Numerical simulation of motion of single and side-by-side vessels in regular waves using OpenFOAM. Ships and Offshore Structures, 12, 793–803. 10.1080/17445302.2016.1265697
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2017Model application 6
AlOnazi, Amani; 2014. Design and Optimization of OpenFOAM-based CFD Applications for Modern Hybrid and Heterogeneous HPC Platforms. , , . 10.25781/KAUST-9M51I
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2014Model application 16
Piroozmand, Pasha; Mussetti, Gianluca; Allegrini, Jonas; Mohammadi, Mohammad Haji; Akrami, Ehsan; Carmeliet, Jan; 2020. Coupled CFD framework with mesoscale urban climate model: Application to microscale urban flows with weak synoptic forcing. Journal of Wind Engineering and Industrial Aerodynamics, 197, 104059. 10.1016/j.jweia.2019.104059
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2020Model application 11
Devolder, Brecht; Troch, Peter; Rauwoens, Pieter; 2019. Accelerated numerical simulations of a heaving floating body by coupling a motion solver with a two-phase fluid solver. Computers & Mathematics with Applications, 77, 1605–1625. 10.1016/j.camwa.2018.08.064
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2019Model application 3
Rudert, A.; Schwarze, R.; 2009. Experimental and numerical investigation of a viscoplastic Carbopol gel injected into a prototype 3D mold cavity. Journal of Non-Newtonian Fluid Mechanics, 161, 60–68. 10.1016/j.jnnfm.2009.04.006
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2009Model application 21
Lee, Abe H.; Campbell, Robert L.; Hambric, Stephen A.; 2014. Coupled delayed-detached-eddy simulation and structural vibration of a self-oscillating cylinder due to vortex-shedding. Journal of Fluids and Structures, 48, 216–234. 10.1016/j.jfluidstructs.2014.02.019
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2014Model application 17
Biçer, Barış; Sou, Akira; 2016. Application of the improved cavitation model to turbulent cavitating flow in fuel injector nozzle. Applied Mathematical Modelling, 40, 4712–4726. 10.1016/j.apm.2015.11.049
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2016Model application 35
Javadi, A; Bosioc, A; Nilsson, H; Muntean, S; Susan-Resiga, R; 2014. Velocity and pressure fluctuations induced by the precessing helical vortex in a conical diffuser. IOP Conference Series: Earth and Environmental Science, 22, 032009. 10.1088/1755-1315/22/3/032009
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2014Model application 11
Polanský, Jiří; Gášpár, Roman; 2012. Aerodynamic Performance Prediction of Centrifugal Fan With Forward Curved Blades. . Volume .
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2012Model application 3
De Amicis, Jacopo; Cammi, Antonio; Colombo, Luigi P.M.; Colombo, Marco; Ricotti, Marco E.; 2014. Experimental and numerical study of the laminar flow in helically coiled pipes. Progress in Nuclear Energy, 76, 206–215. 10.1016/j.pnucene.2014.05.019
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2014Model application 25
Amini, Y; Emdad, H; Farid, M; 2014. An accurate model for numerical prediction of piezoelectric energy harvesting from fluid structure interaction problems. Smart Materials and Structures, 23, 095034. 10.1088/0964-1726/23/9/095034
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2014Model application 27
Leandro, J.; Lopes, P.; Carvalho, R.; Páscoa, P.; Martins, R.; Romagnoli, M.; 2014. Numerical and experimental characterization of the 2D vertical average-velocity plane at the center-profile and qualitative air entrainment inside a gully for drainage and reverse flow. Computers & Fluids, 102, 52–61. 10.1016/j.compfluid.2014.05.032
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2014Model application 18
López, Alejandro; Nicholls, William; Stickland, Matthew T.; Dempster, William M.; 2015. CFD study of Jet Impingement Test erosion using Ansys Fluent® and OpenFOAM®. Computer Physics Communications, 197, 88–95. 10.1016/j.cpc.2015.07.016
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2015Model application 26
Landfried, D. Tyler; Jana, A.; Kimber, M. L.; 2012. Characterization of the Behavior of Confined Laminar Round Jets. . Volume .
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2012Model application 2
Tyler Landfried, D.; Jana, Anirban; Kimber, Mark; 2015. Characterization of the Behavior of Confined Laminar Round Jets. Journal of Fluids Engineering, 137, 034501. 10.1115/1.4028834
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2015Model application 4
Ahmmed, Mohammad Shakil; Hawkes, Evatt R.; Green, Martin A.; 2015. Diode laser annealing of CZTS thin film solar cells. . Volume .
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2015Model application 3
Jošt, D; Škerlavaj, A; Morgut, M; Mežnar, P; Nobile, E; 2015. Numerical simulation of flow in a high head Francis turbine with prediction of efficiency, rotor stator interaction and vortex structures in the draft tube. Journal of Physics: Conference Series, 579, 012006. 10.1088/1742-6596/579/1/012006
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2015Model application 18
Li, Linmin; Li, Baokuan; 2018. Implementation and validation of a volume-of-fluid and discrete-element-method combined solver in OpenFOAM. Particuology, 39, 109–115. 10.1016/j.partic.2017.09.007
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2018Model application 22
Wang, Shuai; Luo, Kun; Hu, Chenshu; Sun, Liyan; Fan, Jianren; 2018. Impact of operating parameters on biomass gasification in a fluidized bed reactor: An Eulerian-Lagrangian approach. Powder Technology, 333, 304–316. 10.1016/j.powtec.2018.04.027
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2018Model application 50
Driss, Zied; Necib, Brahim; Zhang, Hao-Chun; Eleuch, Oumaima; Latrache, Noureddine; Frikha, Sobhi; 2018. Numerical Study of the Fluid Characteristics Effect on the Penetration of a Negatively Buoyant Jet. In: (eds.)CFD Techniques and Energy Applications.. 49–70.
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2018Model application 0
Li, Xiaojun; Li, Bowen; Yu, Benxu; Ren, Yun; Chen, Bo; 2019. Calculation of cavitation evolution and associated turbulent kinetic energy transport around a NACA66 hydrofoil. Journal of Mechanical Science and Technology, 33, 1231–1241. 10.1007/s12206-019-0223-3
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2019Model application 31
Gao, Xiang; Xu, Chuanfu; Dong, Yidao; Xiong, Min; Li, Dali; Wang, Zhenghua; Deng, Xiaogang; 2018. Developing a parallel density-based implicit solver with mesh deformation in OpenFOAM. Journal of Computational Science, 28, 59–69. 10.1016/j.jocs.2018.07.006
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2018Model application 5
Panda, Saroj K.; Singh, K.K.; Shenoy, K.T.; Buwa, Vivek V.; 2017. Numerical simulations of liquid-liquid flow in a continuous gravity settler using OpenFOAM and experimental verification. Chemical Engineering Journal, 310, 120–133. 10.1016/j.cej.2016.10.102
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2017Model application 18
Churchfield, Matthew J.; Lee, Sang; Moriarty, Patrick J.; Medjroubi, W.; Stoevesand, B.; Peralta, C.; 2014. Adding complex terrain and stable atmospheric condition capability to the OpenFOAM-based flow solver of the simulator for on/offshore wind farm applications (SOWFA). ITM Web of Conferences, 2, 02001. 10.1051/itmconf/20140202001
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2014Model application 25
Habla, Florian; Tan, Ming Wei; Haßlberger, Johannes; Hinrichsen, Olaf; 2014. Numerical simulation of the viscoelastic flow in a three-dimensional lid-driven cavity using the log-conformation reformulation in OpenFOAM®. Journal of Non-Newtonian Fluid Mechanics, 212, 47–62. 10.1016/j.jnnfm.2014.08.005
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2014Model application 33
Gago, Paula A.; Raeini, Ali Q.; King, Peter; 2020. A spatially resolved fluid-solid interaction model for dense granular packs/soft-sand. Advances in Water Resources, 136, 103454. 10.1016/j.advwatres.2019.103454
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2020Model application 5
Cervi, E.; Lorenzi, S.; Cammi, A.; Luzzi, L.; 2019. Development of an SP3 neutron transport solver for the analysis of the Molten Salt Fast Reactor. Nuclear Engineering and Design, 346, 209–219. 10.1016/j.nucengdes.2019.03.001
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2019Model application 14
Zhou, Zheyu; Sangermano, Jacob; Hsu, Tian-Jian; Ting, Francis C. K.; 2014. A numerical investigation of wave-breaking-induced turbulent coherent structure under a solitary wave. Journal of Geophysical Research: Oceans, 119, 6952–6973. 10.1002/2014JC009854
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2014Model application 27
Mauroy, Benjamin; Kumar, Haribalan; 2017. Numerical model of air-mucus interactions in a bronchus. . Volume .
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2017Model application 2
Hewitt, Sam; Margetts, Lee; Revell, Alistair; Pankaj, Pankaj; Levrero-Florencio, Francesc; 2019. OpenFPCI: A parallel fluid–structure interaction framework. Computer Physics Communications, 244, 469–482. 10.1016/j.cpc.2019.05.016
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2019Model application 1
Šidlof, Petr; Řidký, Václav; Dančová, Petra; Vít, Tomáš; 2015. Scalability of the parallel CFD simulations of flow past a fluttering airfoil in OpenFOAM. EPJ Web of Conferences, 92, 02080. 10.1051/epjconf/20159202080
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2015Model application 2
Yu, Chao; Wang, Yiwei; Huang, Chenguang; Du, Tezhuan; Xu, Chang; Huang, Jian; 2017. Experimental and numerical investigation on cloud cavitating flow around an axisymmetric projectile near the wall with emphasis on the analysis of local cavity shedding. Ocean Engineering, 140, 377–387. 10.1016/j.oceaneng.2017.06.007
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2017Model application 11
Saeedipour, Mahdi; Vincent, Stéphane; Pirker, Stefan; 2019. Large eddy simulation of turbulent interfacial flows using Approximate Deconvolution Model. International Journal of Multiphase Flow, 112, 286–299. 10.1016/j.ijmultiphaseflow.2018.10.011
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2019Model application 21
Gori, G.; Zocca, M.; Garabelli, M.; Guardone, A.; Quaranta, G.; 2015. PoliMIce: A simulation framework for three-dimensional ice accretion. Applied Mathematics and Computation, 267, 96–107. 10.1016/j.amc.2015.05.081
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2015Model application 19
Flores, Federico; Garreaud, René; Muñoz, Ricardo C.; 2014. OpenFOAM applied to the CFD simulation of turbulent buoyant atmospheric flows and pollutant dispersion inside large open pit mines under intense insolation. Computers & Fluids, 90, 72–87. 10.1016/j.compfluid.2013.11.012
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2014Model application 13
Bahreini, Mohammad; Ramiar, Abas; Ranjbar, Ali Akbar; 2015. Numerical simulation of bubble behavior in subcooled flow boiling under velocity and temperature gradient. Nuclear Engineering and Design, 293, 238–248. 10.1016/j.nucengdes.2015.08.004
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2015Model application 35
Martínez, J.; Piscaglia, F.; Montorfano, A.; Onorati, A.; Aithal, S.M.; 2015. Influence of spatial discretization schemes on accuracy of explicit LES: Canonical problems to engine-like geometries. Computers & Fluids, 117, 62–78. 10.1016/j.compfluid.2015.05.007
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2015Model application 14
Cheng, Jingcai; Li, Qian; Yang, Chao; Zhang, Yongqiang; Mao, Zaisha; 2018. CFD-PBE simulation of a bubble column in OpenFOAM. Chinese Journal of Chemical Engineering, 26, 1773–1784. 10.1016/j.cjche.2017.11.012
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2018Model application 10
Kononenko, O.; Lopes, N.C.; Cole, J.M.; Kamperidis, C.; Mangles, S.P.D.; Najmudin, Z.; Osterhoff, J.; Poder, K.; Rusby, D.; Symes, D.R.; Warwick, J.; Wood, J.C.; Palmer, C.A.J.; 2016. 2D hydrodynamic simulations of a variable length gas target for density down-ramp injection of electrons into a laser wakefield accelerator. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 829, 125–129. 10.1016/j.nima.2016.03.104
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2016Model application 12
Douglas, Steven; Nistor, Ioan; 2015. On the effect of bed condition on the development of tsunami-induced loading on structures using OpenFOAM. Natural Hazards, 76, 1335–1356. 10.1007/s11069-014-1552-2
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2015Model application 25
Ferreira, J.; Castro, F.; Rocha, F.; Kuhn, S.; 2018. Protein crystallization in a droplet-based microfluidic device: Hydrodynamic analysis and study of the phase behaviour. Chemical Engineering Science, 191, 232–244. 10.1016/j.ces.2018.06.066
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2018Model application 25
Contino, Francesco; Lucchini, Tommaso; D'Errico, Gianluca; Duynslaegher, Catherine; 2012. Simulations of Advanced Combustion Modes Using Detailed Chemistry Combined with Tabulation and Mechanism Reduction Techniques. SAE International Journal of Engines, 5, 185–196. 10.4271/2012-01-0145
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2012Model application 26
Magnini, M.; Ferrari, A.; Thome, J. R.; Stone, H. A.; 2017. Undulations on the surface of elongated bubbles in confined gas-liquid flows. Physical Review Fluids, 2, 084001. 10.1103/PhysRevFluids.2.084001
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2017Model application 20
Krauze, A.; Jēkabsons, N.; Muižnieks, A.; Sabanskis, A.; Lācis, U.; 2010. Applicability of LES turbulence modeling for CZ silicon crystal growth systems with traveling magnetic field. Journal of Crystal Growth, 312, 3225–3234. 10.1016/j.jcrysgro.2010.07.048
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2010Model application 13
Chen, Long; Lam, Wei-Haur; 2014. Slipstream between marine current turbine and seabed. Energy, 68, 801–810. 10.1016/j.energy.2014.02.083
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2014Model application 22
Bai, Wei; Zhang, Tong; McGovern, David J.; 2017. Response of small sea ice floes in regular waves: A comparison of numerical and experimental results. Ocean Engineering, 129, 495–506. 10.1016/j.oceaneng.2016.10.045
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2017Model application 12
Kim, Tae-Woo; Oh, Se-Jong; Yee, Kwan-Jung; 2011. Verification of the Open Source Code, OpenFOAM to the External Flows. Journal of the Korean Society for Aeronautical & Space Sciences, 39, 702–710. 10.5139/JKSAS.2011.39.8.702
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2011Model application 4
Engberg, Roland F.; Wegener, Mirco; Kenig, Eugeny Y.; 2014. The impact of Marangoni convection on fluid dynamics and mass transfer at deformable single rising droplets – A numerical study. Chemical Engineering Science, 116, 208–222. 10.1016/j.ces.2014.04.023
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2014Model application 28
Grössing, Harald; Stadlmajer, Natalie; Fauster, Ewald; Fleischmann, Martin; Schledjewski, Ralf; 2016. Flow front advancement during composite processing: predictions from numerical filling simulation tools in comparison with real-world experiments. Polymer Composites, 37, 2782–2793. 10.1002/pc.23474
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2016Model application 16
H. Bagheri, Morteza; Esmailpour, Kazem; Hoseinalipour, Seyyed Mostafa; Mujumdar, Arun S.; 2019. Numerical study and POD snapshot analysis of flow characteristics for pulsating turbulent opposing jets. International Journal of Numerical Methods for Heat & Fluid Flow, 29, 2009–2031. 10.1108/HFF-07-2018-0382
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2019Model application 4
Albadawi, A.; Donoghue, D.B.; Robinson, A.J.; Murray, D.B.; Delauré, Y.M.C.; 2014. On the assessment of a VOF based compressive interface capturing scheme for the analysis of bubble impact on and bounce from a flat horizontal surface. International Journal of Multiphase Flow, 65, 82–97. 10.1016/j.ijmultiphaseflow.2014.05.017
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2014Model application 21
Buccolieri, Riccardo; Jeanjean, Antoine P.R.; Gatto, Elisa; Leigh, Roland J.; 2018. The impact of trees on street ventilation, NOx and PM2.5 concentrations across heights in Marylebone Rd street canyon, central London. Sustainable Cities and Society, 41, 227–241. 10.1016/j.scs.2018.05.030
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2018Model application 49
Jha, Pankaj; Duque, Earl; Bashioum, Jessica; Schmitz, Sven; 2015. Unraveling the Mysteries of Turbulence Transport in a Wind Farm. Energies, 8, 6468–6496. 10.3390/en8076468
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2015Model application 13
Li, Tao; Kong, Fanfu; Xu, Baopeng; Wang, Xiaohan; 2019. Turbulent combustion modeling using a flamelet generated manifold approach — a validation study in OpenFOAM. Applied Mathematics and Mechanics, 40, 1197–1210. 10.1007/s10483-019-2503-6
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2019Model application 1
Ohkubo, Tomomasa; Sato, Yuji; Matsunaga, Ei-ichi; Tsukamoto, Masahiro; 2017. Three-dimensional numerical simulation during laser processing of CFRP. Applied Surface Science, 417, 104–107. 10.1016/j.apsusc.2017.02.249
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2017Model application 13
Minocha, Nitin; Joshi, Jyeshtharaj B.; Nayak, Arun K.; Vijayan, Pallippattu K.; 2015. Numerical investigation of three-dimensional natural circulation phenomenon in passive safety systems for decay heat removal in large pools. International Journal of Heat and Mass Transfer, 81, 659–680. 10.1016/j.ijheatmasstransfer.2014.10.007
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2015Model application 16
Nagorny, Vladimir S.; Smirnovsky, Alexander A.; Tchernysheff, Alexander S.; Kolodyazhny, Dmitriy Yu.; 2015. Numerical Simulation of the Flow in the Fuel Injector in the Sharply Inhomogeneous Electric Field. Procedia Computer Science, 51, 1219–1228. 10.1016/j.procs.2015.05.300
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2015Model application 2
Han, Xiao; Laera, Davide; Yang, Dong; Zhang, Chi; Wang, Jianchen; Hui, Xin; Lin, Yuzhen; Morgans, Aimee S.; Sung, Chih-Jen; 2020. Flame interactions in a stratified swirl burner: Flame stabilization, combustion instabilities and beating oscillations. Combustion and Flame, 212, 500–509. 10.1016/j.combustflame.2019.11.020
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2020Model application 13
Cardillo, Lucio; Corsini, Alessandro; Delibra, Giovanni; Rispoli, Franco; Sheard, Anthony G.; Venturini, Paolo; 2014. Predicting the Performance of an Industrial Centrifugal Fan Incorporating Cambered Plate Impeller Blades. Periodica Polytechnica Mechanical Engineering, 58, 15–25. 10.3311/PPme.7397
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2014Model application 3
Schaper, Lucas; Goldberg, Lars; Kleinwächter, Tobias; Schwinkendorf, Jan-Patrick; Osterhoff, Jens; 2014. Longitudinal gas-density profilometry for plasma-wakefield acceleration targets. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 740, 208–211. 10.1016/j.nima.2013.10.052
(View/edit entry)
2014Model application 15
Wang, Jian-hua; Zhao, Wei-wen; Wan, De-cheng; 2019. Development of naoe-FOAM-SJTU solver based on OpenFOAM for marine hydrodynamics. Journal of Hydrodynamics, 31, 1–20. 10.1007/s42241-019-0020-6
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2019Model application 27
Ding, Nan; Xu, Shiming; Song, Zhenya; Zhang, Baoquan; Li, Jingmei; Zheng, Zhigao; 2019. Using hardware counter-based performance model to diagnose scaling issues of HPC applications. Neural Computing and Applications, 31, 1563–1575. 10.1007/s00521-018-3496-z
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2019Model application 3
Jiang, Sheng-Chao; Bai, Wei; Cong, Pei-Wen; Yan, Bin; 2019. Numerical investigation of wave forces on two side-by-side non-identical boxes in close proximity under wave actions. Marine Structures, 63, 16–44. 10.1016/j.marstruc.2018.08.007
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2019Model application 16
Li, Han; Anand, N.K.; Hassan, Yassin A.; 2018. Computational study of turbulent flow interaction between twin rectangular jets. International Journal of Heat and Mass Transfer, 119, 752–767. 10.1016/j.ijheatmasstransfer.2017.12.008
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2018Model application 9
Rivier, M.; Lachaud, J.; Congedo, P.M.; 2019. Ablative thermal protection system under uncertainties including pyrolysis gas composition. Aerospace Science and Technology, 84, 1059–1069. 10.1016/j.ast.2018.11.048
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2019Model application 27
Hidalgo, Victor; Luo, Xian-wu; Escaler, Xavier; Ji, Bin; Aguinaga, Alvaro; 2015. Implicit large eddy simulation of unsteady cloud cavitation around a plane-convex hydrofoil. Journal of Hydrodynamics, 27, 815–823. 10.1016/S1001-6058(15)60544-3
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2015Model application 18
Lee, Moon Soo; Li, Zhenning; Ling, Jiazhen; Aute, Vikrant; 2018. A CFD assisted segmented control volume based heat exchanger model for simulation of air-to-refrigerant heat exchanger with air flow mal-distribution. Applied Thermal Engineering, 131, 230–243. 10.1016/j.applthermaleng.2017.11.094
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2018Model application 8
Wroniszewski, Paweł A.; Verschaeve, Joris C.G.; Pedersen, Geir K.; 2014. Benchmarking of Navier–Stokes codes for free surface simulations by means of a solitary wave. Coastal Engineering, 91, 1–17. 10.1016/j.coastaleng.2014.04.012
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2014Model application 29
Wang, Yiwei; Ye, Bingsheng; Wang, Jingzhu; Huang, Chenguang; 2018. Re-Entry Jet and Shock Induced Cavity Shedding in Cloud Cavitating Flow Around an Axisymmetric Projectile. . Volume .
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2018Model application 1
Magnini, M.; Matar, O.K.; 2020. Numerical study of the impact of the channel shape on microchannel boiling heat transfer. International Journal of Heat and Mass Transfer, 150, 119322. 10.1016/j.ijheatmasstransfer.2020.119322
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2020Model application 6
Zhou, Dezhi; Zou, Shufan; Yang, Suo; 2020. An OpenFOAM-based fully compressible reacting flow solver with detailed transport and chemistry for high-speed combustion simulations. . Volume .
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2020Model application 0
Zhou, Dezhi; Yang, Suo; 2020. A robust reacting flow solver with detailed transport, chemistry, and steady-state preserving splitting schemes based on OpenFOAM and Cantera. . Volume .
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2020Model application 0
Kamliya Jawahar, Hasan; Lin, Yujing; Savill, Mark; Isikveren, AskinT.; 2017. Large eddy simulation of airfoil self-noise using OpenFOAM. Aircraft Engineering and Aerospace Technology, , 00–00. 10.1108/AEAT-05-2015-0130
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2017Model application 8
Välikangas, Turo; Singh, Shobhana; Sørensen, Kim; Condra, Thomas; 2018. Fin-and-tube heat exchanger enhancement with a combined herringbone and vortex generator design. International Journal of Heat and Mass Transfer, 118, 602–616. 10.1016/j.ijheatmasstransfer.2017.11.006
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2018Model application 22
Cavar, Dalibor; Réthoré, Pierre-Elouan; Bechmann, Andreas; Sørensen, Niels N.; Martinez, Benjamin; Zahle, Frederik; Berg, Jacob; Kelly, Mark C.; 2016. Comparison of OpenFOAM and EllipSys3D for neutral atmospheric flow over complex terrain. Wind Energy Science, 1, 55–70. 10.5194/wes-1-55-2016
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2016Model application 15
Mohamed Ismail, Harun; Ng, Hoon Kiat; Gan, Suyin; Lucchini, Tommaso; 2013. Computational study of biodiesel–diesel fuel blends on emission characteristics for a light-duty diesel engine using OpenFOAM. Applied Energy, 111, 827–841. 10.1016/j.apenergy.2013.05.068
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2013Model application 25
Dau, Van Thanh; Dinh, Thien Xuan; Bui, Tung Thanh; Terebessy, Tibor; 2016. Bipolar corona assisted jet flow for fluidic application. Flow Measurement and Instrumentation, 50, 252–260. 10.1016/j.flowmeasinst.2016.07.005
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2016Model application 20
Müller, H.; Younis, B.A.; Weigand, B.; 2015. Development of a compact explicit algebraic model for the turbulent heat fluxes and its application in heated rotating flows. International Journal of Heat and Mass Transfer, 86, 880–889. 10.1016/j.ijheatmasstransfer.2015.03.059
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2015Model application 11
Han, Xingsi; Yang, Junfeng; Mao, Junkui; 2016. LES investigation of two frequency effects on acoustically forced premixed flame. Fuel, 185, 449–459. 10.1016/j.fuel.2016.08.005
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2016Model application 14
Wang, Yujun; Folino, Paul; Singh, Rakesh K.; Kamp, Carl J.; Saeid, Amin; Ernstmeyer, James; Kharraja, Bachir; 2015. Modeling of Sintered Metal Fiber Diesel Particulate Filter Wall Permeability Based on 3D Digital Structure From CT-Scan. . Volume .
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2015Model application 0
Nabil, Mahdi; Rattner, Alexander S.; 2016. interThermalPhaseChangeFoam—A framework for two-phase flow simulations with thermally driven phase change. SoftwareX, 5, 216–226. 10.1016/j.softx.2016.10.002
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2016Model application 24
Mohammadi, Mohammad Amin; Jafarian, Ali; 2018. CFD simulation to investigate hydrodynamics of oscillating flow in a beta-type Stirling engine. Energy, 153, 287–300. 10.1016/j.energy.2018.04.017
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2018Model application 15
Samkhaniani, Nima; Gharehbaghi, Ahmadreza; Ahmadi, Zahed; 2013. Numerical simulation of reaction injection molding with polyurethane foam. Journal of Cellular Plastics, 49, 405–421. 10.1177/0021955X13485594
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2013Model application 21
Longshaw, S.M.; Borg, M.K.; Ramisetti, S.B.; Zhang, J.; Lockerby, D.A.; Emerson, D.R.; Reese, J.M.; 2018. mdFoam+: Advanced molecular dynamics in OpenFOAM. Computer Physics Communications, 224, 1–21. 10.1016/j.cpc.2017.09.029
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2018Model application 10
Kang, Zhuang; Ni, Wenchi; Sun, Liping; 2017. A numerical investigation on capturing the maximum transverse amplitude in vortex induced vibration for low mass ratio. Marine Structures, 52, 94–107. 10.1016/j.marstruc.2016.11.006
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2017Model application 21
Alekseev, M V; Vozhakov, I S; Lobanov, P D; Svetonosov, A I; Mohan, V Kalpana; Lezhnin, S I; Pribaturin, N A; 2018. Numerical simulation of pulsed gas-to-liquid injection modes using open source CFD software package OpenFoam. Journal of Physics: Conference Series, 1105, 012085. 10.1088/1742-6596/1105/1/012085
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2018Model application 5
Adelmann, S.; Schwienheer, C.; Schembecker, G.; 2011. Multiphase flow modeling in centrifugal partition chromatography. Journal of Chromatography A, 1218, 6092–6101. 10.1016/j.chroma.2011.01.063
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2011Model application 19
Hu, Tianliang; Cao, Liangzhi; Wu, Hongchun; Du, Xianan; He, Mingtao; 2017. Coupled neutronics and thermal-hydraulics simulation of molten salt reactors based on OpenMC/TANSY. Annals of Nuclear Energy, 109, 260–276. 10.1016/j.anucene.2017.05.002
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2017Model application 14
Kheirkhah Gildeh, Hossein; Mohammadian, Abdolmajid; Nistor, Ioan; Qiblawey, Hazim; Yan, Xiaohui; 2016. CFD modeling and analysis of the behavior of 30° and 45° inclined dense jets – new numerical insights. Journal of Applied Water Engineering and Research, 4, 112–127. 10.1080/23249676.2015.1090351
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2016Model application 19
Park, Sunho; Rhee, Shin Hyung; 2015. Comparative study of incompressible and isothermal compressible flow solvers for cavitating flow dynamics. Journal of Mechanical Science and Technology, 29, 3287–3296. 10.1007/s12206-015-0727-4
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2015Model application 13
Piscaglia, Federico; Montorfano, Andrea; Onorati, Angelo; 2013. Towards the LES Simulation of IC Engines with Parallel Topologically Changing Meshes. SAE International Journal of Engines, 6, 926–940. 10.4271/2013-01-1096
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2013Model application 18
Fooladgar, Ehsan; Chan, C.K.; Nogenmyr, Karl-Johan; 2017. An accelerated computation of combustion with finite-rate chemistry using LES and an open source library for In-Situ-Adaptive Tabulation. Computers & Fluids, 146, 42–50. 10.1016/j.compfluid.2017.01.008
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2017Model application 13
Silva, L.F.L.R.; Damian, R.B.; Lage, P.L.C.; 2008. Implementation and analysis of numerical solution of the population balance equation in CFD packages. Computers & Chemical Engineering, 32, 2933–2945. 10.1016/j.compchemeng.2008.03.007
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2008Model application 43
Liu, Wei; Jin, Mingang; Chen, Chun; You, Ruoyu; Chen, Qingyan; 2016. Implementation of a fast fluid dynamics model in OpenFOAM for simulating indoor airflow. Numerical Heat Transfer, Part A: Applications, 69, 748–762. 10.1080/10407782.2015.1090780
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2016Model application 18
Le, Nam T. P.; Vu, Ngoc Anh; Loc, Le Tan; 2017. New Type of Smoluchowski Temperature Jump Condition Considering the Viscous Heat Generation. AIAA Journal, 55, 474–483. 10.2514/1.J055058
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2017Model application 8
Habla, Florian; Fernandes, C.; Maier, Maximilian; Densky, Lennart; Ferrás, L.L.; Rajkumar, Ananth; Carneiro, O.S.; Hinrichsen, Olaf; Nóbrega, J. Miguel; 2016. Development and validation of a model for the temperature distribution in the extrusion calibration stage. Applied Thermal Engineering, 100, 538–552. 10.1016/j.applthermaleng.2016.01.166
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2016Model application 10
Favero, J.L.; Secchi, A.R.; Cardozo, N.S.M.; Jasak, H.; 2010. Viscoelastic fluid analysis in internal and in free surface flows using the software OpenFOAM. Computers & Chemical Engineering, 34, 1984–1993. 10.1016/j.compchemeng.2010.07.010
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2010Model application 28
Chun, Shen; Fengxian, Sun; Xinlin, Xia; 2013. Analysis on capabilities of density-based solvers within OpenFOAM to distinguish aerothermal variables in diffusion boundary layer. Chinese Journal of Aeronautics, 26, 1370–1379. 10.1016/j.cja.2013.10.003
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2013Model application 12
Seiffert, Betsy R.; Ertekin, R. Cengiz; Robertson, Ian N.; 2015. Wave loads on a coastal bridge deck and the role of entrapped air. Applied Ocean Research, 53, 91–106. 10.1016/j.apor.2015.07.010
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2015Model application 28
Benitz, Maija A.; Schmidt, David P.; Lackner, Matthew A.; Stewart, Gordon M.; Jonkman, Jason; Robertson, Amy; 2014. Comparison of Hydrodynamic Load Predictions Between Reduced Order Engineering Models and Computational Fluid Dynamics for the OC4-DeepCwind Semi-Submersible. . Volume .
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2014Model application 18
Edesess, Ariel J.; Kelliher, Denis; Borthwick, Alistair G.L.; Thomas, Gareth; 2017. Improving global accessibility to offshore wind power through decreased operations and maintenance costs: a hydrodynamic analysis. Energy Procedia, 138, 1055–1060. 10.1016/j.egypro.2017.10.107
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2017Model application 4
Hunter, Timothy N.; Peakall, Jeff; Egarr, Darrell; Cowell, David M.J.; Freear, Steven; Tonge, Alastair S.; Horton, Lucy; Rice, Hugh P.; Smith, Iain; Malone, Kevin; Burt, David; Barnes, Martyn; Randall, Geoff; Biggs, Simon; Fairweather, Michael; 2020. Concentration profiling of a horizontal sedimentation tank utilising a bespoke acoustic backscatter array and CFD simulations. Chemical Engineering Science, 218, 115560. 10.1016/j.ces.2020.115560
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2020Model application 7
Rezaeiravesh, S.; Liefvendahl, M.; 2018. Effect of grid resolution on large eddy simulation of wall-bounded turbulence. Physics of Fluids, 30, 055106. 10.1063/1.5025131
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2018Model application 0
Dillmann, Andreas; Heller, Gerd; Krämer, Ewald; Wagner, Claus; Breitsamter, Christian; Kath, Christian; 2016. Highly Resolved Simulations of Turbulent Mixed Convection in a Vertical Plane Channel. In: (eds.)New Results in Numerical and Experimental Fluid Mechanics X.. 515–524.
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2016Model application 6
Kong, Bo; Fox, Rodney O.; 2017. A solution algorithm for fluid–particle flows across all flow regimes. Journal of Computational Physics, 344, 575–594. 10.1016/j.jcp.2017.05.013
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2017Model application 22
Gebreslassie, Mulualem G.; Tabor, Gavin R.; Belmont, Michael R.; 2013. Numerical simulation of a new type of cross flow tidal turbine using OpenFOAM – Part II: Investigation of turbine-to-turbine interaction. Renewable Energy, 50, 1005–1013. 10.1016/j.renene.2012.08.064
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2013Model application 16
Zeng, Qingyun; Cai, Jiejin; Yin, Huaqiang; Yang, Xingtuan; Watanabe, Tadashi; 2015. Numerical simulation of single bubble condensation in subcooled flow using OpenFOAM. Progress in Nuclear Energy, 83, 336–346. 10.1016/j.pnucene.2015.04.011
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2015Model application 23
Malekzadeh, Shima; Roohi, Ehsan; 2015. Investigation of Different Droplet Formation Regimes in a T-junction Microchannel Using the VOF Technique in OpenFOAM. Microgravity Science and Technology, 27, 231–243. 10.1007/s12217-015-9440-2
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2015Model application 21
Yan, Zhimiao; Ragab, Saad A.; Hajj, Muhammad R.; 2018. Passive control of transonic flutter with a nonlinear energy sink. Nonlinear Dynamics, 91, 577–590. 10.1007/s11071-017-3894-2
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2018Model application 27
Magnini, M.; Matar, O.K.; 2020. Morphology of long gas bubbles propagating in square capillaries. International Journal of Multiphase Flow, 129, 103353. 10.1016/j.ijmultiphaseflow.2020.103353
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2020Model application 4
Nuernberg, Martin; Tao, Longbin; 2018. Three dimensional tidal turbine array simulations using OpenFOAM with dynamic mesh. Ocean Engineering, 147, 629–646. 10.1016/j.oceaneng.2017.10.053
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2018Model application 18
Borello, Domenico; Corsini, Alessandro; Delibra, Giovanni; Fiorito, Mario; Sheard, Anthony G.; 2013. Large-Eddy Simulation of a Tunnel Ventilation Fan. Journal of Fluids Engineering, 135, 071102. 10.1115/1.4023686
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2013Model application 12
Fu, Bowen; Zou, Lu; Wan, Decheng; 2018. Numerical study of vortex-induced vibrations of a flexible cylinder in an oscillatory flow. Journal of Fluids and Structures, 77, 170–181. 10.1016/j.jfluidstructs.2017.12.006
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2018Model application 18
Larsen, Bjarke Eltard; Fuhrman, David R.; Roenby, Johan; 2019. Performance of interFoam on the simulation of progressive waves. Coastal Engineering Journal, 61, 380–400. 10.1080/21664250.2019.1609713
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2019Model application 7
Yachao, Lee; Yao, Wei; Fan, Xuejun; 2017. A low-dissipation scheme based on OpenFoam designed for large eddy simulation in compressible flow. . Volume .
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2017Model application 5
Mukha, T.; Rezaeiravesh, S.; Liefvendahl, M.; 2019. A library for wall-modelled large-eddy simulation based on OpenFOAM technology. Computer Physics Communications, 239, 204–224. 10.1016/j.cpc.2019.01.016
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2019Model application 26
Liu, Yefei; Hinrichsen, Olaf; 2014. CFD Simulation of Hydrodynamics and Methanation Reactions in a Fluidized-Bed Reactor for the Production of Synthetic Natural Gas. Industrial & Engineering Chemistry Research, 53, 9348–9356. 10.1021/ie500774s
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2014Model application 27
Dau, Van Thanh; Dinh, Thien Xuan; Tran, Canh Dung; Bui, Phong Nhu; Vien, Du Dinh; Phan, Hoa Thanh; 2018. Fluidic mechanism for dual-axis gyroscope. Mechanical Systems and Signal Processing, 108, 73–87. 10.1016/j.ymssp.2018.02.017
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2018Model application 11
Kiani, Hossein; Zhang, Zhihang; Sun, Da-Wen; 2015. Experimental analysis and modeling of ultrasound assisted freezing of potato spheres. Ultrasonics Sonochemistry, 26, 321–331. 10.1016/j.ultsonch.2015.02.015
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2015Model application 25
Smith, E.R.; Trevelyan, D.J.; Ramos-Fernandez, E.; Sufian, A.; O’Sullivan, C.; Dini, D.; 2020. CPL library — A minimal framework for coupled particle and continuum simulation. Computer Physics Communications, 250, 107068. 10.1016/j.cpc.2019.107068
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2020Model application 2
Kassiotis, Christophe; Ibrahimbegovic, Adnan; Niekamp, Rainer; Matthies, Hermann G.; 2011. Nonlinear fluid–structure interaction problem. Part II: space discretization, implementation aspects, nested parallelization and application examples. Computational Mechanics, 47, 335–357. 10.1007/s00466-010-0544-7
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2011Model application 17
Duke, Daniel J; Schmidt, David P; Neroorkar, Kshitij; Kastengren, Alan L; Powell, Christopher F; 2013. High-resolution large eddy simulations of cavitating gasoline–ethanol blends. International Journal of Engine Research, 14, 578–589. 10.1177/1468087413501824
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2013Model application 20
Aversano, Gianmarco; Bellemans, Aurélie; Li, Zhiyi; Coussement, Axel; Gicquel, Olivier; Parente, Alessandro; 2019. Application of reduced-order models based on PCA & Kriging for the development of digital twins of reacting flow applications. Computers & Chemical Engineering, 121, 422–441. 10.1016/j.compchemeng.2018.09.022
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2019Model application 28
Wu, Hsingtzu; 2016. A tightly coupled scheme for neutronics and thermal–hydraulics using open-source software. Annals of Nuclear Energy, 87, 16–22. 10.1016/j.anucene.2015.08.004
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2016Model application 4
Meng, Xiangyin; Li, Yan; 2015. Numerical study of natural convection in a horizontal cylinder filled with water-based alumina nanofluid. Nanoscale Research Letters, 10, 142. 10.1186/s11671-015-0847-x
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2015Model application 19
Suponitsky, Victoria; Froese, Aaron; Barsky, Sandra; 2014. Richtmyer–Meshkov instability of a liquid–gas interface driven by a cylindrical imploding pressure wave. Computers & Fluids, 89, 1–19. 10.1016/j.compfluid.2013.10.031
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2014Model application 27
Macpherson, G. B.; Borg, M. K.; Reese, J. M.; 2007. Generation of initial molecular dynamics configurations in arbitrary geometries and in parallel. Molecular Simulation, 33, 1199–1212. 10.1080/08927020701730724
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2007Model application 22
Schäfer, C.; Aquite, W. M.; Osswald, T. A.; 2018. Simulation of Micropelletization Mechanisms in Polymer Melt – Air Systems. International Polymer Processing, 33, 76–88. 10.3139/217.3394
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2018Model application 0
Richter, Harald; 2016. About the Suitability of Clouds in High-Performance Computing. . Volume .
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2016Model application 0
Beg, Md Nazmul Azim; Carvalho, Rita F.; Tait, Simon; Brevis, Wernher; Rubinato, Matteo; Schellart, Alma; Leandro, Jorge; 2018. A comparative study of manhole hydraulics using stereoscopic PIV and different RANS models. Water Science and Technology, 2017, 87–98. 10.2166/wst.2018.089
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2018Model application 11
Bah, Elhadji Alpha; Sankar, Lakshmi; Jagoda, Jechiel; 2013. Investigation on the Use of Multi-Element Airfoils for Improving Vertical Axis Wind Turbine Performance.. . Volume .
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2013Model application 6
Jérôme, Daubech; Christophe, Proust; Guillaume, Lecocq; 2017. Propagation of a confined explosion to an external cloud. Journal of Loss Prevention in the Process Industries, 49, 805–813. 10.1016/j.jlp.2017.03.009
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2017Model application 10
Le, Nam T.P.; Shoja-Sani, Ahmad; Roohi, Ehsan; 2015. Rarefied gas flow simulations of NACA 0012 airfoil and sharp 25–55-deg biconic subject to high order nonequilibrium boundary conditions in CFD. Aerospace Science and Technology, 41, 274–288. 10.1016/j.ast.2014.12.019
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2015Model application 14
Zhu, Lianhua; Chen, Songze; Guo, Zhaoli; 2017. dugksFoam: An open source OpenFOAM solver for the Boltzmann model equation. Computer Physics Communications, 213, 155–164. 10.1016/j.cpc.2016.11.010
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2017Model application 24
Lewis, S.R.; Anumolu, L.; Trujillo, M.F.; 2013. Numerical simulations of droplet train and free surface jet impingement. International Journal of Heat and Fluid Flow, 44, 610–623. 10.1016/j.ijheatfluidflow.2013.09.001
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2013Model application 15
Dose, B.; Rahimi, H.; Herráez, I.; Stoevesandt, B.; Peinke, J.; 2016. Fluid-structure coupled computations of the NREL 5MW wind turbine blade during standstill. Journal of Physics: Conference Series, 753, 022034. 10.1088/1742-6596/753/2/022034
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2016Model application 6
Capurso, T.; Bergamini, L.; Torresi, M.; 2019. Design and CFD performance analysis of a novel impeller for double suction centrifugal pumps. Nuclear Engineering and Design, 341, 155–166. 10.1016/j.nucengdes.2018.11.002
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2019Model application 17
Pal, Eshita; Kumar, Mukesh; Nayak, Arun K.; Joshi, Jyeshtharaj B.; 2016. Experimental and CFD simulations of fluid flow and temperature distribution in a natural circulation driven Passive Moderator Cooling System of an advanced nuclear reactor. Chemical Engineering Science, 155, 45–64. 10.1016/j.ces.2016.07.037
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2016Model application 8
Lee, Sungwook; Kim, Booki; 2015. A numerical study on manoeuvrability of wind turbine installation vessel using OpenFOAM. International Journal of Naval Architecture and Ocean Engineering, 7, 466–477. 10.1515/ijnaoe-2015-0033
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2015Model application 6
Liu, Wei; Chen, Qingyan; 2015. Optimal air distribution design in enclosed spaces using an adjoint method. Inverse Problems in Science and Engineering, 23, 760–779. 10.1080/17415977.2014.933832
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2015Model application 19
Zhu, Zhenduo; LeRoy, Jessica Zinger; Rhoads, Bruce L.; García, Marcelo H.; 2018. HydroSedFoam: A new parallelized two-dimensional hydrodynamic, sediment transport, and bed morphology model. Computers & Geosciences, 120, 32–39. 10.1016/j.cageo.2018.07.008
(View/edit entry)
2018Model application 2
Liu, Yefei; Hinrichsen, Olaf; 2014. CFD modeling of bubbling fluidized beds using OpenFOAM®: Model validation and comparison of TVD differencing schemes. Computers & Chemical Engineering, 69, 75–88. 10.1016/j.compchemeng.2014.07.002
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2014Model application 26
Toja-Silva, Francisco; Peralta, Carlos; Lopez-Garcia, Oscar; Navarro, Jorge; Cruz, Ignacio; 2015. Effect of roof-mounted solar panels on the wind energy exploitation on high-rise buildings. Journal of Wind Engineering and Industrial Aerodynamics, 145, 123–138. 10.1016/j.jweia.2015.06.010
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2015Model application 23
Abishek, S.; King, A.J.C.; Mead-Hunter, R.; Golkarfard, V.; Heikamp, W.; Mullins, B.J.; 2017. Generation and validation of virtual nonwoven, foam and knitted filter (separator/coalescer) geometries for CFD simulations. Separation and Purification Technology, 188, 493–507. 10.1016/j.seppur.2017.07.052
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2017Model application 29
Mereu, R.; Federici, D.; Ferrari, G.; Schito, P.; Inzoli, F.; 2017. Parametric numerical study of Savonius wind turbine interaction in a linear array. Renewable Energy, 113, 1320–1332. 10.1016/j.renene.2017.06.094
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2017Model application 20
Ospald, Felix; 2014. Numerical Simulation of Injection Molding using OpenFOAM: Numerical Simulation of Injection Molding using OpenFOAM. PAMM, 14, 673–674. 10.1002/pamm.201410320
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2014Model application 12
Al-Jelawy, Hayder; Kaczmarczyk, Stefan; AlKhafaji, Dhirgham; Mirhadizadeh, Seyed; Lewis, Rob; Cross, Matt; 2016. A Computational Investigation of a Turbulent Flow over a Backward Facing Step with OpenFOAM. . Volume .
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2016Model application 4
Moreno, José; Casado, Cintia; Marugán, Javier; 2019. Improved discrete ordinate method for accurate simulation radiation transport using solar and LED light sources. Chemical Engineering Science, 205, 151–164. 10.1016/j.ces.2019.04.034
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2019Model application 14
Bouzari, Sajjad; Ghazanfarian, Jafar; 2017. Unsteady forced convection over cylinder with radial fins in cross flow. Applied Thermal Engineering, 112, 214–225. 10.1016/j.applthermaleng.2016.10.052
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2017Model application 24
Wolfendale, Michael J.; Bluck, Michael J.; 2015. A coupled systems code-CFD MHD solver for fusion blanket design. Fusion Engineering and Design, 98, 1902–1906. 10.1016/j.fusengdes.2015.04.025
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2015Model application 5
Myrillas, Konstantinos; Rambaud, Patrick; Mataigne, Jean-Michel; Gardin, Pascal; Vincent, Stéphane; Buchlin, Jean-Marie; 2013. Numerical modeling of gas-jet wiping process. Chemical Engineering and Processing: Process Intensification, 68, 26–31. 10.1016/j.cep.2012.10.004
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2013Model application 12
Gourbesville, Philippe; Cunge, Jean A.; Caignaert, Guy; Decaix, Jean; Balarac, Guillaume; Münch, Cécile; 2016. Rans Computations of a Cavitating Tip Vortex. In: (eds.)Advances in Hydroinformatics.. 519–529.
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2016Model application 3
Karimi, Mohsen; Droghetti, Hermes; Marchisio, Daniele L.; 2016. Multiscale Modeling of Expanding Polyurethane Foams via Computational Fluid Dynamics and Population Balance Equation. Macromolecular Symposia, 360, 108–122. 10.1002/masy.201500108
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2016Model application 12
Šimurda, D.; Fürst, J.; Luxa, M.; 2013. 3D flow past transonic turbine cascade SE 1050 — Experiment and numerical simulations. Journal of Thermal Science, 22, 311–319. 10.1007/s11630-013-0629-7
(View/edit entry)
2013Model application 7
Doolan, Con; 2009. Flow and Noise Simulation of the NASA Tandem Cylinder Experiment Using OpenFOAM. . Volume .
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2009Model application 22
Votyakov, Evgeny V.; Papanicolas, Costas N.; 2017. Consistent multiphysics simulation of a central tower CSP plant as applied to ISTORE. . Volume .
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2017Model application 4
Tabib, Mandar V.; Lane, Graeme; Yang, William; Schwarz, M. Philip; 2012. CFD study of single phase and multiphase (liquid–liquid) pump-mixer: Analyzing design parameters, flow structures and turbulence. Chemical Engineering Science, 80, 55–69. 10.1016/j.ces.2012.01.042
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2012Model application 14
Saqr, Khalid M.; Kassem, Hassan I.; Aly, Hossam S.; Wahid, Mazlan A.; 2012. Computational study of decaying annular vortex flow using the Rε/k−ε turbulence model. Applied Mathematical Modelling, 36, 4652–4664. 10.1016/j.apm.2011.11.082
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2012Model application 17
Mikuž, Blaž; Tiselj, Iztok; 2017. URANS prediction of flow fluctuations in rod bundle with split-type spacer grid. International Journal of Heat and Fluid Flow, 64, 10–22. 10.1016/j.ijheatfluidflow.2017.01.008
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2017Model application 15
Altimira, Mireia; Fuchs, Laszlo; 2015. Numerical investigation of throttle flow under cavitating conditions. International Journal of Multiphase Flow, 75, 124–136. 10.1016/j.ijmultiphaseflow.2015.05.006
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2015Model application 19
Liu, Zhaowei; Chen, Yongcan; Wu, Yongyan; Wang, Wenyong; Li, Ling; 2017. Simulation of exchange flow between open water and floating vegetation using a modified RNG k-ε turbulence model. Environmental Fluid Mechanics, 17, 355–372. 10.1007/s10652-016-9489-5
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2017Model application 11
Cai, Jian; Marquez, Ricardo; Modest, Michael F.; 2014. Comparisons of Radiative Heat Transfer Calculations in a Jet Diffusion Flame Using Spherical Harmonics and k-Distributions. Journal of Heat Transfer, 136, 112702. 10.1115/1.4026169
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2014Model application 15
Prasad, Bijoy; Hino, Takanori; Suzuki, Kazuo; 2015. Numerical simulation of free surface flows around shallowly submerged hydrofoil by OpenFOAM. Ocean Engineering, 102, 87–94. 10.1016/j.oceaneng.2015.04.049
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2015Model application 18
Kasibhatla, Raghavendra Rohith; König-Haagen, Andreas; Rösler, Fabian; Brüggemann, Dieter; 2017. Numerical modelling of melting and settling of an encapsulated PCM using variable viscosity. Heat and Mass Transfer, 53, 1735–1744. 10.1007/s00231-016-1932-0
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2017Model application 22
Peng Kärrholm, Fabian; Tao, Feng; Nordin, Niklas; 2008. Three-Dimensional Simulation of Diesel Spray Ignition and Flame Lift-Off Using OpenFOAM and KIVA-3V CFD Codes. . Volume .
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2008Model application 24
Tong, Yiheng; Liu, Xiao; Wang, Zhenkan; Richter, Mattias; Klingmann, Jens; 2018. Experimental and numerical study on bluff-body and swirl stabilized diffusion flames. Fuel, 217, 352–364. 10.1016/j.fuel.2017.12.061
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2018Model application 17
Wilson, Jordan M.; Davis, Cole J.; Venayagamoorthy, Subhas K.; Heyliger, Paul R.; 2015. Comparisons of Horizontal-Axis Wind Turbine Wake Interaction Models. Journal of Solar Energy Engineering, 137, 031001. 10.1115/1.4028914
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2015Model application 14
Miquel, Adria; Kamath, Arun; Alagan Chella, Mayilvahanan; Archetti, Renata; Bihs, Hans; 2018. Analysis of Different Methods for Wave Generation and Absorption in a CFD-Based Numerical Wave Tank. Journal of Marine Science and Engineering, 6, 73. 10.3390/jmse6020073
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2018Model application 33
Speranza, N.; Kidd, B.; Schultz, M.P.; Viola, I.M.; 2019. Modelling of hull roughness. Ocean Engineering, 174, 31–42. 10.1016/j.oceaneng.2019.01.033
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2019Model application 11
Gong, Y.; Kaario, O.; Tilli, A.; Larmi, M.; Tanner, F.X.; 2010. A Computational Investigation of Hydrotreated Vegetable Oil Sprays Using RANS and a Modified Version of the RNG k - ε Model in OpenFOAM. . Volume .
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2010Model application 18
Kone, Jean-Paul; Zhang, Xinyu; Yan, Yuying; Hu, Guilin; Ahmadi, Goodarz; 2018. CFD modeling and simulation of PEM fuel cell using OpenFOAM. Energy Procedia, 145, 64–69. 10.1016/j.egypro.2018.04.011
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2018Model application 9
Xiang, Yang; 2011. Investigating the Scalability of OpenFOAM for the Solution of Transport Equations and Large Eddy Simulations. In: (eds.)Algorithms and Architectures for Parallel Processing.. 121–130.
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2011Model application 11
Weinmann, Markus; Sandberg, Richard; Doolan, Con J.; 2010. Flow and Noise Predictions for a Tandem Cylinder Configuration Using Novel Hybrid RANS/LES Approaches. . Volume .
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2010Model application 11
Parmananda, Mukul; Khan, Salman; Dalal, Amaresh; Natarajan, Ganesh; 2017. Critical assessment of numerical algorithms for convective-radiative heat transfer in enclosures with different geometries. International Journal of Heat and Mass Transfer, 108, 627–644. 10.1016/j.ijheatmasstransfer.2016.12.033
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2017Model application 14
Cai, Jian; Lei, Shenghui; Dasgupta, Adhiraj; Modest, Michael F.; Haworth, Daniel C.; 2014. High fidelity radiative heat transfer models for high-pressure laminar hydrogen–air diffusion flames. Combustion Theory and Modelling, 18, 607–626. 10.1080/13647830.2014.959060
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2014Model application 13
Le, Nam T.P.; Vu, Ngoc Anh; Loc, Le Tan; 2016. Effect of the sliding friction on heat transfer in high-speed rarefied gas flow simulations in CFD. International Journal of Thermal Sciences, 109, 334–341. 10.1016/j.ijthermalsci.2016.06.020
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2016Model application 9
Nagel, Wolfgang E.; Kröner, Dietmar H.; Resch, Michael M.; Vo, Son; Kronenburg, Andreas; Stein, Oliver T.; Hawkes, Evatt R.; 2016. Direct Numerical Simulation of Non-premixed Syngas Combustion Using OpenFOAM. In: (eds.)High Performance Computing in Science and Engineering ´16.. 245–257.
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2016Model application 10
Ščepanskis, M; Jakovičs, A; Baake, E; 2011. Statistical analysis of the influence of forces on particles in EM driven recirculated turbulent flows. Journal of Physics: Conference Series, 333, 012015. 10.1088/1742-6596/333/1/012015
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2011Model application 11
Kang, Xin; Sun, Bowen; Wang, Jianyong; Wang, Yu; 2019. A numerical investigation on the thermo-chemical structures of methane-oxygen diffusion flame-streets in a microchannel. Combustion and Flame, 206, 266–281. 10.1016/j.combustflame.2019.05.006
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2019Model application 12
Cervi, Eric; Lorenzi, Stefano; Luzzi, Lelio; Cammi, Antonio; 2019. Multiphysics analysis of the MSFR helium bubbling system: A comparison between neutron diffusion, SP3 neutron transport and Monte Carlo approaches. Annals of Nuclear Energy, 132, 227–235. 10.1016/j.anucene.2019.04.029
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2019Model application 11
Abdollahi, Azam; Kabiri-Samani, Abdorreza; Asghari, Keyvan; Atoof, Hosein; Bagheri, Sara; 2017. Numerical modeling of flow field around the labyrinth side-weirs in the presence of guide vanes. ISH Journal of Hydraulic Engineering, 23, 71–79. 10.1080/09715010.2016.1239555
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2017Model application 11
Erkan, Nejdet; Kawakami, Toshihiro; Madokoro, Hiroshi; Chai, Penghui; Ishiwatari, Yuki; Okamoto, Koji; 2015. Numerical simulation of droplet deposition onto a liquid film by VOF–MPS hybrid method. Journal of Visualization, 18, 381–391. 10.1007/s12650-014-0241-2
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2015Model application 5
Jafari, Mohammad; Dabiri, Sadegh; Farhadi, Mousa; Sedighi, Kurosh; 2017. Effects of a three-lobe swirl generator on the thermal and flow fields in a heat exchanging tube: An experimental and numerical approach. Energy Conversion and Management, 148, 1358–1371. 10.1016/j.enconman.2017.06.074
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2017Model application 16
Cao, Yu; Ren, Xiao-Guang; Guo, Xiao-Wei; Wang, Miao; Wang, Qian; Xu, Xin-Hai; Yang, Xue-Jun; 2015. A New Method to Simulate Free Surface Flows for Viscoelastic Fluid. Advances in Materials Science and Engineering, 2015, 1–10. 10.1155/2015/159831
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2015Model application 9
Foroutan, Hosein; Yavuzkurt, Savas; 2012. A Model for Simulation of Turbulent Flow With High Free Stream Turbulence Implemented in OpenFOAM. . Volume .
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2012Model application 0
Foroutan, Hosein; Yavuzkurt, Savas; 2013. A Model for Simulation of Turbulent Flow With High Free Stream Turbulence Implemented in OpenFOAM®. Journal of Turbomachinery, 135, 031022. 10.1115/1.4007530
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2013Model application 6
Qin, Fei; Huang, Zhi-wei; He, Guo-qiang; Wang, Shuai; Wei, Xiang-geng; Liu, Bing; 2017. Flame stabilization mechanism study in a hydrogen-fueled model supersonic combustor under different air inflow conditions. International Journal of Hydrogen Energy, 42, 21360–21370. 10.1016/j.ijhydene.2017.06.237
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2017Model application 17
Holmes, Lori; Favero, Jovani; Osswald, Tim; 2012. Numerical simulation of three-dimensional viscoelastic planar contraction flow using the software OpenFOAM. Computers & Chemical Engineering, 37, 64–73. 10.1016/j.compchemeng.2011.09.015
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2012Model application 13
Zhou, Guangzhao; Prosperetti, Andrea; 2019. Violent expansion of a rising Taylor bubble. Physical Review Fluids, 4, 073903. 10.1103/PhysRevFluids.4.073903
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2019Model application 4
Rahimi, H; Medjroubi, W; Stoevesandt, B; Peinke, J; 2014. 2D Numerical Investigation of the Laminar and Turbulent Flow Over Different Airfoils Using OpenFOAM. Journal of Physics: Conference Series, 555, 012070. 10.1088/1742-6596/555/1/012070
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2014Model application 10
Asad, Amjad; Kratzsch, Christoph; Dudczig, Steffen; Aneziris, Christos G.; Schwarze, Rüdiger; 2016. Numerical study of particle filtration in an induction crucible furnace. International Journal of Heat and Fluid Flow, 62, 299–312. 10.1016/j.ijheatfluidflow.2016.10.002
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2016Model application 12
Villa, Diego; Viviani, Michele; Gaggero, Stefano; Vantorre, Marc; Eloot, Katrien; Delefortrie, Guillaume; 2019. CFD-based analyses for a slow speed manoeuvrability model. Journal of Marine Science and Technology, 24, 871–883. 10.1007/s00773-018-0593-8
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2019Model application 12
Samkhaniani, N.; Ansari, M. R.; 2017. Numerical simulation of superheated vapor bubble rising in stagnant liquid. Heat and Mass Transfer, 53, 2885–2899. 10.1007/s00231-017-2031-6
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2017Model application 15
Cui, Y.; Schmalfuß, S.; Zellnitz, S.; Sommerfeld, M.; Urbanetz, N.; 2014. Towards the optimisation and adaptation of dry powder inhalers. International Journal of Pharmaceutics, 470, 120–132. 10.1016/j.ijpharm.2014.04.065
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2014Model application 26
Devolder, B; Rauwoens, P; Troch, P; 2016. Numerical simulation of a single Floating Point Absorber Wave Energy Converter using OpenFOAM®. . Volume .
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2016Model application 5
Wang, Jianhua; Wan, Decheng; 2018. CFD Investigations of Ship Maneuvering in Waves Using naoe-FOAM-SJTU Solver. Journal of Marine Science and Application, 17, 443–458. 10.1007/s11804-018-0042-4
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2018Model application 12
Magnini, M.; Beisel, A.M.; Ferrari, A.; Thome, J.R.; 2017. Pore-scale analysis of the minimum liquid film thickness around elongated bubbles in confined gas-liquid flows. Advances in Water Resources, 109, 84–93. 10.1016/j.advwatres.2017.08.020
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2017Model application 9
Hidalgo, V H; Luo, X W; Escaler, X; Ji, J; Aguinaga, A; 2014. Numerical investigation of unsteady cavitation around a NACA 66 hydrofoil using OpenFOAM. IOP Conference Series: Earth and Environmental Science, 22, 052013. 10.1088/1755-1315/22/5/052013
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2014Model application 9
Jose, Jithin; Choi, Sung-Jin; Giljarhus, Knut Erik Teigen; Gudmestad, Ove Tobias; 2017. A comparison of numerical simulations of breaking wave forces on a monopile structure using two different numerical models based on finite difference and finite volume methods. Ocean Engineering, 137, 78–88. 10.1016/j.oceaneng.2017.03.045
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2017Model application 20
Ray, M.; Chowdhury, F.; Sowinski, A.; Mehrani, P.; Passalacqua, A.; 2019. An Euler-Euler model for mono-dispersed gas-particle flows incorporating electrostatic charging due to particle-wall and particle-particle collisions. Chemical Engineering Science, 197, 327–344. 10.1016/j.ces.2018.12.028
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2019Model application 19
Wang, Enhao; Ramesh, Kiran; Killen, Shaun; Viola, Ignazio Maria; 2018. On the nonlinear dynamics of self-sustained limit-cycle oscillations in a flapping-foil energy harvester. Journal of Fluids and Structures, 83, 339–357. 10.1016/j.jfluidstructs.2018.09.005
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2018Model application 8
Yuan, Cong; Song, Jinchun; Liu, Minghe; 2019. Investigation of flow dynamics and governing mechanism of choked flow for cavitating jet in a poppet valve. International Journal of Heat and Mass Transfer, 129, 113–131. 10.1016/j.ijheatmasstransfer.2018.09.065
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2019Model application 11
Shams, Afaque; Edh, Nicolas; Angele, Kristian; Veber, Pascal; Howard, Richard; Braillard, Olivier; Chapuliot, Stephane; Severac, Eric; Karabaki, Ertugrul; Seichter, Johannes; Niceno, Bojan; 2018. Synthesis of a CFD benchmarking exercise for a T-junction with wall. Nuclear Engineering and Design, 330, 199–216. 10.1016/j.nucengdes.2018.01.049
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2018Model application 7
Wardle, Kent E.; 2011. Open-Source CFD Simulations of Liquid–Liquid Flow in the Annular Centrifugal Contactor. Separation Science and Technology, 46, 2409–2417. 10.1080/01496395.2011.600748
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2011Model application 23
Gao, Junliang; Zang, Jun; Chen, Lifen; Chen, Qiang; Ding, Haoyu; Liu, Yingyi; 2019. On hydrodynamic characteristics of gap resonance between two fixed bodies in close proximity. Ocean Engineering, 173, 28–44. 10.1016/j.oceaneng.2018.12.052
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2019Model application 16
Aakti, B; Amstutz, O; Casartelli, E; Romanelli, G; Mangani, L; 2015. On the performance of a high head Francis turbine at design and off-design conditions. Journal of Physics: Conference Series, 579, 012010. 10.1088/1742-6596/579/1/012010
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2015Model application 10
Yan, Shiqiang; Li, Qian; Wang, Jinghua; Ma, Qingwei; Xie, Zhihua; Stoesser, Thorsten; 2019. Comparative Numerical Study on Focusing Wave Interaction with FPSO-like Structure. International Journal of Offshore and Polar Engineering, 29, 149–157. 10.17736/ijope.2019.jc754
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2019Model application 5
Dittmar, Ina; Ehrhard, Peter; 2011. Numerical study of liquid/liquid slug flow in a capillary microreactor. PAMM, 11, 617–618. 10.1002/pamm.201110298
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2011Model application 9
Aziz, Rimsha; Joekar-Niasar, Vahid; Martinez-Ferrer, Pedro; 2018. Pore-scale insights into transport and mixing in steady-state two-phase flow in porous media. International Journal of Multiphase Flow, 109, 51–62. 10.1016/j.ijmultiphaseflow.2018.07.006
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2018Model application 21
Meng, Qicheng; Zhang, Chongwei; 2016. A third-order KdV solution for internal solitary waves and its application in the numerical wave tank. Journal of Ocean Engineering and Science, 1, 93–108. 10.1016/j.joes.2016.03.002
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2016Model application 4
Frasheri, Neki; Atanassov, Emanouil; 2018. An Analysis for Parallel Wind Simulation Speedup using OpenFOAM. Scalable Computing: Practice and Experience, 19, 97–105. 10.12694/scpe.v19i2.1342
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2018Model application 2
Epikhin, Andrey; Evdokimov, Ilya; Kraposhin, Matvey; Kalugin, Michael; Strijhak, Sergei; 2015. Development of a Dynamic Library for Computational Aeroacoustics Applications Using the OpenFOAM Open Source Package. Procedia Computer Science, 66, 150–157. 10.1016/j.procs.2015.11.018
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2015Model application 15
Kwiatkowski, K; Zuk, P J; Dudyński, M; Bajer, K; 2014. Pyrolysis and gasification of single biomass particle – new openFoam solver. Journal of Physics: Conference Series, 530, 012015. 10.1088/1742-6596/530/1/012015
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2014Model application 9
Weihing, P.; Younis, B.A.; Weigand, B.; 2014. Heat transfer enhancement in a ribbed channel: Development of turbulence closures. International Journal of Heat and Mass Transfer, 76, 509–522. 10.1016/j.ijheatmasstransfer.2014.04.052
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2014Model application 8
Steyn, Douw G.; Builtjes, Peter J.H.; Timmermans, Renske M.A.; Sidilkover, David; Shitrit, Shlomi; Reisin, Tamir; Pistinner, Shlomi; 2014. A Methodology for Modeling Environmental Effects of Pollutants Dispersion Generated by Explosions. In: (eds.)Air Pollution Modeling and its Application XXII.. 745–749.
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2014Model application 2
Ge, Wenjun; Modest, Michael F.; Marquez, Ricardo; 2015. Two-dimensional axisymmetric formulation of high order spherical harmonics methods for radiative heat transfer. Journal of Quantitative Spectroscopy and Radiative Transfer, 156, 58–66. 10.1016/j.jqsrt.2015.01.013
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2015Model application 12
Schenke, Sören; van Terwisga, Tom J.C.; 2019. An energy conservative method to predict the erosive aggressiveness of collapsing cavitating structures and cavitating flows from numerical simulations. International Journal of Multiphase Flow, 111, 200–218. 10.1016/j.ijmultiphaseflow.2018.11.016
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2019Model application 15
Selma, B.; Bannari, R.; Proulx, P.; 2010. A full integration of a dispersion and interface closures in the standard k–ε model of turbulence. Chemical Engineering Science, 65, 5417–5428. 10.1016/j.ces.2010.06.020
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2010Model application 27
D’Alessandro, Valerio; Binci, Lorenzo; Montelpare, Sergio; Ricci, Renato; 2018. On the development of OpenFOAM solvers based on explicit and implicit high-order Runge–Kutta schemes for incompressible flows with heat transfer. Computer Physics Communications, 222, 14–30. 10.1016/j.cpc.2017.09.009
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2018Model application 15
Dasgupta, Adhiraj; Gonzalez-Juez, Esteban; Haworth, Daniel C.; 2019. Flame simulations with an open-source code. Computer Physics Communications, 237, 219–229. 10.1016/j.cpc.2018.11.011
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2019Model application 9
Municchi, Federico; Icardi, Matteo; 2020. Macroscopic models for filtration and heterogeneous reactions in porous media. Advances in Water Resources, 141, 103605. 10.1016/j.advwatres.2020.103605
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2020Model application 6
Zeng, Qingyun; Cai, Jiejin; 2014. Three-dimension simulation of bubble behavior under nonlinear oscillation. Annals of Nuclear Energy, 63, 680–690. 10.1016/j.anucene.2013.09.020
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2014Model application 21
Wu, Wei-Tao; Aubry, Nadine; Massoudi, Mehrdad; 2014. On the coefficients of the interaction forces in a two-phase flow of a fluid infused with particles. International Journal of Non-Linear Mechanics, 59, 76–82. 10.1016/j.ijnonlinmec.2013.11.006
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2014Model application 18
Hettel, Matthias; Daymo, Eric; Deutschmann, Olaf; 2018. 3D modeling of a CPOX-reformer including detailed chemistry and radiation effects with DUO. Computers & Chemical Engineering, 109, 166–178. 10.1016/j.compchemeng.2017.11.005
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2018Model application 12
Lysenko, Dmitry A.; Ertesvåg, Ivar S.; Rian, Kjell Erik; 2014. Numerical Simulation of Non-premixed Turbulent Combustion Using the Eddy Dissipation Concept and Comparing with the Steady Laminar Flamelet Model. Flow, Turbulence and Combustion, 93, 577–605. 10.1007/s10494-014-9551-7
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2014Model application 17
Riahi, H.; Meldi, M.; Favier, J.; Serre, E.; Goncalves, E.; 2018. A pressure-corrected Immersed Boundary Method for the numerical simulation of compressible flows. Journal of Computational Physics, 374, 361–383. 10.1016/j.jcp.2018.07.033
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2018Model application 19
Samiee, Ahmad; Djavareshkian, Mohammad Hassan; Forouzi, Behzad Feshalami; Esmaeilifar, Esmaeil; 2018. Improvement of Airfoils Aerodynamic Efficiency by Thermal Camber Phenomenon at Low Reynolds Number. Journal of Aerospace Technology and Management, 10, . 10.5028/jatm.v10.954
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2018Model application 7
Duanmu, Yu; Zou, Lu; Wan, De-cheng; 2017. Numerical simulations of vortex-induced vibrations of a flexible riser with different aspect ratiosin uniform and shear currents. Journal of Hydrodynamics, 29, 1010–1022. 10.1016/S1001-6058(16)60815-6
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2017Model application 12
Ferreira, C.; Gonzalez, A.; Baldacchino, D.; Aparicio, M.; Gómez, S.; Munduate, X.; Garcia, N.R.; Sørensen, J.N.; Jost, E.; Knecht, S.; Lutz, T.; Chassapogiannis, P.; Diakakis, K.; Papadakis, G.; Voutsinas, S.; Prospathopoulos, J.; Gillebaart, T.; van Zuijlen, A.; 2016. Results of the AVATAR project for the validation of 2D aerodynamic models with experimental data of the DU95W180 airfoil with unsteady flap. Journal of Physics: Conference Series, 753, 022006. 10.1088/1742-6596/753/2/022006
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2016Model application 5
Pasler, Volker; Arbeiter, Frederik; Klein, Christine; Klimenko, Dmitry; Schlindwein, Georg; von der Weth, Axel; 2018. Development and verification of a component-level hydrogen transport model for a DEMO-like HCPB breeder unit with OpenFOAM. Fusion Engineering and Design, 127, 249–258. 10.1016/j.fusengdes.2018.01.008
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2018Model application 5
Magarotto, M.; Melazzi, D.; Pavarin, D.; 2020. 3D-VIRTUS: Equilibrium condition solver of radio-frequency magnetized plasma discharges for space applications. Computer Physics Communications, 247, 106953. 10.1016/j.cpc.2019.106953
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2020Model application 11
Jarczyk, Maria-Magdalena; Pfitzner, Michael; 2012. Large Eddy Simulation of Supercritical Nitrogen Jets. . Volume .
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2012Model application 21
Iqbal, Naveed; Rauh, Cornelia; 2016. Coupling of discrete element model (DEM) with computational fluid mechanics (CFD): A validation study. Applied Mathematics and Computation, 277, 154–163. 10.1016/j.amc.2015.12.037
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2016Model application 15
Piscaglia, Federico; Montorfano, Andrea; Onorati, Angelo; 2013. Development of Fully-Automatic Parallel Algorithms for Mesh Handling in the OpenFOAM ® -2.2.x Technology. . Volume .
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2013Model application 16
Meurisse, Jeremie B.E.; Lachaud, Jean; Panerai, Francesco; Tang, Chun; Mansour, Nagi N.; 2018. Multidimensional material response simulations of a full-scale tiled ablative heatshield. Aerospace Science and Technology, 76, 497–511. 10.1016/j.ast.2018.01.013
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2018Model application 14
Damián, Santiago Márquez; Nigro, Norberto M.; 2014. An extended mixture model for the simultaneous treatment of small-scale and large-scale interfaces: AN EXTENDED MIXTURE MODEL FOR SMALL-SCALE AND LARGE-SCALE INTERFACES. International Journal for Numerical Methods in Fluids, 75, 547–574. 10.1002/fld.3906
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2014Model application 18
Pal, Abhro; Anupindi, Kameswararao; Delorme, Yann; Ghaisas, Niranjan; Shetty, Dinesh A.; Frankel, Steven H.; 2014. Large Eddy Simulation of Transitional Flow in an Idealized Stenotic Blood Vessel: Evaluation of Subgrid Scale Models. Journal of Biomechanical Engineering, 136, 071009. 10.1115/1.4027610
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2014Model application 12
Matiz-Chicacausa, A.; Lopez, Omar D.; 2018. Full Downwind Turbine Simulations Using Actuator Line Method. Modelling and Simulation in Engineering, 2018, 1–10. 10.1155/2018/2536897
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2018Model application 7
Sakai, Eiji; Bai, Meng; Ahlfeld, Richard; Montomoli, Francesco; 2018. Uncertainty Quantification Analysis of Back Facing Steps Film Cooling Configurations. . Volume .
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2018Model application 3
Rakesh Ranga, H.R.; Korobeinichev, O.P.; Harish, A.; Raghavan, Vasudevan; Kumar, A.; Gerasimov, I.E.; Gonchikzhapov, M.B.; Tereshchenko, A.G.; Trubachev, S.A.; Shmakov, A.G.; 2018. Investigation of the structure and spread rate of flames over PMMA slabs. Applied Thermal Engineering, 130, 477–491. 10.1016/j.applthermaleng.2017.11.041
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2018Model application 13
Bourdillon, A.C.; Verdin, P.G.; Thompson, C.P.; 2015. Numerical simulations of water freezing processes in cavities and cylindrical enclosures. Applied Thermal Engineering, 75, 839–855. 10.1016/j.applthermaleng.2014.10.021
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2015Model application 15
Vukčević, Vuko; Jasak, Hrvoje; Malenica, Šime; 2016. Decomposition model for naval hydrodynamic applications, Part II: Verification and validation. Ocean Engineering, 121, 76–88. 10.1016/j.oceaneng.2016.05.021
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2016Model application 15
Novaresio, Valerio; García-Camprubí, María; Izquierdo, Salvador; Asinari, Pietro; Fueyo, Norberto; 2012. An open-source library for the numerical modeling of mass-transfer in solid oxide fuel cells. Computer Physics Communications, 183, 125–146. 10.1016/j.cpc.2011.08.003
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2012Model application 27
Karvelas, E.G.; Lampropoulos, N.K.; Sarris, I.E.; 2017. A numerical model for aggregations formation and magnetic driving of spherical particles based on OpenFOAM®. Computer Methods and Programs in Biomedicine, 142, 21–30. 10.1016/j.cmpb.2017.02.017
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2017Model application 20
Kočí, Petr; Isoz, Martin; Plachá, Marie; Arvajová, Adéla; Václavík, Marek; Svoboda, Miloš; Price, Emily; Novák, Vladimír; Thompsett, David; 2019. 3D reconstruction and pore-scale modeling of coated catalytic filters for automotive exhaust gas aftertreatment. Catalysis Today, 320, 165–174. 10.1016/j.cattod.2017.12.025
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2019Model application 25
Karpov, Alexander I.; Korobeinichev, Oleg P.; Shaklein, Artem A.; Bolkisev, Andrey A.; Kumar, Amit; Shmakov, Andrey G.; 2018. Numerical study of horizontal flame spread over PMMA surface in still air. Applied Thermal Engineering, 144, 937–944. 10.1016/j.applthermaleng.2018.08.106
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2018Model application 8
Schramm, Matthias; Stoevesandt, Bernhard; Peinke, Joachim; 2016. Simulation and Optimization of an Airfoil with Leading Edge Slat. Journal of Physics: Conference Series, 753, 022052. 10.1088/1742-6596/753/2/022052
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2016Model application 12
Javadi, Ardalan; Nilsson, Håkan; 2014. A comparative study of scale-adaptive and large-eddy simulations of highly swirling turbulent flow through an abrupt expansion. IOP Conference Series: Earth and Environmental Science, 22, 022017. 10.1088/1755-1315/22/2/022017
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2014Model application 12
Jamshidi, F.; Heimel, H.; Hasert, M.; Cai, X.; Deutschmann, O.; Marschall, H.; Wörner, M.; 2019. On suitability of phase-field and algebraic volume-of-fluid OpenFOAM® solvers for gas–liquid microfluidic applications. Computer Physics Communications, 236, 72–85. 10.1016/j.cpc.2018.10.015
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2019Model application 18
Rajkumar, A.; Ferrás, L. L.; Fernandes, C.; Carneiro, O. S.; Becker, M.; Nóbrega, J. M.; 2017. Design Guidelines to Balance the Flow Distribution in Complex Profile Extrusion Dies. International Polymer Processing, 32, 58–71. 10.3139/217.3272
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2017Model application 7
Kim, Yeulwoo; Zhou, Zheyu; Hsu, Tian-Jian; Puleo, Jack A.; 2017. Large eddy simulation of dam-break-driven swash on a rough-planar beach: LES OF DAM-BREAK-DRIVEN SWASH. Journal of Geophysical Research: Oceans, 122, 1274–1296. 10.1002/2016JC012366
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2017Model application 7
Singh, Ranjit J; Gohil, Trushar B; 2019. The numerical analysis on the development of Lorentz force and its directional effect on the suppression of buoyancy-driven flow and heat transfer using OpenFOAM. Computers & Fluids, 179, 476–489. 10.1016/j.compfluid.2018.11.017
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2019Model application 12
Tsang, Chi-Wei; Rutland, Christopher J.; 2015. Effects of Fuel Physical Properties and Breakup Model Constants on Large-Eddy Simulation of Diesel Sprays. . Volume .
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2015Model application 2
Swanson, Liam; Owen, Benjamin; Keshmiri, Amir; Deyranlou, Amin; Aldersley, Thomas; Lawrenson, John; Human, Paul; De Decker, Rik; Fourie, Barend; Comitis, George; Engel, Mark E.; Keavney, Bernard; Zühlke, Liesl; Ngoepe, Malebogo; Revell, Alistair; 2020. A Patient-Specific CFD Pipeline Using Doppler Echocardiography for Application in Coarctation of the Aorta in a Limited Resource Clinical Context. Frontiers in Bioengineering and Biotechnology, 8, 409. 10.3389/fbioe.2020.00409
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2020Model application 10
García-Camprubí, M.; Jasak, H.; Fueyo, N.; 2011. CFD analysis of cooling effects in H2-fed solid oxide fuel cells. Journal of Power Sources, 196, 7290–7301. 10.1016/j.jpowsour.2011.04.037
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2011Model application 15
Aufiero, Manuele; 2014. DEVELOPMENT OF ADVANCED SIMULATION TOOLS FOR CIRCULATING-FUEL NUCLEAR REACTORS. , , . 10.13140/2.1.4455.1044
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2014Model application 7
Geiser, Jürgen; Güttel, Stefan; 2012. Coupling methods for heat transfer and heat flow: Operator splitting and the parareal algorithm. Journal of Mathematical Analysis and Applications, 388, 873–887. 10.1016/j.jmaa.2011.10.030
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2012Model application 4
Behrens, Paul; O’Sullivan, J.; Archer, R.; Bradley, S.; 2012. Underestimation of Monostatic Sodar Measurements in Complex Terrain. Boundary-Layer Meteorology, 143, 97–106. 10.1007/s10546-011-9665-6
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2012Model application 6
Dai, Shaoshi; Younis, Bassam A.; Sun, Liping; 2015. OpenFOAM predictions of hydrodynamics loads on full-scale TLP. Ocean Engineering, 102, 162–173. 10.1016/j.oceaneng.2015.04.042
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2015Model application 8
Kalvig, Siri; Manger, Eirik; Hjertager, Bjørn; 2014. Comparing different CFD wind turbine modelling approaches with wind tunnel measurements. Journal of Physics: Conference Series, 555, 012056. 10.1088/1742-6596/555/1/012056
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2014Model application 18
Wang, Yushi; Politano, Marcela; Weber, Larry; 2019. Spillway jet regime and total dissolved gas prediction with a multiphase flow model. Journal of Hydraulic Research, 57, 26–38. 10.1080/00221686.2018.1428231
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2019Model application 10
Anupindi, Kameswararao; Sandberg, Richard D.; 2017. Implementation and Evaluation of an Embedded LES-RANS Solver. Flow, Turbulence and Combustion, 98, 697–724. 10.1007/s10494-016-9787-5
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2017Model application 6
Ku, Xiaoke; Li, Tian; Løvås, Terese; 2015. Effects of Particle Shrinkage and Devolatilization Models on High-Temperature Biomass Pyrolysis and Gasification. Energy & Fuels, 29, 5127–5135. 10.1021/acs.energyfuels.5b00953
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2015Model application 20
Li, Rui; He, Guoqiang; Qin, Fei; Pichler, Christoffer; Konnov, Alexander A.; 2019. Comparative analysis of detailed and reduced kinetic models for CH4 + H2 combustion. Fuel, 246, 244–258. 10.1016/j.fuel.2019.02.132
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2019Model application 9
Casari, Nicola; Suman, Alessio; Ziviani, Davide; van den Broek, Martijn; De Paepe, Michel; Pinelli, Michele; 2017. Computational Models for the Analysis of positive displacement machines: Real Gas and Dynamic Mesh. Energy Procedia, 129, 411–418. 10.1016/j.egypro.2017.09.124
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2017Model application 8
Ottino, G. M.; Fancello, A.; Falcone, M.; Bastiaans, R. J. M.; de Goey, L. P. H.; 2016. Combustion Modeling Including Heat Loss Using Flamelet Generated Manifolds: A Validation Study in OpenFOAM. Flow, Turbulence and Combustion, 96, 773–800. 10.1007/s10494-015-9666-5
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2016Model application 12
Abu-Farah, Laila; Goudoulas, Thomas B.; Hooshyar, Soroush; Germann, Natalie; 2019. Numerical and experimental investigation of dough kneading in a three-dimensional spiral kneader. Physics of Fluids, 31, 113104. 10.1063/1.5122261
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2019Model application 2
Limane, Abdelhakim; Fellouah, Hachimi; Galanis, Nicolas; 2017. Simulation of airflow with heat and mass transfer in an indoor swimming pool by OpenFOAM. International Journal of Heat and Mass Transfer, 109, 862–878. 10.1016/j.ijheatmasstransfer.2017.02.030
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2017Model application 11
Wu, Bifen; Zhao, Xinyu; Chowdhury, Bikram Roy; Cetegen, Baki M.; Xu, Chao; Lu, Tianfeng; 2019. A numerical investigation of the flame structure and blowoff characteristics of a bluff-body stabilized turbulent premixed flame. Combustion and Flame, 202, 376–393. 10.1016/j.combustflame.2019.01.026
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2019Model application 11
Borm, Oliver; Kau, Hans-Peter; 2012. Unsteady Aerodynamics of a Centrifugal Compressor Stage: Validation of Two Different CFD Solvers. . Volume .
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2012Model application 15
Zagumennyi, Ia V; Dimitrieva, N F; 2016. Diffusion induced flow on a wedge-shaped obstacle. Physica Scripta, 91, 084002. 10.1088/0031-8949/91/8/084002
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2016Model application 7
Yao, Hao; Austin, The University Of Texas At; Kinnas, Spyros A.; 2019. Coupling Viscous Vorticity Equation (VISVE) method with OpenFOAM to predict turbulent flow around 2-D hydrofoils and cylinders. , , . 10.26153/TSW/3182
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2019Model application 4
Parra-Santos, Teresa; Pérez-Domínguez, J.R.; Szasz, R.Z.; Castro-Ruiz, F.; 2015. An isothermal analysis of curved-vane and flat-vane swirlers for burners. Engineering Computations, 32, 668–686. 10.1108/EC-06-2013-0149
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2015Model application 3
Liu, Qiong; Gómez, F.; Pérez, J.M.; Theofilis, V.; 2016. Instability and sensitivity analysis of flows using OpenFOAM®. Chinese Journal of Aeronautics, 29, 316–325. 10.1016/j.cja.2016.02.012
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2016Model application 17
Kratzsch, Christoph; Timmel, Klaus; Eckert, Sven; Schwarze, Rüdiger; 2015. URANS Simulation of Continuous Casting Mold Flow: Assessment of Revised Turbulence Models. steel research international, 86, 400–410. 10.1002/srin.201400097
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2015Model application 9
McNamara, Declan; Alveen, Patricia; Carolan, Declan; Murphy, Neal; Ivanković, Aloz; 2014. Micromechanical Study of Strength and Toughness of Advanced Ceramics. Procedia Materials Science, 3, 1810–1815. 10.1016/j.mspro.2014.06.292
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2014Model application 8
Mangani, L.; Buchmayr, M.; Darwish, M.; 2014. Development of a Novel Fully Coupled Solver in OpenFOAM: Steady-State Incompressible Turbulent Flows in Rotational Reference Frames. Numerical Heat Transfer, Part B: Fundamentals, 66, 526–543. 10.1080/10407790.2014.894372
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2014Model application 10
Romańczyk, Mathias; Borys, M.; Czyż, Z.; Falkowicz, K.; Kujawska, J.; Kulisz, M.; Szala, M.; 2017. Influence of gas inlet angle on the mixing process in a Venturi mixer. ITM Web of Conferences, 15, 07005. 10.1051/itmconf/20171507005
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2017Model application 4
Karvatskii, A.Ya.; Pulinets, I.V.; Lazarev, Т.В.; Pedchenko, A.Yu.; 2015. Numerical modelling of supersonic flow around a wedge with the use of free open software code OpenFOAM. Kosmìčna nauka ì tehnologìâ, 21, 47–52. 10.15407/knit2015.02.047
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2015Model application 5
García-Camprubí, M.; Sánchez-Insa, A.; Fueyo, N.; 2010. Multimodal mass transfer in solid-oxide fuel-cells. Chemical Engineering Science, 65, 1668–1677. 10.1016/j.ces.2009.11.006
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2010Model application 24
Zeng, Qingyun; Gonzalez-Avila, Silvestre Roberto; Voorde, Sophie Ten; Ohl, Claus-Dieter; 2018. Jetting of viscous droplets from cavitation-induced Rayleigh–Taylor instability. Journal of Fluid Mechanics, 846, 916–943. 10.1017/jfm.2018.284
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2018Model application 13
Dianat, Mehriar; Skarysz, Maciej; Hodgson, Graham; Garmory, Andrew; Passmore, Martin; 2017. Coupled Level-Set Volume of Fluid Simulations of Water Flowing Over a Simplified Drainage Channel With and Without Air Coflow. SAE International Journal of Passenger Cars - Mechanical Systems, 10, 369–377. 10.4271/2017-01-1552
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2017Model application 5
Ivanovich, Chitalov Dmitri; Timofeyevich, Kalashnikov Sergey; 2018. Development of User Interface for OpenFOAM Software Environment Used in Design and Technological Subdivisions of Machine-Building Enterprises. . Volume .
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2018Model application 3
Shang, Zhi; Emerson, David R.; Gu, Xiaojun; 2012. NUMERICAL INVESTIGATIONS OF CAVITATION AROUND A HIGH SPEED SUBMARINE USING OPENFOAM WITH LES. International Journal of Computational Methods, 9, 1250040. 10.1142/S0219876212500405
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2012Model application 13
Gjesing, Rasmus; Hattel, Jesper; Fritsching, Udo; 2009. Coupled Atomization and Spray Modelling in the Spray Forming Process using Open Foam. Engineering Applications of Computational Fluid Mechanics, 3, 471–486. 10.1080/19942060.2009.11015284
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2009Model application 21
Abdelmoula, Amine; Younis, Bassam A.; Spring, Sebastian; Weigand, Bernhard; 2018. Large-Eddy Simulations of heated flows in ribbed channels with spanwise rotation. Numerical Heat Transfer, Part A: Applications, 74, 895–916. 10.1080/10407782.2018.1513282
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2018Model application 2
Ansoni, Jonas Laerte; Seleghim, Paulo; 2016. Optimal industrial reactor design: development of a multiobjective optimization method based on a posteriori performance parameters calculated from CFD flow solutions. Advances in Engineering Software, 91, 23–35. 10.1016/j.advengsoft.2015.08.008
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2016Model application 9
Dbouk, T.; Lemaire, E.; Lobry, L.; Moukalled, F.; 2013. Shear-induced particle migration: Predictions from experimental evaluation of the particle stress tensor. Journal of Non-Newtonian Fluid Mechanics, 198, 78–95. 10.1016/j.jnnfm.2013.03.006
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2013Model application 31
David, Štefan; Pavel, Zubík; Martin, Hudec; Pavel, Rudolf; Dančová, Petra; Vít, Tomáš; 2015. Numerical and experimental investigation of swirling flow in a conical diffuser. EPJ Web of Conferences, 92, 02085. 10.1051/epjconf/20159202085
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2015Model application 5
Jareteg, Klas; Vinai, Paolo; Demazière, Christophe; 2014. Fine-mesh deterministic modeling of PWR fuel assemblies: Proof-of-principle of coupled neutronic/thermal–hydraulic calculations. Annals of Nuclear Energy, 68, 247–256. 10.1016/j.anucene.2013.12.019
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2014Model application 10
Buffo, Antonio; De Bona, Jeremias; Vanni, Marco; Marchisio, Daniele L.; 2016. Simplified volume-averaged models for liquid–liquid dispersions: Correct derivation and comparison with other approaches. Chemical Engineering Science, 153, 382–393. 10.1016/j.ces.2016.07.032
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2016Model application 18
Wittemann, Florian; Maertens, Robert; Bernath, Alexander; Hohberg, Martin; Kärger, Luise; Henning, Frank; 2018. Simulation of Reinforced Reactive Injection Molding with the Finite Volume Method. Journal of Composites Science, 2, 5. 10.3390/jcs2010005
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2018Model application 7
Asnaghi, A.; Feymark, A.; Bensow, R.E.; 2018. Numerical investigation of the impact of computational resolution on shedding cavity structures. International Journal of Multiphase Flow, 107, 33–50. 10.1016/j.ijmultiphaseflow.2018.05.021
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2018Model application 22
Liu, Yuanchuan; Wan, Decheng; 2013. Numerical simulation of motion response of an offshore observation platform in waves. Journal of Marine Science and Application, 12, 89–97. 10.1007/s11804-013-1171-z
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2013Model application 8
Gentile, Giancarlo; Debiagi, Paulo Eduardo Amaral; Cuoci, Alberto; 2017. A computational framework for the pyrolysis of anisotropic biomass particles. Chemical Engineering Journal, 321, 458–473. 10.1016/j.cej.2017.03.113
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2017Model application 31
Cubero, Ana; Sánchez-Insa, Alberto; Fueyo, Norberto; 2020. The effect of particle polydispersion in a gasifier bed dynamics using Eulerian-Eulerian models. Fuel Processing Technology, 198, 106216. 10.1016/j.fuproc.2019.106216
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2020Model application 2
Prokein, Daniel; von Wolfersdorf, Jens; 2019. Numerical simulation of turbulent boundary layers with foreign gas transpiration using OpenFOAM. Acta Astronautica, 158, 253–263. 10.1016/j.actaastro.2019.03.030
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2019Model application 6
Stephanopoulos, Kimon; Witte, Isaac; Wray, Tim; Agarwal, Ramesh K.; 2016. Uncertainty Quantification of Turbulence Model Coefficients in OpenFOAM and Fluent for Mildly Separated Flows. . Volume .
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2016Model application 2
Salehi, F.; Cleary, M.J.; Masri, A.R.; Kronenburg, A.; 2019. PDF-PBE modelling of polydisperse inertial particles in a turbulent recirculating flow. International Journal of Multiphase Flow, 117, 42–52. 10.1016/j.ijmultiphaseflow.2019.04.028
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2019Model application 5
Aziz, Rimsha; Niasar, Vahid; Erfani, Hamidreza; Martínez-Ferrer, Pedro J.; 2020. Impact of pore morphology on two-phase flow dynamics under wettability alteration. Fuel, 268, 117315. 10.1016/j.fuel.2020.117315
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2020Model application 12
Favero, Jovani L.; Cardozo, Nilo S.M.; Secchi, Argimiro R.; Jasak, Hrvoje; 2010. Simulation of Free Surface Viscoelastic Fluid Flow Using the viscoelasticInterFoam Solver. In: (eds.)Computer Aided Chemical Engineering.. 31–36.
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2010Model application 9
Cao, Hongjian; Wan, Decheng; 2017. Benchmark computations of wave run-up on single cylinder and four cylinders by naoe-FOAM-SJTU solver. Applied Ocean Research, 65, 327–337. 10.1016/j.apor.2016.10.011
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2017Model application 17
Mahiques, E.I.; Dederichs, S.; Beck, C.; Kaufmann, P.; Kok, J.B.W.; 2017. Coupling multicomponent droplet evaporation and tabulated chemistry combustion models for large-eddy simulations. International Journal of Heat and Mass Transfer, 104, 51–70. 10.1016/j.ijheatmasstransfer.2016.07.099
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2017Model application 8
Gebreslassie, Mulualem G.; Tabor, Gavin R.; Belmont, Michael R.; 2012. CFD Simulations for Sensitivity Analysis of Different Parameters to the Wake Characteristics of Tidal Turbine. Open Journal of Fluid Dynamics, 2, 56–64. 10.4236/ojfd.2012.23006
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2012Model application 13
Patel, G.; Tanskanen, V.; Hujala, E.; Hyvärinen, J.; 2017. Direct contact condensation modeling in pressure suppression pool system. Nuclear Engineering and Design, 321, 328–342. 10.1016/j.nucengdes.2016.08.026
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2017Model application 13
Rahbarimanesh, Saeed; Brinkerhoff, Joshua; Huang, Jim; 2018. Development and validation of a homogeneous flow model for simulating cavitation in cryogenic fluids. Applied Mathematical Modelling, 56, 584–611. 10.1016/j.apm.2017.12.004
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2018Model application 4
Fernandes, C.; Araujo, M.S.B.; Ferrás, L.L.; Miguel Nóbrega, J.; 2017. Improved both sides diffusion (iBSD): A new and straightforward stabilization approach for viscoelastic fluid flows. Journal of Non-Newtonian Fluid Mechanics, 249, 63–78. 10.1016/j.jnnfm.2017.09.008
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2017Model application 19
Hughes, Christopher R.; Schubring, DuWayne; Jordan, Kelly A.; Rätz, Dominik; 2013. Coupled Computational Heat Transfer and Reactor Physics for SCWR. . Volume .
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2013Model application 2
Bakica, Andro; Gatin, Inno; Vukčević, Vuko; Jasak, Hrvoje; Vladimir, Nikola; 2019. Accurate assessment of ship-propulsion characteristics using CFD. Ocean Engineering, 175, 149–162. 10.1016/j.oceaneng.2018.12.043
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2019Model application 14
, ; 2018. Numerical and Physical Investigation of the Performance of Turbulence Modeling Schemes around a Scour Hole Downstream of a Fixed Bed Protection. Water, 10, 103. 10.3390/w10020103
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2018Model application 9
Haider, Jibran; Lee, Chun Hean; Gil, Antonio J.; Bonet, Javier; 2017. A first-order hyperbolic framework for large strain computational solid dynamics: An upwind cell centred Total Lagrangian scheme: A CELL CENTRED FINITE VOLUME METHOD FOR LARGE STRAIN SOLID DYNAMICS. International Journal for Numerical Methods in Engineering, 109, 407–456. 10.1002/nme.5293
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2017Model application 25
Sarghini, Fabrizio; Romano, Annalisa; Masi, Paolo; 2016. Experimental analysis and numerical simulation of pasta dough extrusion process. Journal of Food Engineering, 176, 56–70. 10.1016/j.jfoodeng.2015.09.029
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2016Model application 12
Murali, Madhu K; Hipsey, Matthew R; Ghadouani, Anas; Yuan, Zhiguo; 2020. SewerSedFoam: A Model for Free Surface Flow, Sediment Transport, and Deposited Bed Morphology in Sewers. Water, 12, 270. 10.3390/w12010270
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2020Model application 2
Stergiannis, N; Lacor, C; Beeck, J V; Donnelly, R; 2016. CFD modelling approaches against single wind turbine wake measurements using RANS. Journal of Physics: Conference Series, 753, 032062. 10.1088/1742-6596/753/3/032062
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2016Model application 12
Vendra, C. Madhav Rao; Wen, Jennifer X.; 2019. Numerical modelling of vented lean hydrogen deflagations in an ISO container. International Journal of Hydrogen Energy, 44, 8767–8779. 10.1016/j.ijhydene.2018.11.093
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2019Model application 9
Minocha, Nitin; Joshi, Jyeshtharaj B.; Nayak, Arun K.; Vijayan, Pallippattu K.; 2016. 3D CFD simulations to study the effect of inclination of condenser tube on natural convection and thermal stratification in a passive decay heat removal system. Nuclear Engineering and Design, 305, 582–603. 10.1016/j.nucengdes.2016.06.020
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2016Model application 9
Mendoza, Edgar; Chávez, Xavier; Alcérreca-Huerta, Juan Carlos; Silva, Rodolfo; 2015. Hydrodynamic behavior of a new wave energy convertor: The Blow-Jet. Ocean Engineering, 106, 252–260. 10.1016/j.oceaneng.2015.06.036
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2015Model application 10
Darwish, M.; Mangani, L.; Moukalled, F.; 2018. Implicit boundary conditions for coupled solvers. Computers & Fluids, 168, 54–66. 10.1016/j.compfluid.2018.03.046
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2018Model application 8
Fureby, C.; Anderson, B.; Clarke, D.; Erm, L.; Henbest, S.; Giacobello, M.; Jones, D.; Nguyen, M.; Johansson, M.; Jones, M.; Kumar, C.; Lee, S.-K.; Manovski, P.; Norrison, D.; Petterson, K.; Seil, G.; Woodyatt, B.; Zhu, S.; 2016. Experimental and numerical study of a generic conventional submarine at 10° yaw. Ocean Engineering, 116, 1–20. 10.1016/j.oceaneng.2016.01.001
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2016Model application 18
Luo, Yang; Li, Wei; Zhou, Kan; Sheng, Kuang; Shao, Shuai; Zhang, Zhengjiang; Du, Jingcai; Minkowycz, W.J.; 2020. Three-dimensional numerical simulation of saturated annular flow boiling in a narrow rectangular microchannel. International Journal of Heat and Mass Transfer, 149, 119246. 10.1016/j.ijheatmasstransfer.2019.119246
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2020Model application 5
Almeida, Yuri P.; Lage, Paulo L.C.; Silva, Luiz Fernando L.R.; 2015. Large eddy simulation of a turbulent diffusion flame including thermal radiation heat transfer. Applied Thermal Engineering, 81, 412–425. 10.1016/j.applthermaleng.2015.02.027
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2015Model application 15
Kösters, Anne; Karlsson, Anders; 2011. A Comprehensive Numerical Study of Diesel Fuel Spray Formation with OpenFOAM. . Volume .
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2011Model application 9
Zhong, Huiying; Li, Yuanyuan; Zhang, Weidong; Yin, Hongjun; Lu, Jun; Guo, Daizong; 2018. Microflow Mechanism of Oil Displacement by Viscoelastic Hydrophobically Associating Water-Soluble Polymers in Enhanced Oil Recovery. Polymers, 10, 628. 10.3390/polym10060628
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2018Model application 19
Cordiner, Stefano; Manni, Alessandro; Mulone, Vincenzo; Rocco, Vittorio; 2018. Biomass pyrolysis modeling of systems at laboratory scale with experimental validation. International Journal of Numerical Methods for Heat & Fluid Flow, 28, 413–438. 10.1108/HFF-11-2016-0459
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2018Model application 12
Renze, Peter; Buffo, Antonio; Marchisio, Daniele L.; Vanni, Marco; 2014. Simulation of Coalescence, Breakup, and Mass Transfer in Polydisperse Multiphase Flows. Chemie Ingenieur Technik, 86, 1088–1098. 10.1002/cite.201400004
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2014Model application 19
Lörstad, Daniel; Lindholm, Annika; Barhaghi, Darioush Gohari; Bonaldo, Alessio; Fedina, Ekaterina; Fureby, Christer; Lantz, Andreas; Collin, Robert; Aldén, Marcus; 2012. Measurements and LES of a SGT-800 Burner in a Combustion Rig. . Volume .
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2012Model application 5
Rodrigues, João M. F.; Cardoso, Pedro J. S.; Monteiro, Jânio; Lam, Roberto; Krzhizhanovskaya, Valeria V.; Lees, Michael H.; Dongarra, Jack J.; Sloot, Peter M.A.; Alekseev, A. K.; Bondarev, A. E.; Kuvshinnikov, A. E.; 2019. Verification on the Ensemble of Independent Numerical Solutions. In: (eds.)Computational Science – ICCS 2019.. 315–324.
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2019Model application 11
Municchi, Federico; Nagrani, Pranay P.; Christov, Ivan C.; 2019. A two-fluid model for numerical simulation of shear-dominated suspension flows. International Journal of Multiphase Flow, 120, 103079. 10.1016/j.ijmultiphaseflow.2019.07.015
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2019Model application 9
Kadivar, Ebrahim; Moctar, Ould el; Javadi, Khodayar; 2018. Investigation of the effect of cavitation passive control on the dynamics of unsteady cloud cavitation. Applied Mathematical Modelling, 64, 333–356. 10.1016/j.apm.2018.07.015
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2018Model application 21
Johnson, Perry L.; Kapat, Jayanta S.; 2013. Large-Eddy Simulations of a Cylindrical Film Cooling Hole. Journal of Thermophysics and Heat Transfer, 27, 255–273. 10.2514/1.T3890
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2013Model application 8
Surovovs, Kirils; Muiznieks, Andris; Sabanskis, Andrejs; Virbulis, Janis; 2014. Hydrodynamical aspects of the floating zone silicon crystal growth process. Journal of Crystal Growth, 401, 120–123. 10.1016/j.jcrysgro.2013.12.066
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2014Model application 7
Rassoulinejad-Mousavi, Seyed Moein; Mao, Yijin; Zhang, Yuwen; 2018. Reducing greenhouse gas emissions in Sandia methane-air flame by using a biofuel. Renewable Energy, 128, 313–323. 10.1016/j.renene.2018.05.079
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2018Model application 9
Dai, Shaoshi; Younis, Bassam A.; Zhang, Hongyang; Guo, Chunyu; 2018. Prediction of vortex shedding suppression from circular cylinders at high Reynolds number using base splitter plates. Journal of Wind Engineering and Industrial Aerodynamics, 182, 115–127. 10.1016/j.jweia.2018.09.006
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2018Model application 1
Minisci, Edmondo; Vasile, Massimiliano; Periaux, Jacques; Gauger, Nicolas R.; Giannakoglou, Kyriakos C.; Quagliarella, Domenico; Papoutsis-Kiachagias, E. M.; Porziani, S.; Groth, C.; Biancolini, M. E.; Costa, E.; Giannakoglou, K. C.; 2019. Aerodynamic Optimization of Car Shapes Using the Continuous Adjoint Method and an RBF Morpher. In: (eds.)Advances in Evolutionary and Deterministic Methods for Design, Optimization and Control in Engineering and Sciences.. 173–187.
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2019Model application 10
Clifford, I.; Pecchia, M.; Mukin, R.; Cozzo, C.; Ferroukhi, H.; Gorzel, A.; 2019. Studies on the effects of local power peaking on heat transfer under dryout conditions in BWRs. Annals of Nuclear Energy, 130, 440–451. 10.1016/j.anucene.2019.03.017
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2019Model application 4
Uroić, Tessa; Jasak, Hrvoje; 2018. Block-selective algebraic multigrid for implicitly coupled pressure-velocity system. Computers & Fluids, 167, 100–110. 10.1016/j.compfluid.2018.02.034
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2018Model application 12
Kim, Rack-woo; Hong, Se-woon; Norton, Tomas; Amon, Thomas; Youssef, Ali; Berckmans, Daniel; Lee, In-bok; 2020. Computational fluid dynamics for non-experts: Development of a user-friendly CFD simulator (HNVR-SYS) for natural ventilation design applications. Biosystems Engineering, 193, 232–246. 10.1016/j.biosystemseng.2020.03.005
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2020Model application 4
Jarrahbashi, D.; Pidaparti, S.R.; Ranjan, D.; 2016. Nucleation of super-critical carbon dioxide in a venturi nozzle. Nuclear Engineering and Design, 310, 69–82. 10.1016/j.nucengdes.2016.09.022
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2016Model application 1
Stamataki, Ioanna; Zang, Jun; Buldakov, Eugeny; Kjeldsen, Thomas; Stagonas, Dimitris; Paquier, A.; Rivière, N.; 2018. Study of dam break flow interaction with urban settlements over a sloping channel. E3S Web of Conferences, 40, 06006. 10.1051/e3sconf/20184006006
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2018Model application 1
Hinman, W. Schuyler; Johansen, C. T.; 2016. Interaction theory of hypersonic laminar near-wake flow behind an adiabatic circular cylinder. Shock Waves, 26, 717–727. 10.1007/s00193-015-0615-y
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2016Model application 17
Clifford, Corey E.; MacDonald, Nolan E.; Prasser, Horst-Michael; Kimber, Mark L.; 2019. Robust computational framework for wire-mesh sensor potential field calculations. Flow Measurement and Instrumentation, 67, 107–117. 10.1016/j.flowmeasinst.2019.04.009
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2019Model application 5
Kim, Jeongho; Antaki, James F.; Massoudi, Mehrdad; 2016. Computational study of blood flow in microchannels. Journal of Computational and Applied Mathematics, 292, 174–187. 10.1016/j.cam.2015.06.017
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2016Model application 7
Šekutkovski, Bojan; Kostić, Ivan; Simonović, Aleksandar; Cardiff, Philip; Jazarević, Vladimir; 2016. Three-dimensional fluid–structure interaction simulation with a hybrid RANS–LES turbulence model for applications in transonic flow domain. Aerospace Science and Technology, 49, 1–16. 10.1016/j.ast.2015.11.028
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2016Model application 21
Namdar, Ali; Kianifar, Ali; Roohi, Ehsan; 2015. Numerical investigation of thermoacoustic refrigerator at weak and large amplitudes considering cooling effect. Cryogenics, 67, 36–44. 10.1016/j.cryogenics.2015.01.005
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2015Model application 10
Elsafti, H.; Oumeraci, H.; 2016. A numerical hydro-geotechnical model for marine gravity structures. Computers and Geotechnics, 79, 105–129. 10.1016/j.compgeo.2016.05.025
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2016Model application 21
Wei, Mingzhe; Zhang, Yiyang; Wu, Xinxin; Sun, Libin; 2019. A parametric study of graphite dust deposition on high-temperature gas-cooled reactor (HTGR) steam generator tube bundles. Annals of Nuclear Energy, 123, 135–144. 10.1016/j.anucene.2018.09.009
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2019Model application 7
Ghaffari, Ali; Hashemabadi, Seyed Hassan; Bazmi, Mansour; 2015. CFD simulation of equilibrium shape and coalescence of ferrofluid droplets subjected to uniform magnetic field. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 481, 186–198. 10.1016/j.colsurfa.2015.04.038
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2015Model application 24
von Boetticher, Albrecht; Turowski, Jens M.; McArdell, Brian W.; Rickenmann, Dieter; Kirchner, James W.; 2016. DebrisInterMixing-2.3: a finite volume solver for three-dimensional debris-flow simulations with two calibration parameters – Part 1: Model description. Geoscientific Model Development, 9, 2909–2923. 10.5194/gmd-9-2909-2016
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2016Model application 23
Vegendla, S. N. P.; Hasse, C.; 2013. Steady Flamelet Progress-Variable (FPV) Modeling and Simulation of a High-Pressure Gasifier. Energy & Fuels, 27, 7772–7777. 10.1021/ef4014136
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2013Model application 12
Marschall, H.; Mornhinweg, R.; Kossmann, A.; Oberhauser, S.; Langbein, K.; Hinrichsen, O.; 2011. Numerical Simulation of Dispersed Gas/Liquid Flows in Bubble Columns at High Phase Fractions using OpenFOAM®. Part II - Numerical Simulations and Results. Chemical Engineering & Technology, 34, 1321–1327. 10.1002/ceat.201100162
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2011Model application 18
Hidalgo, Victor; Luo, Xianwu; Ji, Bin; Aguinaga, Alvaro; 2014. Numerical study of unsteady cavitation on 2D NACA0015 hydrofoil using free/open source software. Chinese Science Bulletin, 59, 3276–3282. 10.1007/s11434-014-0485-1
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2014Model application 5
Park, Sunho; Rhee, Shin Hyung; 2014. NUMERICAL DIFFUSION DECREASE OF FREE-SURFACE FLOW ANALYSIS USING SOURCE TERM IN VOLUME FRACTION TRANSPORT EQUATION. Journal of computational fluids engineering, 19, 15–20. 10.6112/kscfe.2014.19.1.015
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2014Model application 3
Ye, Haixuan; Shen, Zhirong; Wan, Decheng; 2012. Numerical prediction of added resistance and vertical ship motions in regular head waves. Journal of Marine Science and Application, 11, 410–416. 10.1007/s11804-012-1150-1
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2012Model application 14
Habla, Florian; Woitalka, Alexander; Neuner, Stefanie; Hinrichsen, Olaf; 2012. Development of a methodology for numerical simulation of non-isothermal viscoelastic fluid flows with application to axisymmetric 4:1 contraction flows. Chemical Engineering Journal, 207, 772–784. 10.1016/j.cej.2012.07.060
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2012Model application 19
Farnoud, Ali; Baumann, Ingo; Rashidi, Mohammad Mehdi; Schmid, Otmar; Gutheil, Eva; 2020. Simulation of patient-specific bidirectional pulsating nasal aerosol dispersion and deposition with clockwise 45° and 90° nosepieces. Computers in Biology and Medicine, , 103816. 10.1016/j.compbiomed.2020.103816
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2020Model application 7
Wang, Y.; Politano, M.; Laughery, R.; Weber, L.; 2015. Model development in OpenFOAM to predict spillway jet regimes. Journal of Applied Water Engineering and Research, 3, 80–94. 10.1080/23249676.2015.1025442
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2015Model application 4
Municchi, Federico; Goniva, Christoph; Radl, Stefan; 2016. Highly efficient spatial data filtering in parallel using the opensource library CPPPO. Computer Physics Communications, 207, 400–414. 10.1016/j.cpc.2016.05.026
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2016Model application 12
Choquet, Isabelle; Shirvan, Alireza Javidi; Nilsson, Håkan; 2012. On the choice of electromagnetic model for short high-intensity arcs, applied to welding. Journal of Physics D: Applied Physics, 45, 205203. 10.1088/0022-3727/45/20/205203
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2012Model application 15
Ge, Wenjun; Marquez, Ricardo; Modest, Michael F.; Roy, Somesh P.; 2015. Implementation of High-Order Spherical Harmonics Methods for Radiative Heat Transfer on openfoam. Journal of Heat Transfer, 137, 052701. 10.1115/1.4029546
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2015Model application 14
Vencels, Juris; Råback, Peter; Geža, Vadims; 2019. EOF-Library: Open-source Elmer FEM and OpenFOAM coupler for electromagnetics and fluid dynamics. SoftwareX, 9, 68–72. 10.1016/j.softx.2019.01.007
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2019Model application 12
Nóbrega, J. Miguel; Jasak, Hrvoje; De Dominicis, Ilaria; Cvijetić, Gregor; Willetts, Mark; 2019. Enhanced Turbomachinery Capabilities for Foam-Extend: Development and Validation. In: (eds.)OpenFOAM®.. 145–155.
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2019Model application 0
Macián-Juan, Rafael; 2020. Numerical investigation of central breakup of large bubble induced by liquid jet. Physics of Fluids, 32, 033302. 10.1063/1.5144975
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2020Model application 7
Ducrocq, Thomas; Cassan, Ludovic; Chorda, Jacques; Roux, Hélène; 2017. Flow and drag force around a free surface piercing cylinder for environmental applications. Environmental Fluid Mechanics, 17, 629–645. 10.1007/s10652-016-9505-9
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2017Model application 14
Pivovarova, E. A.; Smirnovsky, A. A.; Schmidt, A. A.; 2013. Numerical modeling of flow in a differential chamber of the gas-dynamic interface of a portable mass-spectrometer. Technical Physics Letters, 39, 949–952. 10.1134/S1063785013110096
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2013Model application 2
Nagel, Wolfgang E.; Kröner, Dietmar H.; Resch, Michael M.; Zirwes, Thorsten; Zhang, Feichi; Denev, Jordan A.; Habisreuther, Peter; Bockhorn, Henning; 2018. Automated Code Generation for Maximizing Performance of Detailed Chemistry Calculations in OpenFOAM. In: (eds.)High Performance Computing in Science and Engineering ' 17.. 189–204.
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2018Model application 11
Rokhmanenkov, A.; 2017. Modeling of nonlinear hydrogen diffusion in titanium hydrides TiH x. International Journal of Hydrogen Energy, 42, 22610–22614. 10.1016/j.ijhydene.2017.04.085
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2017Model application 10
Saraswat, Amit; Bhattacharjee, Rajdeep; Verma, Ankit; Das, Malay K.; Khandekar, Sameer; 2017. Investigation of diffusional transport of heat and its enhancement in phase-change thermal energy storage systems. Applied Thermal Engineering, 111, 1611–1621. 10.1016/j.applthermaleng.2016.06.178
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2017Model application 13
Lietz, Christopher; Heye, Colin; Raman, Venkatramanan; Blunck, David; 2014. Flame Stability Analysis in an Ultra Compact Combustor Using Large-Eddy Simulation. . Volume .
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2014Model application 5
Pálovics, Péter; Ender, Ferenc; Rencz, Márta; 2018. Towards the CFD model of flow rate dependent enzyme-substrate reactions in nanoparticle filled flow microreactors. Microelectronics Reliability, 85, 84–92. 10.1016/j.microrel.2018.03.035
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2018Model application 2
Pang, Kar Mun; Jangi, Mehdi; Bai, Xue-Song; Schramm, Jesper; 2014. Investigation of Chemical Kinetics on Soot Formation Event of n-Heptane Spray Combustion. . Volume .
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2014Model application 13
Favero, Jovani L.; Secchi, Argimiro R.; Cardozo, Nilo Sérgio M.; Jasak, Hrvoje; 2009. Viscoelastic Flow Simulation: Development of a Methodology of Analysis Using the Software OpenFOAM and Differential Constitutive Equations. In: (eds.)Computer Aided Chemical Engineering.. 915–920.
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2009Model application 18
Petit, O; Mulu, B; Nilsson, H; Cervantes, M; 2010. Comparison of numerical and experimental results of the flow in the U9 Kaplan turbine model. IOP Conference Series: Earth and Environmental Science, 12, 012024. 10.1088/1755-1315/12/1/012024
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2010Model application 10
Jeanjean, A.P.R.; Gallagher, J.; Monks, P.S.; Leigh, R.J.; 2017. Ranking current and prospective NO 2 pollution mitigation strategies: An environmental and economic modelling investigation in Oxford Street, London. Environmental Pollution, 225, 587–597. 10.1016/j.envpol.2017.03.027
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2017Model application 20
Khodadadi Azadboni, Reza; Heidari, Ali; Boeck, Lorenz R.; Wen, Jennifer X.; 2019. The effect of concentration gradients on deflagration-to-detonation transition in a rectangular channel with and without obstructions – A numerical study. International Journal of Hydrogen Energy, 44, 7032–7040. 10.1016/j.ijhydene.2019.01.157
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2019Model application 7
Hu, Zheng Zheng; Mai, Tri; Greaves, Deborah; Raby, Alison; 2017. Investigations of offshore breaking wave impacts on a large offshore structure. Journal of Fluids and Structures, 75, 99–116. 10.1016/j.jfluidstructs.2017.08.005
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2017Model application 21
Tar, Thaw; Kato, Naomi; Suzuki, Hiroyoshi; Nagai, Yoshiki; Ohnishi, Kazuhiro; Okubayashi, Takuya; 2017. Experimental and numerical study on the reduction of tsunami flow using multiple flexible pipes. Journal of Loss Prevention in the Process Industries, 50, 364–385. 10.1016/j.jlp.2017.03.007
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2017Model application 4
Bachirou, Guene L.; Shuai, Yong; Zhang, Jiahui; Huang, Xing; Yuan, Yuan; Tan, Heping; 2016. Syngas production by simultaneous splitting of H 2 O and CO 2 via iron oxide (Fe 3 O 4 ) redox reactions under high-pressure. International Journal of Hydrogen Energy, 41, 19936–19946. 10.1016/j.ijhydene.2016.09.053
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2016Model application 16
El Ahmar, Salma; Battista, Francesco; Fioravanti, Antonio; 2019. Simulation of the thermal performance of a geometrically complex Double-Skin Facade for hot climates: EnergyPlus vs. OpenFOAM. Building Simulation, 12, 781–795. 10.1007/s12273-019-0530-8
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2019Model application 5
Mohseni, Mohammad; Esperanca, Paulo T.; Sphaier, Sergio H.; 2018. Numerical study of wave run-up on a fixed and vertical surface-piercing cylinder subjected to regular, non-breaking waves using OpenFOAM. Applied Ocean Research, 79, 228–252. 10.1016/j.apor.2018.08.003
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2018Model application 14
Rauter, M.; Barker, T.; Fellin, W.; 2020. Granular viscosity from plastic yield surfaces: The role of the deformation type in granular flows. Computers and Geotechnics, 122, 103492. 10.1016/j.compgeo.2020.103492
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2020Model application 9
WANG, Y.-S.; POLITANO, M.; LAUGHERY, R.; 2013. Towards full predictions of temperature dynamics in McNary Dam forebay using OpenFOAM. Water Science and Engineering, 6, 317-330. 10.3882/j.issn.1674-2370.2013.03.008
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2013

Model application

4
Vandewalle, Laurien A.; Gonzalez-Quiroga, Arturo; Perreault, Patrice; Van Geem, Kevin M.; Marin, Guy B.; 2019. Process Intensification in a Gas–Solid Vortex Unit: Computational Fluid Dynamics Model Based Analysis and Design. Industrial & Engineering Chemistry Research, 58, 12751–12765. 10.1021/acs.iecr.9b01566
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2019Model application 8
Cao, Donggang; He, Guoqiang; Qin, Fei; Wei, Xianggeng; Shi, Lei; Liu, Bing; Huang, Zhiwei; 2017. LES study on flow features of the supersonic mixing layer affected by shock waves. International Communications in Heat and Mass Transfer, 85, 114–123. 10.1016/j.icheatmasstransfer.2017.04.019
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2017Model application 18
Gomez, Sebastian; Graves, Benjamin; Poroseva, Svetlana; 2014. On the Accuracy of RANS Simulations of 2D Boundary Layers with OpenFOAM. . Volume .
(View/edit entry)
2014Model application 8
Limane, Abdelhakim; Fellouah, Hachimi; Galanis, Nicolas; 2018. Three-dimensional OpenFOAM simulation to evaluate the thermal comfort of occupants, indoor air quality and heat losses inside an indoor swimming pool. Energy and Buildings, 167, 49–68. 10.1016/j.enbuild.2018.02.037
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2018Model application 10
Feigl, Kathleen; Tanner, Franz X.; Holzapfel, Sebastian; Windhab, Erich J.; 2014. Effect of flow type, channel height, and viscosity on drop production from micro-pores. Chemical Engineering Science, 116, 372–382. 10.1016/j.ces.2014.05.015
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2014Model application 10
Payri, R.; Tormos, B.; Gimeno, J.; Bracho, G.; 2011. Large Eddy Simulation for high pressure flows: Model extension for compressible liquids. Mathematical and Computer Modelling, 54, 1725–1731. 10.1016/j.mcm.2010.12.001
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2011Model application 9
Decan, Gilles; Broekaert, Stijn; Lucchini, Tommaso; D’Errico, Gianluca; Vierendeels, Jan; Verhelst, Sebastian; 2018. Evaluation of wall heat flux calculation methods for CFD simulations of an internal combustion engine under both motored and HCCI operation. Applied Energy, 232, 451–461. 10.1016/j.apenergy.2018.09.214
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2018Model application 5
Garrido-Mendoza, Carlos A.; Souto-Iglesias, Antonio; Thiagarajan, K. P.; 2013. Numerical Simulation of Hydrodynamics of a Circular Disk Oscillating Near a Seabed. . Volume .
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2013Model application 9
Aslannejad, H.; Fathi, H.; Hassanizadeh, S.M.; Raoof, A.; Tomozeiu, N.; 2018. Movement of a liquid droplet within a fibrous layer: Direct pore-scale modeling and experimental observations. Chemical Engineering Science, 191, 78–86. 10.1016/j.ces.2018.06.054
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2018Model application 9
Asad, Amjad; Kratzsch, Christoph; Schwarze, Rüdiger; 2016. Numerical Investigation of the Free Surface in a Model Mold. steel research international, 87, 181–190. 10.1002/srin.201400600
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2016Model application 15
Weber, Norbert; Beckstein, Pascal; Galindo, Vladimir; Starace, Marco; Weier, Tom; 2018. Electro-vortex flow simulation using coupled meshes. Computers & Fluids, 168, 101–109. 10.1016/j.compfluid.2018.03.047
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2018Model application 6
Kainz, A.; Hortschitz, W.; Stifter, M.; Schalko, J.; Keplinger, F.; 2014. Optimization of Passive Air Damping of MOEMS Vibration Sensors. Procedia Engineering, 87, 440–443. 10.1016/j.proeng.2014.11.326
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2014Model application 9
Stoessel, Lucien; Nilsson, Håkan; 2015. Steady and unsteady numerical simulations of the flow in the Tokke Francis turbine model, at three operating conditions. Journal of Physics: Conference Series, 579, 012011. 10.1088/1742-6596/579/1/012011
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2015Model application 8
Malecha, Z M; 2017. The numerical evaluation of safety valve size in the pipelines of cryogenic installations. IOP Conference Series: Materials Science and Engineering, 171, 012039. 10.1088/1757-899X/171/1/012039
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2017Model application 2
Engberg, Roland F.; Wegener, Mirco; Kenig, Eugeny Y.; 2014. The influence of Marangoni convection on fluid dynamics of oscillating single rising droplets. Chemical Engineering Science, 117, 114–124. 10.1016/j.ces.2014.05.047
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2014Model application 15
Marić, Tomislav; Marschall, Holger; Bothe, Dieter; 2015. lentFoam – A hybrid Level Set/Front Tracking method on unstructured meshes. Computers & Fluids, 113, 20–31. 10.1016/j.compfluid.2014.12.019
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2015Model application 14
Comminal, Raphaël; Pimenta, Francisco; Hattel, Jesper H.; Alves, Manuel A.; Spangenberg, Jon; 2018. Numerical simulation of the planar extrudate swell of pseudoplastic and viscoelastic fluids with the streamfunction and the VOF methods. Journal of Non-Newtonian Fluid Mechanics, 252, 1–18. 10.1016/j.jnnfm.2017.12.005
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2018Model application 21
Behzadi, James Jalal; Talei, Mohsen; Bolla, Michele; Hawkes, Evatt R.; Lucchini, Tommaso; D’Errico, Gianluca; Kook, Sanghoon; 2018. A Conditional Moment Closure Study of Chemical Reaction Source Terms in SCCI Combustion. Flow, Turbulence and Combustion, 100, 93–118. 10.1007/s10494-017-9825-y
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2018Model application 3
Gräbel, J.; Hensel, S.; Ueberholz, P.; Zeidan, D.; Farber, P.; 2016. Some issues in the simulation of two-phase flows: The relative velocity. . Volume .
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2016Model application 2
Modesti, Davide; Pirozzoli, Sergio; 2017. A low-dissipative solver for turbulent compressible flows on unstructured meshes, with OpenFOAM implementation. Computers & Fluids, 152, 14–23. 10.1016/j.compfluid.2017.04.012
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2017Model application 20
Zalek, Steven F.; Karr, Dale G.; Jabbarizadeh, Sara; Maki, Kevin J.; 2011. Modeling of air cushion vehicle's flexible seals under steady state conditions. Ocean Systems Engineering, 1, 17–28. 10.12989/OSE.2011.1.1.017
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2011Model application 2
Koloszar, Lilla; Buckingham, Sophia; Planquart, Philippe; Keijers, Steven; 2017. MyrrhaFoam: A CFD model for the study of the thermal hydraulic behavior of MYRRHA. Nuclear Engineering and Design, 312, 256–265. 10.1016/j.nucengdes.2016.05.008
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2017Model application 6
Kashitani, Masashi; Yamaguchi, Yutaka; Oki, Genkai; Kitano, Hideki; Esashi, Satoru; 2010. Preliminary Study on Diaphragmless Shock Tube for Transonic Airfoil Testing with PDI. . Volume .
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2010Model application 6
Beltrán, Alberto; 2017. MHD natural convection flow in a liquid metal electrode. Applied Thermal Engineering, 114, 1203–1212. 10.1016/j.applthermaleng.2016.09.006
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2017Model application 12
Wu, Ke; Zhu, Kai; Kang, Cheng; Zhang, Junshen; Zhang, Xin; Zhang, Chi; 2015. Numerical Method and Its Application to Coupled System with Chemical Reaction, Fluid Flow and Heat Transfer: A Case Study of Shell-and-Tube Reactor. . Volume .
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2015Model application 0
Nieves-Remacha, María José; Kulkarni, Amol A.; Jensen, Klavs F.; 2015. OpenFOAM Computational Fluid Dynamic Simulations of Single-Phase Flows in an Advanced-Flow Reactor. Industrial & Engineering Chemistry Research, 54, 7543–7553. 10.1021/acs.iecr.5b00232
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2015Model application 11
Lopez, Alejandro; Stickland, Matthew; Dempster, William; 2015. Modeling erosion in a centrifugal pump in an Eulerian-Lagrangian frame using OpenFOAM®. Open Engineering, 5, . 10.1515/eng-2015-0037
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2015Model application 3
Wang, C. J.; Wen, J. X.; Chen, Z. B.; 2014. Simulation of Large-Scale LNG Pool Fires Using FireFoam. Combustion Science and Technology, 186, 1632–1649. 10.1080/00102202.2014.935615
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2014Model application 15
Haddadi, Bahram; Jordan, Christian; Harasek, Michael; 2017. Cost efficient CFD simulations: Proper selection of domain partitioning strategies. Computer Physics Communications, 219, 121–134. 10.1016/j.cpc.2017.05.014
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2017Model application 4
Kiani, Hosein; Karimi, Farzaneh; Labbafi, Mohsen; Fathi, Morteza; 2018. A novel inverse numerical modeling method for the estimation of water and salt mass transfer coefficients during ultrasonic assisted-osmotic dehydration of cucumber cubes. Ultrasonics Sonochemistry, 44, 171–176. 10.1016/j.ultsonch.2018.02.003
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2018Model application 10
Montorfano, Andrea; Piscaglia, Federico; Schmitt, Martin; Wright, Yuri M.; Frouzakis, Christos E.; Tomboulides, Ananias G.; Boulouchos, Konstantinos; Onorati, Angelo; 2015. Comparison of Direct and Large Eddy Simulations of the Turbulent Flow in a Valve/Piston Assembly. Flow, Turbulence and Combustion, 95, 461–480. 10.1007/s10494-015-9620-6
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2015Model application 13
Lyras, Konstantinos; Dembele, Siaka; Schmidt, David P.; Wen, Jennifer X.; 2018. Numerical simulation of subcooled and superheated jets under thermodynamic non-equilibrium. International Journal of Multiphase Flow, 102, 16–28. 10.1016/j.ijmultiphaseflow.2018.01.014
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2018Model application 7
Peng, C.; Kong, B.; Zhou, J.; Sun, B.; Passalacqua, A.; Subramaniam, S.; Fox, R.O.; 2019. Implementation of pseudo-turbulence closures in an Eulerian–Eulerian two-fluid model for non-isothermal gas–solid flow. Chemical Engineering Science, 207, 663–671. 10.1016/j.ces.2019.06.054
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2019Model application 10
Aldi, Nicola; Buratto, Carlo; Pinelli, Michele; Spina, Pier Ruggero; Suman, Alessio; Casari, Nicola; 2016. CFD Analysis of a Non-newtonian Fluids Processing Pump. Energy Procedia, 101, 742–749. 10.1016/j.egypro.2016.11.094
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2016Model application 8
Hayatdavoodi, Masoud; Ertekin, R. Cengiz; Robertson, Ian N.; Riggs, H. Ronald; 2015. Vulnerability assessment of coastal bridges on Oahu impacted by storm surge and waves. Natural Hazards, 79, 1133–1157. 10.1007/s11069-015-1896-2
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2015Model application 13
Liu, Hou-lin; Ren, Yun; Wang, Kai; Wu, Deng-hao; Ru, Wei-min; Tan, Ming-gao; 2012. Research of Inner Flow in a Double Blades Pump Based on Openfoam. Journal of Hydrodynamics, 24, 226–234. 10.1016/S1001-6058(11)60238-2
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2012Model application 11
Romanelli, Giulio; Serioli, Elisa; Mantegazza, Paolo; 2010. A "Free" Approach to Computational Aeroelasticity. . Volume .
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2010Model application 15
Andreini, Antonio; Bianchini, Cosimo; Puggelli, Stefano; Demoulin, F.X.; 2016. Development of a turbulent liquid flux model for Eulerian–Eulerian multiphase flow simulations. International Journal of Multiphase Flow, 81, 88–103. 10.1016/j.ijmultiphaseflow.2016.02.003
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2016Model application 15
Fukumoto, Kazui; Wang, Changjian; Wen, Jennifer; 2018. Large eddy simulation of upward flame spread on PMMA walls with a fully coupled fluid–solid approach. Combustion and Flame, 190, 365–387. 10.1016/j.combustflame.2017.11.012
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2018Model application 16
Meng, Xiangyin; Zhang, Xi; Li, Qian; 2016. Numerical investigation of nanofluid natural convection coupling with nanoparticles sedimentation. Applied Thermal Engineering, 95, 411–420. 10.1016/j.applthermaleng.2015.10.086
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2016Model application 15
Ranjan, Pritanshu; Dewan, Anupam; 2015. Partially Averaged Navier Stokes simulation of turbulent heat transfer from a square cylinder. International Journal of Heat and Mass Transfer, 89, 251–266. 10.1016/j.ijheatmasstransfer.2015.05.029
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2015Model application 19
Gharehdash, Saba; Shen, Luming; Gan, Yixiang; 2020. Numerical study on mechanical and hydraulic behaviour of blast-induced fractured rock. Engineering with Computers, 36, 915–929. 10.1007/s00366-019-00740-1
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2020Model application 7
Rezanejad, K.; Gadelho, J.F.M.; Guedes Soares, C.; 2019. Hydrodynamic analysis of an oscillating water column wave energy converter in the stepped bottom condition using CFD. Renewable Energy, 135, 1241–1259. 10.1016/j.renene.2018.09.034
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2019Model application 10
Pinchuk, M; Stepanova, O; Kurakina, N; Spodobin, V; 2017. Propagation of atmospheric pressure helium plasma jet into ambient air at laminar gas flow. Journal of Physics: Conference Series, 830, 012060. 10.1088/1742-6596/830/1/012060
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2017Model application 8
Feng, Shi-Jin; Lu, Shi-Feng; Chen, H.X.; Fu, Wen-Ding; Lü, Fan; 2017. Three-dimensional modelling of coupled leachate and gas flow in bioreactor landfills. Computers and Geotechnics, 84, 138–151. 10.1016/j.compgeo.2016.11.024
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2017Model application 16
Forbes, D.C.; Page, G.J.; Passmore, M.A.; Gaylard, A.P.; 2014. Computational study of wake structure and base pressure on a generic SUV model. In: (eds.)The International Vehicle Aerodynamics Conference.. 67–77.
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2014Model application 7
Islam, Hafizul; Guedes Soares, C.; 2019. Uncertainty analysis in ship resistance prediction using OpenFOAM. Ocean Engineering, 191, 105805. 10.1016/j.oceaneng.2019.02.033
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2019Model application 10
Lee, Sungwook; 2015. A numerical study on ship-ship interaction in shallow and restricted waterway. International Journal of Naval Architecture and Ocean Engineering, 7, 920–938. 10.1515/ijnaoe-2015-0064
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2015Model application 7
Rivera, Orlando; Furlinger, Karl; 2011. Parallel Aspects of OpenFOAM with Large Eddy Simulations. . Volume .
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2011Model application 4
Božidar Šarler, Professor Nicola Ma, Professor; Cordiner, Stefano; Manni, Alessandro; Mulone, Vincenzo; Rocco, Vittorio; 2016. Biomass furnace study via 3D numerical modeling. International Journal of Numerical Methods for Heat & Fluid Flow, 26, 515–533. 10.1108/HFF-03-2015-0089
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2016Model application 13
Fiorina, Carlo; Aufiero, Manuele; Pelloni, Sandro; Mikityuk, Konstantin; 2014. A Time-Dependent Solver for Coupled Neutron-Transport Thermal-Mechanics Calculations and Simulation of a Godiva Prompt-Critical Burst. . Volume .
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2014Model application 4
Vuorinen, Ville; Wehrfritz, Armin; Yu, Jingzhou; Kaario, Ossi; Larmi, Martti; Boersma, Bendiks Jan; 2011. Large-Eddy Simulation of Subsonic Jets. Journal of Physics: Conference Series, 318, 032052. 10.1088/1742-6596/318/3/032052
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2011Model application 13
Devolder, Brecht; Troch, Peter; Rauwoens, Pieter; 2018. VALIDATION OF A BUOYANCY-MODIFIED TURBULENCE MODEL BY NUMERICAL SIMULATIONS OF BREAKING WAVES OVER A FIXED BAR. Coastal Engineering Proceedings, , 71. 10.9753/icce.v36.waves.71
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2018Model application 0
Capurso, Tommaso; Stefanizzi, Michele; Torresi, Marco; Pascazio, Giuseppe; Caramia, Giovanni; Camporeale, Sergio M.; Fortunato, Bernardo; Bergamini, Lorenzo; 2018. How to Improve the Performance Prediction of a Pump as Turbine by Considering the Slip Phenomenon. Proceedings, 2, 683. 10.3390/proceedings2110683
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2018Model application 6
Buffo, A.; Vanni, M.; Marchisio, D.L.; 2017. Simulation of a reacting gas–liquid bubbly flow with CFD and PBM: Validation with experiments. Applied Mathematical Modelling, 44, 43–60. 10.1016/j.apm.2016.11.010
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2017Model application 18
Jie, Hongen; Liu, Ying Zheng; 2016. Large eddy simulation of turbulent flow over a cactus-analogue grooved cylinder. Journal of Visualization, 19, 61–78. 10.1007/s12650-015-0294-x
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2016Model application 5
Gimenez, Juan M.; Aguerre, Horacio J.; Idelsohn, Sergio R.; Nigro, Norberto M.; 2019. A second-order in time and space particle-based method to solve flow problems on arbitrary meshes. Journal of Computational Physics, 380, 295–310. 10.1016/j.jcp.2018.11.034
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2019Model application 5
Iannantuoni, Luca; Ettorre, Daniele; Manzini, Giovanni; Araneo, Lucio; 2014. Validation and Assessment of a Water Mist Multi-hole Nozzle Model for Fire Simulations. Fire Technology, 50, 505–524. 10.1007/s10694-013-0333-x
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2014Model application 4
da Luz, Cleuzir; de Arruda Guelli Ulson de Souza, Selene Maria; Ulson de Souza, Antonio Augusto; Dervanoski, Adriana; de Oliveira Samel Moraes, Antonio; Wood, Brian D.; 2018. A multiscale model for carbon adsorption of BTX compounds: Comparison of volume averaging theory and experimental measurements. Chemical Engineering Science, 184, 285–308. 10.1016/j.ces.2018.02.047
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2018Model application 11
Yang, Qi; Zhao, Peng; Ge, Haiwen; 2019. reactingFoam-SCI: An open source CFD platform for reacting flow simulation. Computers & Fluids, 190, 114–127. 10.1016/j.compfluid.2019.06.008
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2019Model application 12
Anirudh, K.; Dhinakaran, S.; 2020. Performance improvement of a flat-plate solar collector by inserting intermittent porous blocks. Renewable Energy, 145, 428–441. 10.1016/j.renene.2019.06.015
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2020Model application 23
Hammerich, Simon; Gleiss, Marco; Stickland, Anthony D.; Nirschl, Hermann; 2019. A computationally-efficient method for modelling the transient consolidation behavior of saturated compressive particulate networks. Separation and Purification Technology, 220, 222–230. 10.1016/j.seppur.2019.03.060
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2019Model application 1
Fancello, A.; Panek, L.; Lammel, O.; Krebs, W.; Bastiaans, R. J. M.; de Goey, L. P. H.; 2014. Turbulent Combustion Modeling Using Flamelet-Generated Manifolds for Gas Turbine Applications in OpenFOAM. . Volume .
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2014Model application 6
Buffo, Antonio; Vanni, Marco; Marchisio, Daniele L.; 2016. On the implementation of moment transport equations in OpenFOAM: Boundedness and realizability. International Journal of Multiphase Flow, 85, 223–235. 10.1016/j.ijmultiphaseflow.2016.06.017
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2016Model application 13
Krappel, T.; Kuhlmann, H.; Kirschner, O.; Ruprecht, A.; Riedelbauch, S.; 2015. Validation of an IDDES-type turbulence model and application to a Francis pump turbine flow simulation in comparison with experimental results. International Journal of Heat and Fluid Flow, 55, 167–179. 10.1016/j.ijheatfluidflow.2015.07.019
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2015Model application 15
Zhao, Pinghui; Liu, Jiaming; Ge, Zhihao; Wang, Xi; Cheng, Xu; 2017. CFD analysis of transverse flow in a wire-wrapped hexagonal seven-pin bundle. Nuclear Engineering and Design, 317, 146–157. 10.1016/j.nucengdes.2017.03.038
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2017Model application 7
Chen, Qiang; Zang, Jun; Kelly, David M.; Dimakopoulos, Aggelos S.; 2018. A 3D parallel Particle-In-Cell solver for wave interaction with vertical cylinders. Ocean Engineering, 147, 165–180. 10.1016/j.oceaneng.2017.10.023
(View/edit entry)
2018Model application 9
Gariani, Gabriela; Maggi, Filippo; Galfetti, Luciano; 2010. Simulation Code for Hybrid Rocket Combustion. . Volume .
(View/edit entry)
2010Model application 15
Solsjö, Rickard; Jangi, Mehdi; Tuner, Martin; Bai, Xue-Song; 2012. Large Eddy Simulation of Partially Premixed Combustion in an Internal Combustion Engine. . Volume .
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2012Model application 10
Kelly, Sinead; O’Rourke, Malachy; 2012. Fluid, solid and fluid–structure interaction simulations on patient-based abdominal aortic aneurysm models. Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine, 226, 288–304. 10.1177/0954411911435592
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2012Model application 14
Georgoulas, Anastasios; Andredaki, Manolia; Marengo, Marco; 2017. An Enhanced VOF Method Coupled with Heat Transfer and Phase Change to Characterise Bubble Detachment in Saturated Pool Boiling. Energies, 10, 272. 10.3390/en10030272
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2017Model application 25
Maruai, Nurshafinaz Mohd; Ali, Mohamed Sukri Mat; Ismail, Mohamad Hafiz; Zaki, Sheikh Ahmad; 2018. Flow-induced vibration of a square cylinder and downstream flat plate associated with micro-scale energy harvester. Journal of Wind Engineering and Industrial Aerodynamics, 175, 264–282. 10.1016/j.jweia.2018.01.010
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2018Model application 14
Lin, James; Wen, Minhua; Meng, Delong; Liu, Xin; Nukada, Akira; Matsuoka, Satoshi; 2018. Optimizing Preconditioned Conjugate Gradient on TaihuLight for OpenFOAM. . Volume .
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2018Model application 1
Feldman, Yuri; 2015. Theoretical analysis of three-dimensional bifurcated flow inside a diagonally lid-driven cavity. Theoretical and Computational Fluid Dynamics, 29, 245–261. 10.1007/s00162-015-0351-z
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2015Model application 12
Martínez-Ferrer, Pedro J; Qian, Ling; Causon, Derek M; Mingham, Clive G; Ma, Zhihua; 2018. Numerical Simulation of Wave Slamming on a Flap-Type Oscillating Wave Energy Device. International Journal of Offshore and Polar Engineering, 28, 65–71. 10.17736/ijope.2018.as20
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2018Model application 3
Heylmun, J.C.; Kong, B.; Passalacqua, A.; Fox, R.O.; 2019. A quadrature-based moment method for polydisperse bubbly flows. Computer Physics Communications, 244, 187–204. 10.1016/j.cpc.2019.06.005
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2019Model application 12
Kannan, Veeraraghavan; Naren, Parlikkad Rajan; Buwa, Vivek V; Dutta, Abhishek; 2019. Effect of drag correlation and bubble‐induced turbulence closure on the gas hold‐up in a bubble column reactor. Journal of Chemical Technology & Biotechnology, 94, 2944–2954. 10.1002/jctb.6100
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2019Model application 4
Ouda, Mohamed; Toorman, Erik A.; 2019. Development of a new multiphase sediment transport model for free surface flows. International Journal of Multiphase Flow, 117, 81–102. 10.1016/j.ijmultiphaseflow.2019.04.023
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2019Model application 7
Nguyen, Trong Nhan; Nguyen, Thanh Chuyen; Nguyen, Van Thinh; 2015. Numerical Simulation of Wind Flow and Pollution Transport in Urban Street Canyons. . Volume .
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2015Model application 3
Gadelho, J.F.M.; Rodrigues, J.M.; Lavrov, A.; Guedes Soares, C.; 2018. Heave and sway hydrodynamic coefficients of ship hull sections in deep and shallow water using Navier-Stokes equations. Ocean Engineering, 154, 262–276. 10.1016/j.oceaneng.2018.02.025
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2018Model application 7
Helgason, Eysteinn; Krajnović, Siniša; 2012. Aerodynamic Shape Optimization of a Pipe Using the Adjoint Method. . Volume .
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2012Model application 14
Decan, Gilles; Lucchini, Tommaso; D’Errico, Gianluca; Verhelst, Sebastian; 2020. A novel technique for detailed and time-efficient combustion modeling of fumigated dual-fuel internal combustion engines. Applied Thermal Engineering, 174, 115224. 10.1016/j.applthermaleng.2020.115224
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2020Model application 3
Lobaccaro, Gabriele; Croce, Silvia; Vettorato, Daniele; Carlucci, Salvatore; 2018. A holistic approach to assess the exploitation of renewable energy sources for design interventions in the early design phases. Energy and Buildings, 175, 235–256. 10.1016/j.enbuild.2018.06.066
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2018Model application 10
Kadhim, Hakim T.; Rona, Aldo; Gostelow, J. Paul; Leschke, Katrin; 2018. Optimization of the non-axisymmetric stator casing of a 1.5 stage axial turbine. International Journal of Mechanical Sciences, 136, 503–514. 10.1016/j.ijmecsci.2017.12.031
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2018Model application 7
Kaschnitz, E; Heugenhauser, S; Schumacher, P; 2015. A benchmark for the validation of solidification modelling algorithms. IOP Conference Series: Materials Science and Engineering, 84, 012051. 10.1088/1757-899X/84/1/012051
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2015Model application 2
Weerasuriya, A.U.; Hu, Z.Z.; Zhang, X.L.; Tse, K.T.; Li, S.; Chan, P.W.; 2018. New inflow boundary conditions for modeling twisted wind profiles in CFD simulation for evaluating the pedestrian-level wind field near an isolated building. Building and Environment, 132, 303–318. 10.1016/j.buildenv.2018.01.047
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2018Model application 12
Cuzminschi, M.; Gherasim, R.; Girleanu, V.; Zubarev, A.; Stamatin, I.; 2018. Innovative thermo-solar air heater. Energy and Buildings, 158, 964–970. 10.1016/j.enbuild.2017.10.082
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2018Model application 16
Casari, Nicola; Pinelli, Michele; Suman, Alessio; Kovacevic, Ahmed; Rane, Sham; Ziviani, Davide; 2018. Full 3D numerical analysis of a twin screw compressor by employing open-source software. IOP Conference Series: Materials Science and Engineering, 425, 012017. 10.1088/1757-899X/425/1/012017
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2018Model application 3
Istomina, Maria Alexandrovna; 2018. About realization of one-dimensional quasi-gas dynamic algorithm in the open program OpenFOAM complex. Keldysh Institute Preprints, , 1–19. 10.20948/prepr-2018-1
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2018Model application 3
Le Minor, Marine; Bartzke, Gerhard; Zimmer, Martin; Gillis, Lucy; Helfer, Véronique; Huhn, Katrin; 2019. Numerical modelling of hydraulics and sediment dynamics around mangrove seedlings: Implications for mangrove establishment and reforestation. Estuarine, Coastal and Shelf Science, 217, 81–95. 10.1016/j.ecss.2018.10.019
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2019Model application 7
Pandal, A.; García-Oliver, J.M.; Novella, R.; Pastor, J.M.; 2018. A computational analysis of local flow for reacting Diesel sprays by means of an Eulerian CFD model. International Journal of Multiphase Flow, 99, 257–272. 10.1016/j.ijmultiphaseflow.2017.10.010
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2018Model application 12
Kleiner, Julia; Münch, Benjamin; Rößler, Felix; Fernengel, Johanna; Habla, Florian; Hinrichsen, Olaf; 2018. CFD simulation of single-phase heat transfer in a rotor-stator spinning disc reactor. Chemical Engineering and Processing - Process Intensification, 131, 150–160. 10.1016/j.cep.2018.07.010
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2018Model application 6
Arkoma, Asko; Huhtanen, Risto; Leppänen, Jaakko; Peltola, Juho; Pättikangas, Timo; 2018. Calculation chain for the analysis of spent nuclear fuel in long-term interim dry storage. Annals of Nuclear Energy, 119, 129–138. 10.1016/j.anucene.2018.04.037
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2018Model application 8
Agrawal, Bharat R.; Sharma, Anupam; 2014. Aerodynamic Noise Prediction for a Rod-Airfoil Configuration using Large Eddy Simulations. . Volume .
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2014Model application 11
Dai, S. S.; Younis, B. A.; Zhang, H. Y.; 2017. Prediction of Turbulent Flow Around a Square Cylinder With Rounded Corners. Journal of Offshore Mechanics and Arctic Engineering, 139, 031804. 10.1115/1.4035957
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2017Model application 1
Hinman, W. Schuyler; Johansen, Craig T.; 2017. Reynolds and Mach Number Dependence of Hypersonic Blunt Body Laminar Near Wakes. AIAA Journal, 55, 500–508. 10.2514/1.J055220
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2017Model application 8
Comer, Adam L.; Cant, R. Stewart; 2012. Towards the Automated Optimisation of Liquid Fuel Injector Design for Gas Turbine Engines. . Volume .
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2012Model application 3
Shaheed, Rawaa; Mohammadian, Abdolmajid; Kheirkhah Gildeh, Hossein; 2019. A comparison of standard k–ε and realizable k–ε turbulence models in curved and confluent channels. Environmental Fluid Mechanics, 19, 543–568. 10.1007/s10652-018-9637-1
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2019Model application 24
Beg, Md Nazmul Azim; Carvalho, Rita F.; Leandro, Jorge; 2018. Effect of surcharge on gully-manhole flow. Journal of Hydro-environment Research, 19, 224–236. 10.1016/j.jher.2017.08.003
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2018Model application 10
Malecha, Z.; Mirosław, Ł.; Tomczak, T.; Koza, Z.; Matyka, M.; Tarnawski, W.; Szczerba, D.; 2011. GPU-based simulation of 3D blood flow in abdominal aorta using OpenFOAM. Archives of Mechanics, 63, 137-161. 10.24423/AOM.516
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2011

Model application

16
Roenby, Johan; Bredmose, Henrik; Jasak, Hrvoje; 2016. A computational method for sharp interface advection. Royal Society Open Science, 3, 160405. 10.1098/rsos.160405
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2016Model application 108
Nóbrega, J. Miguel; Jasak, Hrvoje; Davidson, Josh; Windt, Christian; Giorgi, Giuseppe; Genest, Romain; Ringwood, John V.; 2019. Evaluation of Energy Maximising Control Systems for Wave Energy Converters Using OpenFOAM $$^{\textregistered }$$. In: (eds.)OpenFOAM®.. 157–171.
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2019Model application 4
Sinclair, Cameron; Malecha, Ziemowit; Jedrusyna, Artur; 2018. Numerical investigation of potential stratification caused by a cryogenic helium spill inside a tunnel. Cryogenics, 91, 7–20. 10.1016/j.cryogenics.2018.02.005
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2018Model application 2
Pendar, Mohammad-Reza; Roohi, Ehsan; 2018. Cavitation characteristics around a sphere: An LES investigation. International Journal of Multiphase Flow, 98, 1–23. 10.1016/j.ijmultiphaseflow.2017.08.013
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2018Model application 48
Chitalov, Dmitri I; Kalashnikov, Sergey T; 2019. Development of a computational mesh generator for the OpenFOAM software environment used at industrial enterprises. IOP Conference Series: Materials Science and Engineering, 537, 032048. 10.1088/1757-899X/537/3/032048
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2019Model application 3
Dogan, Timur; Kastner, Patrick; 2020. Streamlined CFD simulation framework to generate wind-pressure coefficients on building facades for airflow network simulations. Building Simulation, , . 10.1007/s12273-020-0727-x
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2020Model application 0
Gao, Ke; Li, Sheng-nan; Han, Rong; Li, Run-zhi; Liu, Zi-meng; Qi, Zhi-peng; Liu, Ze-Yi; 2020. Study on the propagation law of gas explosion in the space based on the goaf characteristic of coal mine. Safety Science, 127, 104693. 10.1016/j.ssci.2020.104693
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2020Model application 16
B.T., Kannan; 2015. Computation of an Axisymmetric Jet using OpenFOAM. Procedia Engineering, 127, 1292–1299. 10.1016/j.proeng.2015.11.486
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2015Model application 9
Municchi, Federico; Di Pasquale, Nicodemo; Dentz, Marco; Icardi, Matteo; 2021. Heterogeneous Multi-Rate mass transfer models in OpenFOAM®. Computer Physics Communications, 261, 107763. 10.1016/j.cpc.2020.107763
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2021Model application 0
Larsen, Bjarke Eltard; Fuhrman, David R.; Roenby, Johan; 2019. Performance of interFoam on the simulation of progressive waves. Coastal Engineering Journal, 61, 380–400. 10.1080/21664250.2019.1609713
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2019Model application 34
Zikanov, Oleg; 2019. Numerical simulation of rolling pad instability in cuboid liquid metal batteries. Physics of Fluids, 31, 124104. 10.1063/1.5123170
(View/edit entry)
2019Model application 2
Scolaro, Alessandro; Clifford, Ivor; Fiorina, Carlo; Pautz, Andreas; 2020. The OFFBEAT multi-dimensional fuel behavior solver. Nuclear Engineering and Design, 358, 110416. 10.1016/j.nucengdes.2019.110416
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2020Model application 5
Sotgiu, C.; Weigand, B.; Semmler, K.; 2018. A turbulent heat flux prediction framework based on tensor representation theory and machine learning. International Communications in Heat and Mass Transfer, 95, 74–79. 10.1016/j.icheatmasstransfer.2018.04.005
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2018Model application 15
Courtais, Alexis; Lesage, François; Privat, Yannick; Frey, Pascal; Latifi, Abder-razak; 2019. Adjoint system method in shape optimization of some typical fluid flow patterns. In: (eds.)Computer Aided Chemical Engineering.. 871–876.
(View/edit entry)
2019Model application 6
Rezaeiravesh, S.; Liefvendahl, M.; 2018. Effect of grid resolution on large eddy simulation of wall-bounded turbulence. Physics of Fluids, 30, 055106. 10.1063/1.5025131
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2018Model application 21
Windt, Christian; Davidson, Josh; Schmitt, Pál; Ringwood, John; 2019. On the Assessment of Numerical Wave Makers in CFD Simulations. Journal of Marine Science and Engineering, 7, 47. 10.3390/jmse7020047
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2019Model application 28
Batlle Martin, Marc; Pinon, Grégory; Reveillon, Julien; Kimmoun, Olivier; 2021. Computations of soliton impact onto a vertical wall: Comparing incompressible and compressible assumption with experimental validation. Coastal Engineering, 164, 103817. 10.1016/j.coastaleng.2020.103817
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2021Model application 1
Woo, Mino; Nishida, Robert T.; Schriefl, Mario A.; Stettler, Marc E.J.; Boies, Adam M.; 2021. Open-source modelling of aerosol dynamics and computational fluid dynamics: Nodal method for nucleation, coagulation, and surface growth. Computer Physics Communications, 261, 107765. 10.1016/j.cpc.2020.107765
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2021Model application 0
Boudreau, Matthieu; Dumas, Guy; Veilleux, Jean-Christophe; 2017. Assessing the Ability of the DDES Turbulence Modeling Approach to Simulate the Wake of a Bluff Body. Aerospace, 4, 41. 10.3390/aerospace4030041
(View/edit entry)
2017Model application 6
Xue, Mi-An; Chen, Yichao; Zheng, Jinhai; Qian, Ling; Yuan, Xiaoli; 2019. Fluid dynamics analysis of sloshing pressure distribution in storage vessels of different shapes. Ocean Engineering, 192, 106582. 10.1016/j.oceaneng.2019.106582
(View/edit entry)
2019Model application 30
Deng, Bin; Cui, Yong; Chen, Jin-Gen; He, Long; Xia, Shao-Peng; Yu, Cheng-Gang; Zhu, Fan; Cai, Xiang-Zhou; 2020. Core and blanket thermal–hydraulic analysis of a molten salt fast reactor based on coupling of OpenMC and OpenFOAM. Nuclear Science and Techniques, 31, 85. 10.1007/s41365-020-00803-9
(View/edit entry)
2020Model application 2
Kannan, Bt; Panchapakesan, Nr; 2018. Influence of nozzle configuration on the flow field of multiple jets. Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering, 232, 1639–1654. 10.1177/0954410017699008
(View/edit entry)
2018Model application 5
Li, Tao; Pan, Jiaying; Kong, Fanfu; Xu, Baopeng; Wang, Xiaohan; 2020. A quasi-direct numerical simulation solver for compressible reacting flows. Computers & Fluids, 213, 104718. 10.1016/j.compfluid.2020.104718
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2020Model application 1
Kannan, B.T.; Ssheshan, P.; Senthilkumar, Sundararaj; 2016. Large Eddy Simulation of isothermal cruciform jet flow: Preliminary results. Perspectives in Science, 8, 10–12. 10.1016/j.pisc.2016.01.003
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2016Model application 5
Liang, Hui; Erkan, Nejdet; Solans, Virginie; Suzuki, Shunichi; 2020. Numerical Simulation and Validation of Aerosol Particle Removal by Water Spray Droplets With OpenFOAM During the Fukushima Daiichi Fuel Debris Retrieval. Frontiers in Energy Research, 8, 102. 10.3389/fenrg.2020.00102
(View/edit entry)
2020Model application 4
Yu, Minghao; Ruan, Shilun; Gu, Junfeng; Ren, Mengke; Li, Zheng; Wang, Xinyu; Shen, Changyu; 2020. Three-dimensional topology optimization of thermal-fluid-structural problems for cooling system design. Structural and Multidisciplinary Optimization, 62, 3347–3366. 10.1007/s00158-020-02731-z
(View/edit entry)
2020Model application 8
Fabritius, B.; Tabor, G.; 2016. Improving the quality of finite volume meshes through genetic optimisation. Engineering with Computers, 32, 425–440. 10.1007/s00366-015-0423-0
(View/edit entry)
2016Model application 11
Moran, H.R.; Magnini, M.; Markides, C.N.; Matar, O.K.; 2021. Inertial and buoyancy effects on the flow of elongated bubbles in horizontal channels. International Journal of Multiphase Flow, 135, 103468. 10.1016/j.ijmultiphaseflow.2020.103468
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2021Model application 0
Huang, Zhiwei; Zhao, Majie; Xu, Yong; Li, Guangze; Zhang, Huangwei; 2021. Eulerian-Lagrangian modelling of detonative combustion in two-phase gas-droplet mixtures with OpenFOAM: Validations and verifications. Fuel, 286, 119402. 10.1016/j.fuel.2020.119402
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2021Model application 16
Lechner, Christiane; Lauterborn, Werner; Koch, Max; Mettin, Robert; 2020. Jet formation from bubbles near a solid boundary in a compressible liquid: Numerical study of distance dependence. Physical Review Fluids, 5, 093604. 10.1103/PhysRevFluids.5.093604
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2020Model application 1
Duguay, J.M.; Lacey, R.W.J.; Gaucher, J.; 2017. A case study of a pool and weir fishway modeled with OpenFOAM and FLOW-3D. Ecological Engineering, 103, 31–42. 10.1016/j.ecoleng.2017.01.042
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2017Model application 18
Isaev, Sergey; Baranov, Paul; Popov, Igor; Sudakov, Alexander; Usachov, Alexander; Guvernyuk, Sergey; Sinyavin, Alexei; Chulyunin, Alexei; Mazo, Alexander; Demidov, Dennis; Dekterev, Alexander; Gavrilov, Andrey; Shebelev, Alexander; 2019. Numerical simulation and experiments on turbulent air flow around the semi-circular profile at zero angle of attack and moderate Reynolds number. Computers & Fluids, 188, 1–17. 10.1016/j.compfluid.2019.03.013
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2019Model application 10
Chen, Hao; Qian, Ling; Ma, Zhihua; Bai, Wei; Li, Ye; Causon, Derek; Mingham, Clive; 2019. Application of an overset mesh based numerical wave tank for modelling realistic free-surface hydrodynamic problems. Ocean Engineering, 176, 97–117. 10.1016/j.oceaneng.2019.02.001
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2019Model application 20
Richter, Harald; 2016. About the Suitability of Clouds in High-Performance Computing. . Volume .
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2016Model application 4
Yu, Ziying; Zheng, Xing; Ma, Qingwei; 2018. Study on Actuator Line Modeling of Two NREL 5-MW Wind Turbine Wakes. Applied Sciences, 8, 434. 10.3390/app8030434
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2018Model application 9
Zhainakov, A. Zh.; Kurbanaliev, A. Y.; 2013. Verification of the open package OpenFOAM on dam break problems. Thermophysics and Aeromechanics, 20, 451–461. 10.1134/S0869864313040082
(View/edit entry)
2013Model application 11
Nóbrega, J. Miguel; Jasak, Hrvoje; Roenby, Johan; Bredmose, Henrik; 2019. IsoAdvector: Geometric VOF on General Meshes. In: (eds.)OpenFOAM®.. 281–296.
(View/edit entry)
2019Model application 9
Wang, Chang-chang; Liu, Ying; Chen, Jie; Zhang, Fu-yi; Huang, Biao; Wang, Guo-yu; 2019. Cavitation vortex dynamics of unsteady sheet/cloud cavitating flows with shock wave using different vortex identification methods. Journal of Hydrodynamics, 31, 475–494. 10.1007/s42241-019-0043-z
(View/edit entry)
2019Model application 21
Hauswirth, Scott C.; Bowers, Christopher A.; Fowler, Christopher P.; Schultz, Pamela B.; Hauswirth, Amanda Dye; Weigand, Timothy; Miller, Cass T.; 2020. Modeling cross model non-Newtonian fluid flow in porous media. Journal of Contaminant Hydrology, 235, 103708. 10.1016/j.jconhyd.2020.103708
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2020Model application 3
Chitalov, Dmitri I; 2019. Development of an application with a graphical user interface (GUI) to compute in parallel in the OpenFOAM environment. Journal of Physics: Conference Series, 1399, 033001. 10.1088/1742-6596/1399/3/033001
(View/edit entry)
2019Model application 2
Chen, L.F.; Wu, G.X.; 2020. Flow-induced transverse vibration of a circular cylinder close to a plane wall at small gap ratios. Applied Ocean Research, 103, 102344. 10.1016/j.apor.2020.102344
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2020Model application 0
Fürst, Jiří; 2018. Development of a coupled matrix-free LU-SGS solver for turbulent compressible flows. Computers & Fluids, 172, 332–339. 10.1016/j.compfluid.2018.04.020
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2018Model application 7
Markesteijn, Anton P.; Karabasov, Sergey A.; 2018. CABARET solutions on graphics processing units for NASA jets: Grid sensitivity and unsteady inflow condition effect. Comptes Rendus Mécanique, 346, 948–963. 10.1016/j.crme.2018.07.004
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2018Model application 12
Bhattrai, Sudip; Tang, Hao; 2017. Formation of near-Chapman–Jouguet oblique detonation wave over a dual-angle ramp. Aerospace Science and Technology, 63, 1–8. 10.1016/j.ast.2016.12.010
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2017Model application 23
Zang, B.; Us, Vevek; Lim, H.D.; Wei, X.; New, T.H.; 2018. An assessment of OpenFOAM solver on RANS simulations of round supersonic free jets. Journal of Computational Science, 28, 18–31. 10.1016/j.jocs.2018.07.002
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2018Model application 9
Chen, Yichao; Xue, Mi-An; 2018. Numerical Simulation of Liquid Sloshing with Different Filling Levels Using OpenFOAM and Experimental Validation. Water, 10, 1752. 10.3390/w10121752
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2018Model application 25
Zahiri, Amir-Pouyan; Roohi, Ehsan; 2019. Anisotropic minimum-dissipation (AMD) subgrid-scale model implemented in OpenFOAM: Verification and assessment in single-phase and multi-phase flows. Computers & Fluids, 180, 190–205. 10.1016/j.compfluid.2018.12.011
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2019Model application 16
Longshaw, S.M.; Pillai, R.; Gibelli, L.; Emerson, D.R.; Lockerby, D.A.; 2020. Coupling Molecular Dynamics and Direct Simulation Monte Carlo using a general and high-performance code coupling library. Computers & Fluids, 213, 104726. 10.1016/j.compfluid.2020.104726
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2020Model application 1
Ahmadian, Mohammad Hassan; Roohi, Ehsan; Teymourtash, Alireza; Stefanov, Stefan; 2019. A dusty gas model-direct simulation Monte Carlo algorithm to simulate flow in micro-porous media. Physics of Fluids, 31, 062007. 10.1063/1.5094637
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2019Model application 8
Wang, Dong-xu; Sun, Jia-wen; Gui, Jin-song; Ma, Zhe; Ning, De-zhi; Fang, Ke-zhao; 2019. A numerical piston-type wave-maker toolbox for the open-source library OpenFOAM. Journal of Hydrodynamics, 31, 800–813. 10.1007/s42241-018-0116-4
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2019Model application 9
Liu, Wei; You, Ruoyu; Chen, Chun; 2019. Modeling transient particle transport by fast fluid dynamics with the Markov chain method. Building Simulation, 12, 881–889. 10.1007/s12273-019-0513-9
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2019Model application 9
Castilla, Robert; Gamez-Montero, Pedro J.; Raush, Gustavo; Codina, Esteve; 2017. Method for Fluid Flow Simulation of a Gerotor Pump Using OpenFOAM. Journal of Fluids Engineering, 139, 111101. 10.1115/1.4037060
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2017Model application 14
Schmitt, Pal; Windt, Christian; Davidson, Josh; Ringwood, John V; Whittaker, Trevor; 2019. The Efficient Application of an Impulse Source Wavemaker to CFD Simulations. Journal of Marine Science and Engineering, 7, 71. 10.3390/jmse7030071
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2019Model application 9
Salunkhe, Sanchit; El Fajri, Oumnia; Bhushan, Shanti; Thompson, David; O’Doherty, Daphne; O’Doherty, Tim; Mason-Jones, Allan; 2019. Validation of Tidal Stream Turbine Wake Predictions and Analysis of Wake Recovery Mechanism. Journal of Marine Science and Engineering, 7, 362. 10.3390/jmse7100362
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2019Model application 7
Alekseev, A.K.; Bondarev, A.E.; Kuvshinnikov, A.E.; 2020. On uncertainty quantification via the ensemble of independent numerical solutions. Journal of Computational Science, 42, 101114. 10.1016/j.jocs.2020.101114
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2020Model application 12
Lar Kermani, Elyas; Roohi, Ehsan; Porté-Agel, Fernando; 2018. Evaluating the modulated gradient model in large eddy simulation of channel flow with OpenFOAM. Journal of Turbulence, 19, 600–620. 10.1080/14685248.2018.1483078
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2018Model application 9
Guo, Xiao-Wei; Xu, Xin-Hai; Wang, Qian; Li, Hao; Ren, Xiao-Guang; Xu, Liyang; Yang, Xue-Jun; 2016. A Hybrid Decomposition Parallel Algorithm for Multi-scale Simulation of Viscoelastic Fluids. . Volume .
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2016Model application 8
Jacobsen, Niels G.; van Gent, Marcel R.A.; Capel, Alex; Borsboom, Mart; 2018. Numerical prediction of integrated wave loads on crest walls on top of rubble mound structures. Coastal Engineering, 142, 110–124. 10.1016/j.coastaleng.2018.10.004
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2018Model application 12
Islam, Hafizul; Guedes Soares, C.; 2018. Estimation of hydrodynamic derivatives of a container ship using PMM simulation in OpenFOAM. Ocean Engineering, 164, 414–425. 10.1016/j.oceaneng.2018.06.063
(View/edit entry)
2018Model application 12
Beckstein, Pascal; Galindo, Vladimir; Vukčević, Vuko; 2017. Efficient solution of 3D electromagnetic eddy-current problems within the finite volume framework of OpenFOAM. Journal of Computational Physics, 344, 623–646. 10.1016/j.jcp.2017.05.005
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2017Model application 6
Komen, E.M.J.; Frederix, E.M.A.; Coppen, T.H.J.; D’Alessandro, V.; Kuerten, J.G.M.; 2020. Analysis of the numerical dissipation rate of different Runge–Kutta and velocity interpolation methods in an unstructured collocated finite volume method in OpenFOAM®. Computer Physics Communications, 253, 107145. 10.1016/j.cpc.2020.107145
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2020Model application 10
Chai, Kenric; Liew, M. S.; Lee, H. E.; 2017. Numerical wave tank modelling of regular waves propagation using OpenFOAM. . Volume .
(View/edit entry)
2017Model application 3
Wang, Yuanbo; Miao, Weipao; Ding, Qinwei; Li, Chun; Xiang, Bin; 2019. Numerical investigations on control strategies of wake deviation for large wind turbines in an offshore wind farm. Ocean Engineering, 173, 794–801. 10.1016/j.oceaneng.2019.01.042
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2019Model application 10
Coppedè, Antonio; Gaggero, Stefano; Vernengo, Giuliano; Villa, Diego; 2019. Hydrodynamic shape optimization by high fidelity CFD solver and Gaussian process based response surface method. Applied Ocean Research, 90, 101841. 10.1016/j.apor.2019.05.026
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2019Model application 16
Gruwez, Vincent; Altomare, Corrado; Suzuki, Tomohiro; Streicher, Maximilian; Cappietti, Lorenzo; Kortenhaus, Andreas; Troch, Peter; 2020. Validation of RANS Modelling for Wave Interactions with Sea Dikes on Shallow Foreshores Using a Large-Scale Experimental Dataset. Journal of Marine Science and Engineering, 8, 650. 10.3390/jmse8090650
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2020Model application 2
Chatzimichailidis, Arsenios E.; Argyropoulos, Christos D.; Assael, Marc J.; Kakosimos, Konstantinos E.; 2019. Qualitative and Quantitative Investigation of Multiple Large Eddy Simulation Aspects for Pollutant Dispersion in Street Canyons Using OpenFOAM. Atmosphere, 10, 17. 10.3390/atmos10010017
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2019Model application 19
Winter, Andrew O.; Motley, Michael R.; 2020. Development of a Fluid-Structure Interaction Model of an Oscillating Wave Surge Converter Using OpenFOAM. . Volume .
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2020Model application 0
Kumar, Aravind Satheesh; Singh, Anugya; Gaur, Nikhil; 2020. Study of various mesh strategies for flow over a square cylinder using OpenFOAM®. AIP Conference Proceedings. Volume 2277.
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2020Model application 2
Kumar, Aravind Satheesh; Singh, Anugya; Srinadhi, K.; Kannan, B. T.; 2020. Study of flow over a cruciform cylinder at various low Reynolds numbers using OpenFOAM®. AIP Conference Proceedings, 2277, 030026. 10.1063/5.0025197
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2020Model application 1
Tuković, Željko; Karač, Aleksandar; Cardiff, Philip; Jasak, Hrvoje; Ivanković, Alojz; 2018. OpenFOAM Finite Volume Solver for Fluid-Solid Interaction. Transactions of FAMENA, 42, 1–31. 10.21278/TOF.42301
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2018Model application 23
Aggarwal, Akash; Patel, Sushil; Kumar, Arvind; 2019. Selective Laser Melting of 316L Stainless Steel: Physics of Melting Mode Transition and Its Influence on Microstructural and Mechanical Behavior. JOM, 71, 1105–1116. 10.1007/s11837-018-3271-8
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2019Model application 22
Elsayed, Ahmed; Bastien, Christophe; Jones, Steve; Christensen, Jesper; Medina, Humberto; Kassem, Hassan; 2017. Investigation of baffle configuration effect on the performance of exhaust mufflers. Case Studies in Thermal Engineering, 10, 86–94. 10.1016/j.csite.2017.03.006
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2017Model application 13
Iben, U.; Makhnov, A. V.; Schmidt, A. A.; 2019. Mathematical Modeling of the Inception and Development of Cavitation in Turbulent Liquid Flow in a Symmetric Channel. Technical Physics Letters, 45, 41–44. 10.1134/S1063785019010255
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2019Model application 1
Lee, Jaewon; Kang, Sang Hun; Gurka, Roi; 2019. Numerical study on the start and unstart phenomena in a scramjet inlet-isolator model. PLOS ONE, 14, e0224994. 10.1371/journal.pone.0224994
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2019Model application 3
Ghadirian, A.; Bredmose, H.; Dixen, M.; 2016. Breaking phase focused wave group loads on offshore wind turbine monopiles. Journal of Physics: Conference Series, 753, 092004. 10.1088/1742-6596/753/9/092004
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2016Model application 11
Rafati, Yashar; Hsu, Tian-Jian; Cheng, Zhen; Yu, Xiao; Calantoni, Joseph; 2020. Armoring and exposure effects on the wave-driven sediment transport. Continental Shelf Research, 211, 104291. 10.1016/j.csr.2020.104291
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2020Model application 2
Geršl, J.; Knotek, S.; Belligoli, Z.; Dwight, R.P.; Robinson, R.A.; Coleman, M.D.; 2018. Flow rate measurement in stacks with cyclonic flow – Error estimations using CFD modelling. Measurement, 129, 167–183. 10.1016/j.measurement.2018.06.032
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2018Model application 9
He, Ping; Halder, Rakesh; Fidkowski, Krzysztof; Maki, Kevin; Martins, Joaquim R. R. A.; 2021. An efficient nonlinear reduced-order modeling approach for rapid aerodynamic analysis with OpenFOAM. . Volume .
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2021Model application 0
Li, Xuan; Zhang, Wei; 2019. 3D numerical simulation of wave transmission for low-crested and submerged breakwaters. Coastal Engineering, 152, 103517. 10.1016/j.coastaleng.2019.103517
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2019

Model application

9
Kim, Y.; Son, S.; Jung, T.; Gallien, T.; 2021. An analytical and numerical study of a vertically discretized multi-paddle wavemaker for generating free surface and internal waves. Coastal Engineering, 165, 103840. 10.1016/j.coastaleng.2021.103840
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2021

Model application

2
Wong, Nyuk Hien; He, Yueer; Nguyen, Ngoc Son; Raghavan, Srivatsan V.; Martin, Miguel; Hii, Daniel Jun Chung; Yu, Zhongqi; Deng, Jiyu; 2021. An integrated multiscale urban microclimate model for the urban thermal environment. Urban Climate, 35, 100730. 10.1016/j.uclim.2020.100730
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2021

Model application

6
Battistini, A.; Cammi, A.; Lorenzi, S.; Colombo, M.; Fairweather, M.; 2021. Development of a CFD – LES model for the dynamic analysis of the DYNASTY natural circulation loop. Chemical Engineering Science, 237, 116520. 10.1016/j.ces.2021.116520
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2021

Model application

1
Isoz, Martin; 2019. POD-DEIM based model order reduction for speed-up of flow parametric studies. Ocean Engineering, 186, 106083. 10.1016/j.oceaneng.2019.05.065
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2019

Model application

8
Bruinsma, N.; Paulsen, B.T.; Jacobsen, N.G.; 2018. Validation and application of a fully nonlinear numerical wave tank for simulating floating offshore wind turbines. Ocean Engineering, 147, 647–658. 10.1016/j.oceaneng.2017.09.054
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2018

Model application

20
Li, Qian; Wang, Jinghua; Yan, Shiqiang; Gong, Jiaye; Ma, Qingwei; 2018. A zonal hybrid approach coupling FNPT with OpenFOAM for modelling wave-structure interactions with action of current. Ocean Systems Engineering, 8, 381–407. 10.12989/OSE.2018.8.4.381
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2018Model application 8
García, Sergio; Trueba, Alfredo; Boullosa-Falces, David; Islam, Hafizul; Guedes Soares, C.; 2020. Predicting ship frictional resistance due to biofouling using Reynolds-averaged Navier-Stokes simulations. Applied Ocean Research, 101, 102203. 10.1016/j.apor.2020.102203
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2020

Model application

7
Lloyd, Thomas P.; Turnock, Stephen R.; Humphrey, Victor F.; 2014. Assessing the influence of inflow turbulence on noise and performance of a tidal turbine using large eddy simulations. Renewable Energy, 71, 742–754. 10.1016/j.renene.2014.06.011
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2014

Model application

15
Li, Haochen; Spelman, David; Sansalone, John; 2021. Baffled clarification basin hydrodynamics and elution in a continuous time domain. Journal of Hydrology, 595, 125958. 10.1016/j.jhydrol.2021.125958
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2021

Model application

3
Subramaniam, Suba Periyal; Scheres, Babette; Schilling, Malte; Liebisch, Sven; Kerpen, Nils B.; Schlurmann, Torsten; Altomare, Corrado; Schüttrumpf, Holger; 2019. Influence of Convex and Concave Curvatures in a Coastal Dike Line on Wave Run-up. Water, 11, 1333. 10.3390/w11071333
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2019Model application 8
Huang, Yichen; Li, Jing; Xie, Bin; Lin, Zhiliang; Borthwick, Alistair G.L.; 2021. High-fidelity numerical simulation of solitary wave propagation. Ocean Engineering, 224, 108698. 10.1016/j.oceaneng.2021.108698
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2021

Model application

0
Kumar, P. Madhan; Samad, Abdus; 2019. Introducing Gurney flap to Wells turbine blade and performance analysis with OpenFOAM. Ocean Engineering, 187, 106212. 10.1016/j.oceaneng.2019.106212
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2019

Model application

12
Maulik, Romit; Sharma, Himanshu; Patel, Saumil; Lusch, Bethany; Jennings, Elise; 2021. Deploying deep learning in OpenFOAM with TensorFlow. . Volume .
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2021Model application 2
Deng, Zhengzhi; Wang, Chen; Yao, Yu; Higuera, Pablo; 2020. Numerical simulation of an oscillating water column device installed over a submerged breakwater. Journal of Marine Science and Technology, 25, 258–271. 10.1007/s00773-019-00645-0
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2020Model application 9
Ito, Kazuhide; Inthavong, Kiao; Kurabuchi, Takashi; Ueda, Toshikatsu; Endo, Tomoyuki; Omori, Toshiaki; Ono, Hiroki; Kato, Shinsuke; Sakai, Koji; Suwa, Yoshihide; Matsumoto, Hiroshi; Yoshino, Hajime; Zhang, Weirong; Tu, Jiyuan; 2015. CFD Benchmark Tests for Indoor Environmental Problems: Part 1 Isothermal/Non-Isothermal Flow in 2D and 3D Room Model. International Journal of Architectural Engineering Technology, 2, 01–22. 10.15377/2409-9821.2015.02.01.1
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2015Model application 36
Zhang, Ruike; Jin-yu, Yee-Chung; Wu, Peng; 2019. NUMERICAL SIMULATION OF CULVERT FLOW USING OPENFOAM. . Volume .
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2019Model application 0
Li, Yaru; Kelly, David M.; Li, Ming; Harris, John M.; 2014. DEVELOPMENT OF A NEW 3D EULER-LAGRANGE MODEL FOR THE PREDICTION OF SCOUR AROUND OFFSHORE STRUCTURES. Coastal Engineering Proceedings, 1, 31. 10.9753/icce.v34.sediment.31
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2014Model application 1
Cappelli, Daniele; Mansour, Nagi N.; 2013. Performance of Reynolds Averaged Navier-Stokes Models in Predicting Separated Flows: Study of the Hump Flow Model Problem. . Volume .
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2013Model application 3
Catellani, Cristian; Cazzoli, Giulio; Falfari, Stefania; Forte, Claudio; Bianchi, Gian Marco; 2016. Large Eddy Simulation of a Steady Flow Test Bench Using OpenFOAM®. Energy Procedia, 101, 622–629. 10.1016/j.egypro.2016.11.079
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2016Model application 5
Li, Lin-min; Hu, Dai-qing; Liu, Yu-cheng; Wang, Bi-tao; Shi, Chen; Shi, Jun-jie; Xu, Chang; 2020. Large eddy simulation of cavitating flows with dynamic adaptive mesh refinement using OpenFOAM. Journal of Hydrodynamics, 32, 398–409. 10.1007/s42241-019-0041-1
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2020Model application 12
Kubo, Shiori; Yoshida, Hidenori; Ichimura, Tsuyoshi; Wijerathne, M.L.L.; Hori, Muneo; 2021. Study on influence of prior recognition of flooding state on evacuation behavior. International Journal of Disaster Risk Reduction, 63, 102437. 10.1016/j.ijdrr.2021.102437
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2021Model application 0
Kubo, Shiori; Yoshida, Hidenori; Ichimura, Tsuyoshi; Wijerathne, M.L.L.; Hori, Muneo; 2020. STUDY ON INFLUENCE OF PRIOR RECOGNITION OF FLOODING STATE ON EVACUATION BEHAVIOR. Journal of Japan Society of Civil Engineers, Ser. A2 (Applied Mechanics (AM)), 76, I_499–I_510. 10.2208/jscejam.76.2_I_499
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2020Model application 0
Ye, Jianhong; Shan, Jipeng; Zhou, Haoran; Yan, Naixiao; 2021. Numerical modelling of the wave interaction with revetment breakwater built on reclaimed coral reef islands in the South China Sea—Experimental verification. Ocean Engineering, 235, 109325. 10.1016/j.oceaneng.2021.109325
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2021Model application 0
Montorfano, Andrea; Piscaglia, Federico; Onorati, Angelo; 2015. An Extension of the Dynamic Mesh Handling with Topological Changes for LES of ICE in OpenFOAM ®. . Volume .
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2015Model application 12
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Nr. of publications: 1026
Total citations: 23841
h-index: 61
m-quotient: 4.07

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