Delft3D-Publications

From CSDMS
References of Delft3D





Publication(s)YearModel describedType of ReferenceCitations
Hoogendoorn, Robert M.; Overeem, Irina; Storms, Joep E.A.; 2008. Process-response modelling of fluvio-deltaic stratigraphy. Computers & Geosciences, 34, 1394–1416. 10.1016/j.cageo.2008.02.006
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2008Delft3D
DeltaSIM
Model overview 9
Liang, M.; Geleynse, N.; Edmonds, D. A.; Passalacqua, P.; 2015. A reduced-complexity model for river delta formation – Part 2: Assessment of the flow routing scheme. Earth Surface Dynamics, 3, 87–104. 10.5194/esurf-3-87-2015
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2015Delft3D
DeltaRCM
Model overview 22
Elias, E. P. L.; Walstra, D. J. R.; Roelvink, J. A.; Stive, M. J. F.; Klein, M. D.; 2001. Hydrodynamic Validation of Delft3D with Field Measurements at Egmond. . Volume .
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2001Delft3D
Model overview 21
Roelvink, J. A.; Jeuken, M. C. J. L.; van Holland, G.; Aarninkhof, S. G. J.; Stam, J. M. T.; 2001. Long-Term, Process-Based Modelling of Complex Areas. . Volume .
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2001Delft3D
Model overview 20
Walstra, D. J. R.; Roelvink, J. A.; Groeneweg, J.; 2001. Calculation of Wave-Driven Currents in a 3D Mean Flow Model. . Volume .
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2001Delft3D
Model overview 71
Hutchinson, P.; Rodi, W.; Geurts, Bernard J.; Friedrich, Rainer; Métais, Olivier; Kernkamp, Herman; Uittenbogaard, Rob; 2001. 2D-LES of a free-surface mixing layer. In: (eds.)Direct and Large-Eddy Simulation IV.. 409–418.
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2001Delft3D
Model overview 5
Waldman, S.; Bastón, S.; Nemalidinne, R.; Chatzirodou, A.; Venugopal, V.; Side, J.; 2017. Implementation of tidal turbines in MIKE 3 and Delft3D models of Pentland Firth & Orkney Waters. Ocean & Coastal Management, 147, 21–36. 10.1016/j.ocecoaman.2017.04.015
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2017Delft3D
Mike3
Model application 20
List, Jeffrey H.; Hanes, Daniel M.; Ruggiero, Peter; 2007. PREDICTING LONGSHORE GRADIENTS IN LONGSHORE TRANSPORT: COMPARING THE CERC FORMULA TO DELFT3D. . Volume .
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2007Delft3D
Model application 8
Xing, Fei; Syvitski, James P.M.; Kettner, Albert J.; Meselhe, Ehab A.; Atkinson, John H.; Khadka, Ashok K.; 2017. Morphological responses of the Wax Lake Delta, Louisiana, to Hurricanes Rita. Elem Sci Anth, 5, 80. 10.1525/elementa.125
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2017Delft3D
Model application 5
Parsapour-Moghaddam, P.; Rennie, C.D.; 2017. Hydrostatic versus nonhydrostatic hydrodynamic modelling of secondary flow in a tortuously meandering river: Application of Delft3D. River Research and Applications, 33, 1400–1410. 10.1002/rra.3214
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2017Delft3D
Model application 6
Ramos, V.; Carballo, R.; Ringwood, John V.; 2019. Application of the actuator disc theory of Delft3D-FLOW to model far-field hydrodynamic impacts of tidal turbines. Renewable Energy, 139, 1320–1335. 10.1016/j.renene.2019.02.094
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2019Delft3D
Model application 1
Al-Asadi, Khalid; Duan, Jennifer G.; 2017. Assessing methods for estimating roughness coefficient in a vegetated marsh area using Delft3D. Journal of Hydroinformatics, 19, 766–783. 10.2166/hydro.2017.064
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2017Delft3D
Model application 1
Theol, Shaimaa A.; Jagers, Bert; Suryadi, F.X.; de Fraiture, Charlotte; 2019. The use of Delft3D for Irrigation Systems Simulations: Modelling irrigation systems using Delft3D. Irrigation and Drainage, 68, 318–331. 10.1002/ird.2311
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2019Delft3D
Model application 2
Shakoor, Abdul; Cato, Kerry; Siqueira, A. G.; Fiedler, M. F. M.; Yassuda, E. A.; 2019. Delft3D Morphological Modeling Downstream of Sergio Motta Reservoir Dam. In: (eds.)IAEG/AEG Annual Meeting Proceedings, San Francisco, California, 2018 - Volume 4.. 17–24.
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2019Delft3D
Model application 1
Rahbani, Maryam; 2015. A comparison between the suspended sediment concentrations derived from DELFT3D model and collected using transmissometer – a case study in tidally dominated area of Dithmarschen Bight. Oceanologia, 57, 44–49. 10.1016/j.oceano.2014.06.002
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2015Delft3D
Model application 3
Goos, Gerhard; Hartmanis, Juris; van Leeuwen, Jan; Sloot, Peter; Bubak, Marian; Hertzberger, Bob; Hummel, S.; Elshoff, I. J. P.; Mynett, A. E.; 1998. Distributed engineering systems in coastal zone management. In: (eds.)High-Performance Computing and Networking.. 133–140.
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1998Delft3D
Model application 0
van der Biezen, S.C.; Roelvink, J.A.; van de Graaff, J.; Schaap, J.; Torrini, L.; 1999. 2DH Morphological Modelling of Submerged Breakwaters. . Volume .
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1999Delft3D
Model application 8
Goossens, Serge; Tan, Kian; Roose, Dirk; 1998. A Krylov-Schwarz iterative solver for the shallow water equations. Physics and Chemistry of the Earth, 23, 485–490. 10.1016/S0079-1946(98)00059-7
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1998Delft3D
Model overview 1
Roelvink, Dano; Boutmy, Alain; Stam, Jean-Marie; 1999. A Simple Method to Predict Long-Term Morphological Changes. . Volume .
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1999Delft3D
Model overview 10
Ke, Qian; Bricker, Jeremy; Ye, Qinghua; 2019. Storm surge modelling by Delft3D FM – a case study in Shanghai area. .
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2019Delft3D
Model application 0
Helaire, Lumas; Jay, David; Talke, Stefan; Mahedy, Andrew; . Data From: Historical Changes in Lower Columbia River and Estuary Floods: A Numerical Study. .
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Delft3D
Model application 0
Bergillos, Rafael J.; Rodriguez-Delgado, Cristobal; Iglesias, Gregorio; 2020. Wave Energy Converter Configuration for Coastal Erosion Mitigation. In: (eds.)Ocean Energy and Coastal Protection.. 29–43.
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2020Delft3D
Model application 0
Li, L.; Storms, J.E.A.; Walstra, D.J.R.; 2018. On the upscaling of process-based models in deltaic applications. Geomorphology, 304, 201–213. 10.1016/j.geomorph.2017.10.015
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2018Delft3D
Model application 4
Mariotti, Giulio; Murshid, Shamim; 2018. A 2D Tide-Averaged Model for the Long-Term Evolution of an Idealized Tidal Basin-Inlet-Delta System. Journal of Marine Science and Engineering, 6, 154. 10.3390/jmse6040154
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2018CoastMorpho2D
Delft3D
MarshMorpho2D
Related theory 3
Barnard, Patrick L.; van Ormondt, Maarten; Erikson, Li H.; Eshleman, Jodi; Hapke, Cheryl; Ruggiero, Peter; Adams, Peter N.; Foxgrover, Amy C.; 2014. Development of the Coastal Storm Modeling System (CoSMoS) for predicting the impact of storms on high-energy, active-margin coasts. Natural Hazards, 74, 1095–1125. 10.1007/s11069-014-1236-y
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2014Delft3D
WAVEWATCH III ^TM
XBeach
Model application 70
Bergillos, Rafael J.; López-Ruiz, Alejandro; Medina-López, Encarnación; Moñino, Antonio; Ortega-Sánchez, Miguel; 2018. The role of wave energy converter farms on coastal protection in eroding deltas, Guadalfeo, southern Spain. Journal of Cleaner Production, 171, 356–367. 10.1016/j.jclepro.2017.10.018
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2018Delft3D
XBeach
Model application 26
Bergillos, Rafael J.; Masselink, Gerd; Ortega-Sánchez, Miguel; 2017. Coupling cross-shore and longshore sediment transport to model storm response along a mixed sand-gravel coast under varying wave directions. Coastal Engineering, 129, 93–104. 10.1016/j.coastaleng.2017.09.009
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2017Delft3D
XBeach
Model application 29
Dissanayake, Pushpa; Brown, Jennifer; Karunarathna, Harshinie; 2014. Modelling storm-induced beach/dune evolution: Sefton coast, Liverpool Bay, UK. Marine Geology, 357, 225–242. 10.1016/j.margeo.2014.07.013
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2014Delft3D
SWAN
XBeach
Model application 32
Dissanayake, Pushpa; Brown, Jennifer; Wisse, Paul; Karunarathna, Harshinie; 2015. Comparison of storm cluster vs isolated event impacts on beach/dune morphodynamics. Estuarine, Coastal and Shelf Science, 164, 301–312. 10.1016/j.ecss.2015.07.040
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2015Delft3D
SWAN
XBeach
Model application 21
Li, Linlin; Huang, Zhenhua; 2013. MODELING THE CHANGE OF BEACH PROFILE UNDER TSUNAMI WAVES: A COMPARISON OF SELECTED SEDIMENT TRANSPORT MODELS. Journal of Earthquake and Tsunami, 7, 1350001. 10.1142/S1793431113500012
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2013Delft3D
XBeach
Model application 9
Bergillos, Rafael J; Masselink, Gerd; McCall, Robert T; Ortega-Sánchez, Miguel; 2017. MODELING OVERWASH VULNERABILITY ALONG MIXED SAND-GRAVEL COASTS WITH XBEACH-G CASE STUDY OF PLAYA GRANADA, SOUTHERN SPAIN. Coastal Engineering Proceedings, , 13. 10.9753/icce.v35.sediment.13
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2017Delft3D
XBeach
Model application 7
Moñino, Antonio; Medina-López, Encarnación; Bergillos, Rafael J.; Clavero, María; Borthwick, Alistair; Ortega-Sánchez, Miguel; 2018. The Role of Wave Energy Converter Farms in Coastal Protection. In: (eds.)Thermodynamics and Morphodynamics in Wave Energy.. 87–104.
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2018Delft3D
XBeach
Model application 0
Haanhout, Bas; Luijendijk, Arjen; De Vries, Sierd; 2018. HOW TIDES AND WAVES ENHANCE AEOLIAN SEDIMENT TRANSPORT AT THE SAND MOTOR MEGA NOURISHMENT. Coastal Engineering Proceedings, , 74. 10.9753/icce.v36.sediment.74
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2018AeoLiS
Delft3D
XBeach
Model application 0
van Ormondt, Maarten; Nelson, Timothy R.; Hapke, Cheryl J.; Roelvink, Dano; 2020. Morphodynamic modelling of the wilderness breach, Fire Island, New York. Part I: Model set-up and validation. Coastal Engineering, 157, 103621. 10.1016/j.coastaleng.2019.103621
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2020Delft3D
XBeach
Model application 1
Parodi, Matteo U.; Giardino, Alessio; van Dongeren, Ap; 2019. Uncertainties in Coastal Flood Risk Assessments in Small Island Developing States. .
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2019Delft3D
SFINCS
XBeach
Model application 0
Yin, K.; Xu, S.; Huang, W.; Li, R.; Xiao, H.; 2019. Modeling beach profile changes by typhoon impacts at Xiamen coast. Natural Hazards, 95, 783–804. 10.1007/s11069-018-3520-8
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2019Delft3D
SWAN
XBeach
Model application 0
Roham, B.; Dastgheib, A.; Roelvink, D.; Barry, D.A.; 2016. Impacts of wave and tidal forcing on 3D nearshore processes on natural beaches. Part I: Flow and turbulence fields. Ocean Systems Engineering, 6, 23–60. 10.12989/OSE.2016.6.1.023
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2016Delft3D
XBeach
Model application 1
Bakhtyar, R.; Dastgheib, A.; Roelvink, D.; Barry, D.A.; 2016. Impacts of wave and tidal forcing on 3D nearshore processes on natural beaches. Part II: Sediment transport. Ocean Systems Engineering, 6, 61–97. 10.12989/OSE.2016.6.1.061
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2016Delft3D
XBeach
Model application 0
Trouw, Koen Jacobus Martha; Zimmermann, Nicolas; Mathys, Mieke; Delgado, Rosalia; Roelvink, Dano; 2012. NUMERICAL MODELLING OF HYDRODYNAMICS AND SEDIMENT TRANSPORT IN THE SURF ZONE : A SENSITIVITY STUDY WITH DIFFERENT TYPES OF NUMERICAL MODELS. Coastal Engineering Proceedings, 1, 23. 10.9753/icce.v33.sediment.23
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2012Delft3D
XBeach
Model application 2
Blossier, Brice; Brière, Christophe; Roelvink, J.A.; Walstra, D.J.R.; 2012. CHARACTERIZATION OF PROCESSES INVOLVED IN THE RESET OF A SUBTIDAL BAR. Coastal Engineering Proceedings, 1, 101. 10.9753/icce.v33.sediment.101
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2012Delft3D
XBeach
Model application 1
Johnson, Cody; Chen, Qin; 2018. MORPHOLOGICAL MODELING OF LOW-DUNE BARRIER HEADLAND SYSTEM CHANGES DUE TO HURRICANE FORCING. Coastal Engineering Proceedings, , 43. 10.9753/icce.v36.sediment.43
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2018Delft3D
XBeach
Model application 0
Chu, Philip Y.; Jacobs, Gregg A.; Cambazoglu, M. Kemal; Linzell, Robert S.; 2012. Multi-Model Validation of Currents in the Chesapeake Bay Region in June 2010. Marine Geodesy, 35, 399–428. 10.1080/01490419.2012.709477
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2012ADCIRC
Delft3D
Model application 1
Sharif Ahmadian, Amir; 2016. Existing Simulation and Design Tools. In: (eds.)Numerical Models for Submerged Breakwaters.. 145–166.
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2016ADCIRC
Delft3D
Model application 0
L.M., Merckelbach; Winterwerp, J.C; 2007. A semi-analytical model for confined fluid mud flow in estuaries. In: (eds.)Proceedings in Marine Science.. 313–330.
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2007Delft3D
Model application 0
Burman, Anton J.; Andersson, Anders G.; Hellström, J. Gunnar I.; Angele, Kristian; 2020. Case Study of Transient Dynamics in a Bypass Reach. Water, 12, 1585. 10.3390/w12061585
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2020Delft3D
Model application 0
Zhang, Changkuan; Tang, Hongwu; Meng, Yongdong; Xu, Weiya; Wang, Linwei; 2009. Analysis of Water Hazard Caused by Huashiban Landslide on Tiger Leaping Gorge. In: (eds.)Advances in Water Resources and Hydraulic Engineering.. 1912–1917.
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2009Delft3D
Model application 0
Platzek, F. W.; 2017. Accuracy and efficiency in numerical river modelling: Investigating the large effects of seemingly small numerical choices. , , . 10.4233/uuid:284c6349-3abf-4400-abfc-748cbc060ae0
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2017Delft3D
Model application 0
Lesser, G.R.; Roelvink, J.A.; van Kester, J.A.T.M.; Stelling, G.S.; 2004. Development and validation of a three-dimensional morphological model. Coastal Engineering, 51, 883–915. 10.1016/j.coastaleng.2004.07.014
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2004Delft3D
Model application 1034
Hu, Kelin; Ding, Pingxing; Wang, Zhengbing; Yang, Shilun; 2009. A 2D/3D hydrodynamic and sediment transport model for the Yangtze Estuary, China. Journal of Marine Systems, 77, 114–136. 10.1016/j.jmarsys.2008.11.014
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2009Delft3D
Model application 135
Edmonds, D. A.; Slingerland, R. L.; 2007. Mechanics of river mouth bar formation: Implications for the morphodynamics of delta distributary networks. Journal of Geophysical Research, 112, F02034. 10.1029/2006JF000574
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2007Delft3D
Model application 178
Vousdoukas, Michalis I.; Voukouvalas, Evangelos; Annunziato, Alessandro; Giardino, Alessio; Feyen, Luc; 2016. Projections of extreme storm surge levels along Europe. Climate Dynamics, 47, 3171–3190. 10.1007/s00382-016-3019-5
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2016Delft3D
Model application 91
Schuurman, Filip; Marra, Wouter A.; Kleinhans, Maarten G.; 2013. Physics-based modeling of large braided sand-bed rivers: Bar pattern formation, dynamics, and sensitivity: BRAIDED RIVER MODELING. Journal of Geophysical Research: Earth Surface, 118, 2509–2527. 10.1002/2013JF002896
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2013Delft3D
Model application 89
Kernkamp, Herman W. J.; Van Dam, Arthur; Stelling, Guus S.; de Goede, Erik D.; 2011. Efficient scheme for the shallow water equations on unstructured grids with application to the Continental Shelf. Ocean Dynamics, 61, 1175–1188. 10.1007/s10236-011-0423-6
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2011Delft3D
Model application 63
Hu, Kelin; Chen, Qin; Wang, Hongqing; 2015. A numerical study of vegetation impact on reducing storm surge by wetlands in a semi-enclosed estuary. Coastal Engineering, 95, 66–76. 10.1016/j.coastaleng.2014.09.008
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2015Delft3D
Model application 56
van Dongeren, A.; Battjes, J.; Janssen, T.; van Noorloos, J.; Steenhauer, K.; Steenbergen, G.; Reniers, A.; 2007. Shoaling and shoreline dissipation of low-frequency waves. Journal of Geophysical Research, 112, C02011. 10.1029/2006JC003701
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2007Delft3D
Model application 103
Elias, Edwin P. L.; Gelfenbaum, Guy; Van der Westhuysen, André J.; 2012. Validation of a coupled wave-flow model in a high-energy setting: The mouth of the Columbia River: MCR WAVE-FLOW MODEL. Journal of Geophysical Research: Oceans, 117, n/a–n/a. 10.1029/2012JC008105
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2012Delft3D
Model application 64
van Duin, M.J.P.; Wiersma, N.R.; Walstra, D.J.R.; van Rijn, L.C.; Stive, M.J.F.; 2004. Nourishing the shoreface: observations and hindcasting of the Egmond case, The Netherlands. Coastal Engineering, 51, 813–837. 10.1016/j.coastaleng.2004.07.011
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2004Delft3D
Model application 90
Ranasinghe, Roshanka; Swinkels, Cilia; Luijendijk, Arjen; Roelvink, Dano; Bosboom, Judith; Stive, Marcel; Walstra, DirkJan; 2011. Morphodynamic upscaling with the MORFAC approach: Dependencies and sensitivities. Coastal Engineering, 58, 806–811. 10.1016/j.coastaleng.2011.03.010
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2011Delft3D
Model application 86
Nienhuis, Jaap H.; Ashton, Andrew D.; Nardin, William; Fagherazzi, Sergio; Giosan, Liviu; 2016. Alongshore sediment bypassing as a control on river mouth morphodynamics: LITTORAL BYPASSING. Journal of Geophysical Research: Earth Surface, 121, 664–683. 10.1002/2015JF003780
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2016Delft3D
Model application 30
Chanudet, Vincent; Fabre, Violaine; van der Kaaij, Theo; 2012. Application of a three-dimensional hydrodynamic model to the Nam Theun 2 Reservoir (Lao PDR). Journal of Great Lakes Research, 38, 260–269. 10.1016/j.jglr.2012.01.008
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2012Delft3D
Model application 31
Luijendijk, Arjen P.; Ranasinghe, Roshanka; de Schipper, Matthieu A.; Huisman, Bas A.; Swinkels, Cilia M.; Walstra, Dirk J.R.; Stive, Marcel J.F.; 2017. The initial morphological response of the Sand Engine: A process-based modelling study. Coastal Engineering, 119, 1–14. 10.1016/j.coastaleng.2016.09.005
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2017Delft3D
Model application 33
Wang, Yebao; Zheng, Xiangyang; Yu, Xiang; Liu, Xin; 2017. Temperature and salinity effects in modeling the trajectory of the 2011 Penglai 19-3 oil spill. Marine Georesources & Geotechnology, 35, 946–953. 10.1080/1064119X.2016.1261971
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2017Delft3D
Model application 3
Koşucu, Mehmet; Demirel, Mehmet; Kirca, V.S.; Özger, Mehmet; 2019. Hydrodynamic and Hydrographic Modeling of Istanbul Strait. Processes, 7, 710. 10.3390/pr7100710
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2019Delft3D
Model application 1
Nienhuis, Jaap H.; Ashton, Andrew D.; 2016. Mechanics and rates of tidal inlet migration: Modeling and application to natural examples: Inlet Migration. Journal of Geophysical Research: Earth Surface, 121, 2118–2139. 10.1002/2016JF004035
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2016Delft3D
Model application 13
van der Wegen, M.; Jaffe, B. E.; Roelvink, J. A.; 2011. Process-based, morphodynamic hindcast of decadal deposition patterns in San Pablo Bay, California, 1856-1887: MORPHODYNAMIC HINDCAST IN SAN PABLO BAY. Journal of Geophysical Research: Earth Surface, 116, . 10.1029/2009JF001614
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2011Delft3D
Model application 64
Xie, Dongfeng; Wang, Zhengbing; Gao, Shu; De Vriend, H.J.; 2009. Modeling the tidal channel morphodynamics in a macro-tidal embayment, Hangzhou Bay, China. Continental Shelf Research, 29, 1757–1767. 10.1016/j.csr.2009.03.009
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2009Delft3D
Model application 83
Grunnet, Nicholas M.; Walstra, Dirk-Jan R.; Ruessink, B.G.; 2004. Process-based modelling of a shoreface nourishment. Coastal Engineering, 51, 581–607. 10.1016/j.coastaleng.2004.07.016
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2004Delft3D
Model application 69
Elias, E.P.L.; Cleveringa, J.; Buijsman, M.C.; Roelvink, J.A.; Stive, M.J.F.; 2006. Field and model data analysis of sand transport patterns in Texel Tidal inlet (the Netherlands). Coastal Engineering, 53, 505–529. 10.1016/j.coastaleng.2005.11.006
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2006Delft3D
Model application 64
Williams, R. D.; Measures, R.; Hicks, D. M.; Brasington, J.; 2016. Assessment of a numerical model to reproduce event-scale erosion and deposition distributions in a braided river: ASSESSMENT OF A BRAIDED RIVER NUMERICAL MODEL. Water Resources Research, 52, 6621–6642. 10.1002/2015WR018491
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2016Delft3D
Model application 29
Dissanayake, D.M.P.K.; Roelvink, J.A.; van der Wegen, M.; 2009. Modelled channel patterns in a schematized tidal inlet. Coastal Engineering, 56, 1069–1083. 10.1016/j.coastaleng.2009.08.008
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2009Delft3D
Model application 67
Caldwell, Rebecca L.; Edmonds, Douglas A.; 2014. The effects of sediment properties on deltaic processes and morphologies: A numerical modeling study. Journal of Geophysical Research: Earth Surface, 119, 961–982. 10.1002/2013JF002965
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2014Delft3D
Model application 55
Achete, Fernanda; van der Wegen, Mick; Roelvink, Jan Adriaan; Jaffe, Bruce; 2017. How can climate change and engineered water conveyance affect sediment dynamics in the San Francisco Bay-Delta system?. Climatic Change, 142, 375–389. 10.1007/s10584-017-1954-8
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2017Delft3D
Model application 4
Marciano, Raffaele; 2005. Modeling of channel patterns in short tidal basins. Journal of Geophysical Research, 110, F01001. 10.1029/2003JF000092
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2005Delft3D
Model application 96
Guo, L.; van der Wegen, M.; Roelvink, J. A.; He, Q.; 2014. The role of river flow and tidal asymmetry on 1-D estuarine morphodynamics: Estuarine Morphodynamics. Journal of Geophysical Research: Earth Surface, 119, 2315–2334. 10.1002/2014JF003110
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2014Delft3D
Model application 55
Razmi, A. M.; Barry, D. A.; Lemmin, U.; Bonvin, F.; Kohn, T.; Bakhtyar, R.; 2014. Direct effects of dominant winds on residence and travel times in the wide and open lacustrine embayment: Vidy Bay (Lake Geneva, Switzerland). Aquatic Sciences, 76, 59–71. 10.1007/s00027-013-0321-8
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2014Delft3D
Model application 26
Leonardi, Nicoletta; Canestrelli, Alberto; Sun, Tao; Fagherazzi, Sergio; 2013. Effect of tides on mouth bar morphology and hydrodynamics: Effect of Tides on Mouth Bar. Journal of Geophysical Research: Oceans, 118, 4169–4183. 10.1002/jgrc.20302
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2013Delft3D
Model application 50
van der Wegen, M.; Roelvink, J.A.; 2012. Reproduction of estuarine bathymetry by means of a process-based model: Western Scheldt case study, the Netherlands. Geomorphology, 179, 152–167. 10.1016/j.geomorph.2012.08.007
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2012Delft3D
Model application 61
Apotsos, Alex; Gelfenbaum, Guy; Jaffe, Bruce; 2011. Process-based modeling of tsunami inundation and sediment transport: PROCESSED-BASED TSUNAMI MODELING. Journal of Geophysical Research: Earth Surface, 116, n/a–n/a. 10.1029/2010JF001797
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2011Delft3D
Model application 44
Morelissen, Robin; van der Kaaij, Theo; Bleninger, Tobias; 2013. Dynamic coupling of near field and far field models for simulating effluent discharges. Water Science and Technology, 67, 2210–2220. 10.2166/wst.2013.081
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2013Delft3D
Model application 12
Martyr-Koller, R.C.; Kernkamp, H.W.J.; van Dam, A.; van der Wegen, M.; Lucas, L.V.; Knowles, N.; Jaffe, B.; Fregoso, T.A.; 2017. Application of an unstructured 3D finite volume numerical model to flows and salinity dynamics in the San Francisco Bay-Delta. Estuarine, Coastal and Shelf Science, 192, 86–107. 10.1016/j.ecss.2017.04.024
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2017Delft3D
Model application 17
Dissanayake, D. M. P. K.; Ranasinghe, R.; Roelvink, J. A.; 2012. The morphological response of large tidal inlet/basin systems to relative sea level rise. Climatic Change, 113, 253–276. 10.1007/s10584-012-0402-z
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2012Delft3D
Model application 53
Sloff, Kees; Van Spijk, Ary; Stouthamer, Esther; Sieben, Arjan; 2013. Understanding and managing the morphology of branches incising into sand-clay deposits in the Dutch Rhine Delta. International Journal of Sediment Research, 28, 127–138. 10.1016/S1001-6279(13)60025-6
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2013Delft3D
Model application 8
Williams, R. D.; Brasington, J.; Hicks, M.; Measures, R.; Rennie, C. D.; Vericat, D.; 2013. Hydraulic validation of two-dimensional simulations of braided river flow with spatially continuous aDcp data: TWO-DIMENSIONAL SIMULATION OF BRAIDED RIVER FLOW. Water Resources Research, 49, 5183–5205. 10.1002/wrcr.20391
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2013Delft3D
Model application 57
Edmonds, D. A.; Slingerland, R. L.; 2008. Stability of delta distributary networks and their bifurcations: STABILITY OF DELTAIC BIFURCATIONS. Water Resources Research, 44, . 10.1029/2008WR006992
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2008Delft3D
Model application 71
Van Veen, B.A.D.; Vatvani, D.; Zijl, F.; 2014. Tsunami flood modelling for Aceh & west Sumatra and its application for an early warning system. Continental Shelf Research, 79, 46–53. 10.1016/j.csr.2012.08.020
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2014Delft3D
Model application 15
Soulignac, Frédéric; Vinçon-Leite, Brigitte; Lemaire, Bruno J.; Scarati Martins, José R.; Bonhomme, Céline; Dubois, Philippe; Mezemate, Yacine; Tchiguirinskaia, Ioulia; Schertzer, Daniel; Tassin, Bruno; 2017. Performance Assessment of a 3D Hydrodynamic Model Using High Temporal Resolution Measurements in a Shallow Urban Lake. Environmental Modeling & Assessment, 22, 309–322. 10.1007/s10666-017-9548-4
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2017Delft3D
Model application 11
Chen, Qiuwen; Mynett, Arthur E.; 2006. Modelling algal blooms in the Dutch coastal waters by integrated numerical and fuzzy cellular automata approaches. Ecological Modelling, 199, 73–81. 10.1016/j.ecolmodel.2006.06.014
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2006Delft3D
Model application 36
Grady, A. E.; Moore, L. J.; Storlazzi, C. D.; Elias, E.; Reidenbach, M. A.; 2013. The influence of sea level rise and changes in fringing reef morphology on gradients in alongshore sediment transport: DEGRADING REEFS INFLUENCE LST GRADIENTS. Geophysical Research Letters, 40, 3096–3101. 10.1002/grl.50577
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2013Delft3D
Model application 34
Morelissen, R.; Bijlsma, A.C.; Tapley, M.J.; 2010. A dedicated tidal stream atlas of the stratified tidal flows near Stonecutters Bridge, Hong Kong, based on 3D numerical simulations with HLES. Journal of Hydro-environment Research, 3, 224–231. 10.1016/j.jher.2009.10.007
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2010Delft3D
Model application 5
Nardin, W.; Mariotti, G.; Edmonds, D. A.; Guercio, R.; Fagherazzi, S.; 2013. Growth of river mouth bars in sheltered bays in the presence of frontal waves: GROWTH AND EVOLUTION OF RIVER MOUTH BARS. Journal of Geophysical Research: Earth Surface, 118, 872–886. 10.1002/jgrf.20057
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2013Delft3D
Model application 30
Carrivick, Jonathan L.; Manville, Vern; Cronin, Shane J.; 2009. A fluid dynamics approach to modelling the 18th March 2007 lahar at Mt. Ruapehu, New Zealand. Bulletin of Volcanology, 71, 153–169. 10.1007/s00445-008-0213-2
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2009Delft3D
Model application 60
Veeramony, Jayaram; Orzech, Mark; Edwards, Kacey; Gilligan, Michael; Choi, Jeikook; Terrill, Eric; De Paolo, Tony; 2014. Navy Nearshore Ocean Prediction Systems. Oceanography, 27, 80–91. 10.5670/oceanog.2014.70
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2014Delft3D
Model application 4
Nardin, William; Larsen, Laurel; Fagherazzi, Sergio; Wiberg, Patricia; 2018. Tradeoffs among hydrodynamics, sediment fluxes and vegetation community in the Virginia Coast Reserve, USA. Estuarine, Coastal and Shelf Science, 210, 98–108. 10.1016/j.ecss.2018.06.009
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2018Delft3D
Model application 9
Wegen, Mick; Dastgheib, Ali; Jaffe, Bruce E.; Roelvink, Dano; 2011. Bed composition generation for morphodynamic modeling: case study of San Pablo Bay in California, USA. Ocean Dynamics, 61, 173–186. 10.1007/s10236-010-0314-2
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2011Delft3D
Model application 42
Nardin, William; Fagherazzi, Sergio; 2012. The effect of wind waves on the development of river mouth bars: EFFECT OF WIND WAVES ON RIVER MOUTH BARS. Geophysical Research Letters, 39, n/a–n/a. 10.1029/2012GL051788
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2012Delft3D
SWAN
Model application 43
Morgan, Jacob A.; Kumar, Nirnimesh; Horner-Devine, Alexander R.; Ahrendt, Shelby; Istanbullouglu, Erkan; Bandaragoda, Christina; 2020. The use of a morphological acceleration factor in the simulation of large-scale fluvial morphodynamics. Geomorphology, 356, 107088. 10.1016/j.geomorph.2020.107088
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2020Delft3D
Model application 0
van Dijk, W. M.; Hiatt, M. R.; van der Werf, J. J.; Kleinhans, M. G.; 2019. Effects of Shoal Margin Collapses on the Morphodynamics of a Sandy Estuary. Journal of Geophysical Research: Earth Surface, 124, 195–215. 10.1029/2018JF004763
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2019Delft3D
Model application 7
Reynolds, Michelle H.; Courtot, Karen N.; Berkowitz, Paul; Storlazzi, Curt D.; Moore, Janet; Flint, Elizabeth; Quillfeldt, Petra; 2015. Will the Effects of Sea-Level Rise Create Ecological Traps for Pacific Island Seabirds?. PLOS ONE, 10, e0136773. 10.1371/journal.pone.0136773
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2015Delft3D
Model application 19
May, S. M.; Engel, M.; Brill, D.; Cuadra, C.; Lagmay, A. M. F.; Santiago, J.; Suarez, J. K.; Reyes, M.; Brückner, H.; 2015. Block and boulder transport in Eastern Samar (Philippines) during Supertyphoon Haiyan. Earth Surface Dynamics, 3, 543–558. 10.5194/esurf-3-543-2015
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2015Delft3D
Model application 40
, ; 2016. Identifying Coastal Defence Schemes through Morphodynamic Numerical Simulations along the Northern Coast of Yucatan, Mexico. Journal of Coastal Research, 32, 651. 10.2112/JCOASTRES-D-15-00009.1
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2016Delft3D
Model application 11
Soulignac, Frédéric; Danis, Pierre-Alain; Bouffard, Damien; Chanudet, Vincent; Dambrine, Etienne; Guénand, Yann; Harmel, Tristan; Ibelings, Bastiaan W.; Trevisan, Dominique; Uittenbogaard, Rob; Anneville, Orlane; 2018. Using 3D modeling and remote sensing capabilities for a better understanding of spatio-temporal heterogeneities of phytoplankton abundance in large lakes. Journal of Great Lakes Research, 44, 756–764. 10.1016/j.jglr.2018.05.008
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2018Delft3D
Model application 9
van Maren, Dirk S.; Winterwerp, Johan C.; Vroom, Julia; 2015. Fine sediment transport into the hyper-turbid lower Ems River: the role of channel deepening and sediment-induced drag reduction. Ocean Dynamics, 65, 589–605. 10.1007/s10236-015-0821-2
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2015Delft3D
Model application 27
Al-enezi, Eqbal; Al-dousari, Ali; Al-shammari, Fatema; 2014. Modeling adsorption of inorganic phosphorus on dust fallout in Kuwait bay. Journal of Engineering Research, 2, 1. 10.7603/s40632-014-0001-4
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2014Delft3D
Model application 19
Yu, Qian; Wang, Yunwei; Gao, Shu; Flemming, Burg; 2012. Modeling the formation of a sand bar within a large funnel-shaped, tide-dominated estuary: Qiantangjiang Estuary, China. Marine Geology, 299, 63–76. 10.1016/j.margeo.2011.12.008
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2012Delft3D
Model application 35
Kuang, Cuiping; Liu, Xu; Gu, Jie; Guo, Yakun; Huang, Shichang; Liu, Shuguang; Yu, Weiwei; Huang, Jing; Sun, Bo; 2013. Numerical prediction of medium-term tidal flat evolution in the Yangtze Estuary: Impacts of the Three Gorges project. Continental Shelf Research, 52, 12–26. 10.1016/j.csr.2012.10.006
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2013Delft3D
Model application 30
Borsje, Bas W.; de Vries, Mindert B.; Hulscher, Suzanne J.M.H.; de Boer, G.J.; 2008. Modeling large-scale cohesive sediment transport affected by small-scale biological activity. Estuarine, Coastal and Shelf Science, 78, 468–480. 10.1016/j.ecss.2008.01.009
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2008Delft3D
Model application 52
Gelfenbaum, Guy; Apotsos, Alex; Stevens, Andrew W.; Jaffe, Bruce; 2011. Effects of fringing reefs on tsunami inundation: American Samoa. Earth-Science Reviews, 107, 12–22. 10.1016/j.earscirev.2010.12.005
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2011Delft3D
Model application 46
Rossi, Valentina Marzia; Kim, Wonsuck; Leva López, Julio; Edmonds, Douglas; Geleynse, Nathanael; Olariu, Cornel; Steel, Ronald J.; Hiatt, Matthew; Passalacqua, Paola; 2016. Impact of tidal currents on delta-channel deepening, stratigraphic architecture, and sediment bypass beyond the shoreline. Geology, 44, 927–930. 10.1130/G38334.1
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2016Delft3D
Model application 23
van Rijn, L.C.; Tonnon, P.K.; Walstra, D.J.R.; 2011. Numerical modelling of erosion and accretion of plane sloping beaches at different scales. Coastal Engineering, 58, 637–655. 10.1016/j.coastaleng.2011.01.009
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2011Delft3D
Model application 30
Nnafie, A.; Van Oyen, T.; De Maerschalck, B.; van der Vegt, M.; Wegen, M. van der; 2018. Estuarine Channel Evolution in Response to Closure of Secondary Basins: An Observational and Morphodynamic Modeling Study of the Western Scheldt Estuary: EFFECTS OF SECONDARY BASINS ON CHANNELS. Journal of Geophysical Research: Earth Surface, 123, 167–186. 10.1002/2017JF004364
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2018Delft3D
Model application 6
Braat, Lisanne; van Kessel, Thijs; Leuven, Jasper R. F. W.; Kleinhans, Maarten G.; 2017. Effects of mud supply on large-scale estuary morphology and development over centuries to millennia. Earth Surface Dynamics, 5, 617–652. 10.5194/esurf-5-617-2017
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2017Delft3D
Model application 23
Sandbach, S.D.; Nicholas, A.P.; Ashworth, P.J.; Best, J.L.; Keevil, C.E.; Parsons, D.R.; Prokocki, E.W.; Simpson, C.J.; 2018. Hydrodynamic modelling of tidal-fluvial flows in a large river estuary. Estuarine, Coastal and Shelf Science, 212, 176–188. 10.1016/j.ecss.2018.06.023
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2018Delft3D
Model application 9
Geleynse, N.; Hiatt, M.; Sangireddy, H.; Passalacqua, P.; 2015. Identifying environmental controls on the shoreline of a natural river delta: CONTROLS ON A RIVER DELTA SHORELINE. Journal of Geophysical Research: Earth Surface, 120, 877–893. 10.1002/2014JF003408
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2015Delft3D
Model application 19
Horstman, E.M.; Dohmen-Janssen, C.M.; Bouma, T.J.; Hulscher, S.J.M.H.; 2015. Tidal-scale flow routing and sedimentation in mangrove forests: Combining field data and numerical modelling. Geomorphology, 228, 244–262. 10.1016/j.geomorph.2014.08.011
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2015Delft3D
Model application 37
Meutia, Asrita; Al’ala, Musa; Fahmi, Mirza; Meilianda, Ella; 2017. Numerical Simulations of Impacts of the 2004 Indian Ocean Tsunami on Coastal Morphological Changes Around the Ulee Lheue Bay of Aceh, Indonesia. Journal of Earthquake and Tsunami, 11, 1740005. 10.1142/S179343111740005X
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2017Delft3D
Model application 7
Hibler, L. F.; Maxwell, A. R.; Miller, L. M.; Kohn, N. P.; Woodruff, D. L.; Montes, M. J.; Bowles, J. H.; Moline, M. A.; 2008. Improved fine-scale transport model performance using AUV and HSI feedback in a tidally dominated system. Journal of Geophysical Research, 113, C08036. 10.1029/2008JC004739
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2008Delft3D
Model application 10
Bleninger, Tobias; 2007. Coupled 3D hydrodynamic models for submarine outfalls. Denvironmental hydraulic design and control of multiport diffusers. , , . 10.5445/KSP/1000006668
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2007Delft3D
Model application 21
Ferreira, J.G.; Saurel, C.; Lencart e Silva, J.D.; Nunes, J.P.; Vazquez, F.; 2014. Modelling of interactions between inshore and offshore aquaculture. Aquaculture, 426, 154–164. 10.1016/j.aquaculture.2014.01.030
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2014Delft3D
Model application 39
Razmi, A.M.; Barry, D.A.; Bakhtyar, R.; Le Dantec, N.; Dastgheib, A.; Lemmin, U.; Wüest, A.; 2013. Current variability in a wide and open lacustrine embayment in Lake Geneva (Switzerland). Journal of Great Lakes Research, 39, 455–465. 10.1016/j.jglr.2013.06.011
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2013Delft3D
Model application 22
Guo, Leicheng; van der Wegen, Mick; Roelvink, Dano (J.A.); Wang, Zheng Bing; He, Qing; 2015. Long-term, process-based morphodynamic modeling of a fluvio-deltaic system, part I: The role of river discharge. Continental Shelf Research, 109, 95–111. 10.1016/j.csr.2015.09.002
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2015Delft3D
Model application 19
Sah, Leena; Rousseau, Diederik P.L.; Hooijmans, Christine M.; Lens, Piet N.L.; 2011. 3D model for a secondary facultative pond. Ecological Modelling, 222, 1592–1603. 10.1016/j.ecolmodel.2011.02.021
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2011Delft3D
Model application 39
Luan, Hua Long; Ding, Ping Xing; Wang, Zheng Bing; Ge, Jian Zhong; 2017. Process-based morphodynamic modeling of the Yangtze Estuary at a decadal timescale: Controls on estuarine evolution and future trends. Geomorphology, 290, 347–364. 10.1016/j.geomorph.2017.04.016
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2017Delft3D
Model application 25
Apotsos, Alex; Buckley, Mark; Gelfenbaum, Guy; Jaffe, Bruce; Vatvani, Deepak; 2011. Nearshore Tsunami Inundation Model Validation: Toward Sediment Transport Applications. Pure and Applied Geophysics, 168, 2097–2119. 10.1007/s00024-011-0291-5
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2011Delft3D
Model application 38
Eulie, Devon O.; Walsh, J. P.; Corbett, D. Reide; Mulligan, Ryan P.; 2017. Temporal and Spatial Dynamics of Estuarine Shoreline Change in the Albemarle-Pamlico Estuarine System, North Carolina, USA. Estuaries and Coasts, 40, 741–757. 10.1007/s12237-016-0143-8
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2017Delft3D
Model application 9
Willemsen, P.W.J.M.; Horstman, E.M.; Borsje, B.W.; Friess, D.A.; Dohmen-Janssen, C.M.; 2016. Sensitivity of the sediment trapping capacity of an estuarine mangrove forest. Geomorphology, 273, 189–201. 10.1016/j.geomorph.2016.07.038
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2016Delft3D
Model application 18
Twigt, Daniel J.; De Goede, Erik D.; Zijl, Firmijn; Schwanenberg, Dirk; Chiu, Alex Y. W.; 2009. Coupled 1D–3D hydrodynamic modelling, with application to the Pearl River Delta. Ocean Dynamics, 59, 1077–1093. 10.1007/s10236-009-0229-y
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2009Delft3D
Model application 30
Galelli, S.; Castelletti, A.; Goedbloed, A.; 2015. High‐ P erformance I ntegrated C ontrol of water quality and quantity in urban water reservoirs. Water Resources Research, 51, 9053–9072. 10.1002/2015WR017595
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2015Delft3D
Model application 5
Marino-Tapia, Ismael; Silva, Rodolfo; Enriquez, Cecilia; Mendoza-Baldwin, Edgar; Escalante-Mancera, Edgar; Ruiz-Rentería, Francisco; 2011. WAVE TRANSFORMATION AND WAVE-DRIVEN CIRCULATION ON NATURAL REEFS UNDER EXTREME HURRICANE CONDITIONS. Coastal Engineering Proceedings, 1, 28. 10.9753/icce.v32.waves.28
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2011Delft3D
Model application 12
Tonnon, P.K.; van Rijn, L.C.; Walstra, D.J.R.; 2007. The morphodynamic modelling of tidal sand waves on the shoreface. Coastal Engineering, 54, 279–296. 10.1016/j.coastaleng.2006.08.005
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2007Delft3D
Model application 38
Lyddon, Charlotte; Brown, Jenny M.; Leonardi, Nicoletta; Plater, Andrew J.; Magar, Vanesa; 2018. Uncertainty in estuarine extreme water level predictions due to surge-tide interaction. PLOS ONE, 13, e0206200. 10.1371/journal.pone.0206200
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2018Delft3D
Model application 9
Williams, Richard D.; Brasington, James; Hicks, D. Murray; 2016. Numerical Modelling of Braided River Morphodynamics: Review and Future Challenges: Modelling Braided River Morphodynamics. Geography Compass, 10, 102–127. 10.1111/gec3.12260
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2016Delft3D
Model application 27
Li, Zhijie; Chen, Qiuwen; Xu, Qiang; 2015. Modeling algae dynamics in Meiliang Bay of Taihu Lake and parameter sensitivity analysis. Journal of Hydro-environment Research, 9, 216–225. 10.1016/j.jher.2014.10.001
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2015Delft3D
Model application 11
Nijhuis, A.G.; Edmonds, D.A.; Caldwell, R.L.; Cederberg, J.A.; Slingerland, R.L.; Best, J.L.; Parsons, D.R.; Robinson, R.A.J.; 2015. Fluvio-deltaic avulsions during relative sea-level fall. Geology, 43, 719–722. 10.1130/G36788.1
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2015Delft3D
Model application 12
Hibma, A.; Schuttelaars, H.M.; de Vriend, H.J.; 2004. Initial formation and long-term evolution of channel–shoal patterns. Continental Shelf Research, 24, 1637–1650. 10.1016/j.csr.2004.05.003
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2004Delft3D
Model application 47
Bastidas, Luis A.; Knighton, James; Kline, Shaun W.; 2016. Parameter sensitivity and uncertainty analysis for a storm surge and wave model. Natural Hazards and Earth System Sciences, 16, 2195–2210. 10.5194/nhess-16-2195-2016
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2016Delft3D
Model application 11
Abundo, Michael L. S.; Nerves, Allan C.; Ang, Ma. Rosario C. O.; Paringit, Enrico C.; Bernardo, Lawrence P. C.; Villanoy, Cesar L.; 2011. Energy potential metric for rapid macro-level resource assessment of tidal in-stream energy in the Philippines. . Volume .
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2011Delft3D
Model application 7
Bosboom, J.; Reniers, A. J. H. M.; 2014. Displacement-based error metrics for morphodynamic models. Advances in Geosciences, 39, 37–43. 10.5194/adgeo-39-37-2014
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2014Delft3D
Model application 7
Wang, Yuankun; Xia, Ziqiang; 2009. Assessing spawning ground hydraulic suitability for Chinese sturgeon (Acipenser sinensis) from horizontal mean vorticity in Yangtze River. Ecological Modelling, 220, 1443–1448. 10.1016/j.ecolmodel.2009.03.003
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2009Delft3D
Model application 24
Bolle, Annelies; Bing Wang, Zheng; Amos, Carl; De Ronde, John; 2010. The influence of changes in tidal asymmetry on residual sediment transport in the Western Scheldt. Continental Shelf Research, 30, 871–882. 10.1016/j.csr.2010.03.001
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2010Delft3D
Model application 29
Rodriguez-Delgado, Cristobal; Bergillos, Rafael J.; Ortega-Sánchez, Miguel; Iglesias, Gregorio; 2018. Protection of gravel-dominated coasts through wave farms: Layout and shoreline evolution. Science of The Total Environment, 636, 1541–1552. 10.1016/j.scitotenv.2018.04.333
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2018Delft3D
Model application 15
Hansen, Jeff E.; Raubenheimer, Britt; List, Jeffrey H.; Elgar, Steve; 2015. Modeled alongshore circulation and force balances onshore of a submarine canyon. Journal of Geophysical Research: Oceans, 120, 1887–1903. 10.1002/2014JC010555
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2015Delft3D
Model application 12
Mulder, Jan P.M.; Tonnon, Pieter Koen; 2011. “ SAND ENGINE “ : BACKGROUND AND DESIGN OF A MEGA-NOURISHMENT PILOT IN THE NETHERLANDS. Coastal Engineering Proceedings, 1, 35. 10.9753/icce.v32.management.35
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2011Delft3D
Model application 20
Lotsari, Eliisa S.; Calle, Mikel; Benito, Gerardo; Kukko, Antero; Kaartinen, Harri; Hyyppä, Juha; Hyyppä, Hannu; Alho, Petteri; 2018. Topographical change caused by moderate and small floods in a gravel bed ephemeral river – a depth-averaged morphodynamic simulation approach. Earth Surface Dynamics, 6, 163–185. 10.5194/esurf-6-163-2018
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2018Delft3D
Model application 6
Råman Vinnå, Love; Wüest, Alfred; Bouffard, Damien; 2017. Physical effects of thermal pollution in lakes: PHYSICAL EFFECTS OF THERMAL POLLUTION. Water Resources Research, 53, 3968–3987. 10.1002/2016WR019686
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2017Delft3D
Model application 14
Kuang, Cuiping; 2010. Simulation and analysis of COD distribution in Caofeidian sea area. . Volume .
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2010Delft3D
Model application 4
Hopkins, Julia; Elgar, Steve; Raubenheimer, Britt; 2018. Storm Impact on Morphological Evolution of a Sandy Inlet. Journal of Geophysical Research: Oceans, 123, 5751–5762. 10.1029/2017JC013708
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2018Delft3D
Model application 4
Jisan, Mansur Ali; Bao, Shaowu; Pietrafesa, Leonard J.; 2018. Ensemble projection of the sea level rise impact on storm surge and inundation at the coast of Bangladesh. Natural Hazards and Earth System Sciences, 18, 351–364. 10.5194/nhess-18-351-2018
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2018Delft3D
Model application 5
van Maren, D.S.; 2007. Grain size and sediment concentration effects on channel patterns of silt-laden rivers. Sedimentary Geology, 202, 297–316. 10.1016/j.sedgeo.2007.04.001
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2007Delft3D
Model application 36
Allard, Richard; Dykes, James; Hsu, Y.L.; Kaihatu, James; Conley, Daniel; 2008. A real-time nearshore wave and current prediction system. Journal of Marine Systems, 69, 37–58. 10.1016/j.jmarsys.2007.02.020
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2008Delft3D
Model application 30
Kim, Mujong; Son, Donghwi; Yoo, Jeseon; 2018. Analysis of Seasonal Morphodynamic Patterns using Delft3D in Anmok Coast. Korea Society of Coastal Disaster Prevention, 5, 183–192. 10.20481/kscdp.2018.5.4.183
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2018Delft3D
Model application 2
van der Wegen, Mick; Jaffe, Bruce; Foxgrover, Amy; Roelvink, Dano; 2017. Mudflat Morphodynamics and the Impact of Sea Level Rise in South San Francisco Bay. Estuaries and Coasts, 40, 37–49. 10.1007/s12237-016-0129-6
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2017Delft3D
Model application 17
Grenfell, M.C.; Nicholas, A.P.; Aalto, R.; 2014. Mediative adjustment of river dynamics: The role of chute channels in tropical sand-bed meandering rivers. Sedimentary Geology, 301, 93–106. 10.1016/j.sedgeo.2013.06.007
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2014Delft3D
Model application 22
Hoch, Jannis M.; van Beek, Rens; Winsemius, Hessel C.; Bierkens, Marc F.P.; 2018. Benchmarking flexible meshes and regular grids for large-scale fluvial inundation modelling. Advances in Water Resources, 121, 350–360. 10.1016/j.advwatres.2018.09.003
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2018Delft3D
Model application 7
Elmilady, H.; Wegen, M.; Roelvink, D.; Jaffe, B. E.; 2018. INTERTIDAL AREA DISAPPEARS UNDER SEA LEVEL RISE: 250 YEARS OF MORPHODYNAMIC MODELING IN SAN PABLO BAY, CALIFORNIA. Journal of Geophysical Research: Earth Surface, , 2018JF004857. 10.1029/2018JF004857
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2018Delft3D
Model application 8
Zheng, Xiangyang; Mayerle, Roberto; Wang, Yebao; Zhang, Hua; 2018. Study of the wind drag coefficient during the storm Xaver in the German Bight using data assimilation. Dynamics of Atmospheres and Oceans, 83, 64–74. 10.1016/j.dynatmoce.2018.06.001
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2018Delft3D
Model application 2
Lyddon, Charlotte; Brown, Jennifer M.; Leonardi, Nicoletta; Plater, Andrew J.; 2018. Flood Hazard Assessment for a Hyper-Tidal Estuary as a Function of Tide-Surge-Morphology Interaction. Estuaries and Coasts, 41, 1565–1586. 10.1007/s12237-018-0384-9
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2018Delft3D
Model application 12
Postma, Leo; Hervouet, Jean-Michel; 2007. Compatibility between finite volumes and finite elements using solutions of shallow water equations for substance transport. International Journal for Numerical Methods in Fluids, 53, 1495–1507. 10.1002/fld.1373
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2007Delft3D
Model application 15
Benedet, L.; List, J.H.; 2008. Evaluation of the physical process controlling beach changes adjacent to nearshore dredge pits. Coastal Engineering, 55, 1224–1236. 10.1016/j.coastaleng.2008.06.008
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2008Delft3D
Model application 25
Borsje, B. W.; Kranenburg, W. M.; Roos, P. C.; Matthieu, J.; Hulscher, S. J. M. H.; 2014. The role of suspended load transport in the occurrence of tidal sand waves. Journal of Geophysical Research: Earth Surface, 119, 701–716. 10.1002/2013JF002828
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2014Delft3D
Model application 13
Bryan, Karin R.; Nardin, William; Mullarney, Julia C.; Fagherazzi, Sergio; 2017. The role of cross-shore tidal dynamics in controlling intertidal sediment exchange in mangroves in Cù Lao Dung, Vietnam. Continental Shelf Research, 147, 128–143. 10.1016/j.csr.2017.06.014
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2017Delft3D
Model application 14
Hoch, Jannis M.; Neal, Jeffrey C.; Baart, Fedor; van Beek, Rens; Winsemius, Hessel C.; Bates, Paul D.; Bierkens, Marc F. P.; 2017. GLOFRIM v1.0 – A globally applicable computational framework for integrated hydrological–hydrodynamic modelling. Geoscientific Model Development, 10, 3913–3929. 10.5194/gmd-10-3913-2017
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2017Delft3D
Model application 11
Daly, Christopher J.; 2014. Wave energy distribution and morphological development in and around the shadow zone of an embayed beach. Coastal Engineering, 93, 40–54. 10.1016/j.coastaleng.2014.08.003
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2014Delft3D
Model application 21
Cacchione, David A.; Thorne, Peter D.; Agrawal, Yogesh; Nidzieko, Nicholas J.; 2008. Time-averaged near-bed suspended sediment concentrations under waves and currents: Comparison of measured and model estimates. Continental Shelf Research, 28, 470–484. 10.1016/j.csr.2007.10.006
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2008Delft3D
Model application 15
Mayerle, Roberto; Narayanan, Rangaswami; Etri, Talal; Abd Wahab, Ahmad Khairi; 2015. A case study of sediment transport in the Paranagua Estuary Complex in Brazil. Ocean Engineering, 106, 161–174. 10.1016/j.oceaneng.2015.06.025
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2015Delft3D
Model application 9
Gao, Weilun; Shao, Dongdong; Wang, Zheng Bing; Nardin, William; Rajput, Prateek; Yang, Wei; Sun, Tao; Cui, Baoshan; 2019. Long‐Term Cumulative Effects of Intra‐Annual Variability of Unsteady River Discharge on the Progradation of Delta Lobes: A Modeling Perspective. Journal of Geophysical Research: Earth Surface, 124, 960–973. 10.1029/2017JF004584
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2019Delft3D
Model application 2
van Leeuwen, B.; Augustijn, D.C.M.; van Wesenbeeck, B.K.; Hulscher, S.J.M.H.; de Vries, M.B.; 2010. Modeling the influence of a young mussel bed on fine sediment dynamics on an intertidal flat in the Wadden Sea. Ecological Engineering, 36, 145–153. 10.1016/j.ecoleng.2009.01.002
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2010Delft3D
Model application 37
Erftemeijer, Pla; van Beek, Jkl; Ochieng, Ca; Jager, Z; Los, Hj; 2008. Eelgrass seed dispersal via floating generative shoots in the Dutch Wadden Sea: a model approach. Marine Ecology Progress Series, 358, 115–124. 10.3354/meps07304
(View/edit entry)
2008Delft3D
Model application 44
Brown, Matthew M.; Mulligan, Ryan P.; Miller, Richard L.; 2014. Modeling the transport of freshwater and dissolved organic carbon in the Neuse River Estuary, NC, USA following Hurricane Irene (2011). Estuarine, Coastal and Shelf Science, 139, 148–158. 10.1016/j.ecss.2014.01.005
(View/edit entry)
2014Delft3D
Model application 23
Hu, Kelin; Chen, Qin; Wang, Hongqing; Hartig, Ellen K.; Orton, Philip M.; 2018. Numerical modeling of salt marsh morphological change induced by Hurricane Sandy. Coastal Engineering, 132, 63–81. 10.1016/j.coastaleng.2017.11.001
(View/edit entry)
2018Delft3D
Model application 12
de Mutsert, Kim; Lewis, Kristy; Milroy, Scott; Buszowski, Joe; Steenbeek, Jeroen; 2017. Using ecosystem modeling to evaluate trade-offs in coastal management: Effects of large-scale river diversions on fish and fisheries. Ecological Modelling, 360, 14–26. 10.1016/j.ecolmodel.2017.06.029
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2017Delft3D
Model application 13
Gebrehiwot, Kbrom Ambachew; Haile, Abraham Mehari; de Fraiture, Charlotte M. S.; Chukalla, Abebe Demissie; Embaye, Tesfa-alem G.; 2015. Optimizing Flood and Sediment Management of Spate Irrigation in Aba’ala Plains. Water Resources Management, 29, 833–847. 10.1007/s11269-014-0846-1
(View/edit entry)
2015Delft3D
Model application 10
van der Wegen, M.; Jaffe, B. E.; 2014. Processes governing decadal-scale depositional narrowing of the major tidal channel in San Pablo Bay, California, USA. Journal of Geophysical Research: Earth Surface, 119, 1136–1154. 10.1002/2013JF002824
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2014Delft3D
Model application 14
Kuang, C.P.; Huang, J.; Lee, Joseph H.W.; Gu, J.; 2013. Impact of Large-Scale Reclamation on Hydrodynamics and Flushing in Victoria Harbour, Hong Kong. Journal of Coastal Research, 291, 128–143. 10.2112/JCOASTRES-D-11-00153.1
(View/edit entry)
2013Delft3D
Model application 10
Best, Ü.S.N.; Van der Wegen, M.; Dijkstra, J.; Willemsen, P.W.J.M.; Borsje, B.W.; Roelvink, Dano J.A.; 2018. Do salt marshes survive sea level rise? Modelling wave action, morphodynamics and vegetation dynamics. Environmental Modelling & Software, 109, 152–166. 10.1016/j.envsoft.2018.08.004
(View/edit entry)
2018Delft3D
Model application 17
Madah, Fawaz; Mayerle, Roberto; Bruss, Gerd; Bento, Joaquim; 2015. Characteristics of Tides in the Red Sea Region, a Numerical Model Study. Open Journal of Marine Science, 5, 193–209. 10.4236/ojms.2015.52016
(View/edit entry)
2015Delft3D
Model application 16
Maan, D. C.; Prooijen, B. C.; Zhu, Q.; Wang, Z. B.; 2018. Morphodynamic Feedback Loops Control Stable Fringing Flats. Journal of Geophysical Research: Earth Surface, 123, 2993–3012. 10.1029/2018JF004659
(View/edit entry)
2018Delft3D
Model application 4
Zarzuelo, Carmen; Díez-Minguito, Manuel; Ortega-Sánchez, Miguel; López-Ruiz, Alejandro; Losada, Miguel Á.; 2015. Hydrodynamics response to planned human interventions in a highly altered embayment: The example of the Bay of Cádiz (Spain). Estuarine, Coastal and Shelf Science, 167, 75–85. 10.1016/j.ecss.2015.07.010
(View/edit entry)
2015Delft3D
Model application 19
Stronkhorst, Joost; Huisman, Bas; Giardino, Alessio; Santinelli, Giorgio; Santos, Filipe Duarte; 2018. Sand nourishment strategies to mitigate coastal erosion and sea level rise at the coasts of Holland (The Netherlands) and Aveiro (Portugal) in the 21st century. Ocean & Coastal Management, 156, 266–276. 10.1016/j.ocecoaman.2017.11.017
(View/edit entry)
2018Delft3D
Model application 14
Vieira da Silva, Guilherme; Toldo Jr., Elírio E.; Klein, Antonio H. da F.; Short, Andrew D.; 2018. The influence of wave-, wind- and tide-forced currents on headland sand bypassing – Study case: Santa Catarina Island north shore, Brazil. Geomorphology, 312, 1–11. 10.1016/j.geomorph.2018.03.026
(View/edit entry)
2018Delft3D
Model application 5
Xu, Cong; Zhang, Jingjie; Bi, Xiaowei; Xu, Zheng; He, Yiliang; Gin, Karina Yew-Hoong; 2017. Developing an integrated 3D-hydrodynamic and emerging contaminant model for assessing water quality in a Yangtze Estuary Reservoir. Chemosphere, 188, 218–230. 10.1016/j.chemosphere.2017.08.121
(View/edit entry)
2017Delft3D
Model application 8
Elhakeem, Abubaker; Elshorbagy, Walid; Bleninger, Tobias; 2015. Long-term hydrodynamic modeling of the Arabian Gulf. Marine Pollution Bulletin, 94, 19–36. 10.1016/j.marpolbul.2015.03.020
(View/edit entry)
2015Delft3D
Model application 16
Hansen, Jeff E.; Raubenheimer, Britt; Elgar, Steve; List, Jeffrey H.; Lippmann, Thomas C.; 2017. Physical linkages between an offshore canyon and surf zone morphologic change: SURF ZONE MORPHOLOGIC CHANGES. Journal of Geophysical Research: Oceans, 122, 3451–3460. 10.1002/2016JC012319
(View/edit entry)
2017Delft3D
Model application 2
Bosboom, J.; Reniers, A.J.H.M.; Luijendijk, A.P.; 2014. On the perception of morphodynamic model skill. Coastal Engineering, 94, 112–125. 10.1016/j.coastaleng.2014.08.008
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2014Delft3D
Model application 15
Achete, F. M.; van der Wegen, M.; Roelvink, D.; Jaffe, B.; 2015. A 2-D process-based model for suspended sediment dynamics: a first step towards ecological modeling. Hydrology and Earth System Sciences, 19, 2837–2857. 10.5194/hess-19-2837-2015
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2015Delft3D
Model application 15
Shanas, P.R.; Sanil Kumar, V.; 2014. Coastal processes and longshore sediment transport along Kundapura coast, central west coast of India. Geomorphology, 214, 436–451. 10.1016/j.geomorph.2014.02.027
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2014Delft3D
Model application 20
van Gerwen, W.; Borsje, B.W.; Damveld, J.H.; Hulscher, S.J.M.H.; 2018. Modelling the effect of suspended load transport and tidal asymmetry on the equilibrium tidal sand wave height. Coastal Engineering, 136, 56–64. 10.1016/j.coastaleng.2018.01.006
(View/edit entry)
2018Delft3D
Model application 8
Rahman, Anas; Venugopal, Vengatesan; 2017. Parametric analysis of three dimensional flow models applied to tidal energy sites in Scotland. Estuarine, Coastal and Shelf Science, 189, 17–32. 10.1016/j.ecss.2017.02.027
(View/edit entry)
2017Delft3D
Model application 3
Xing, F.; Meselhe, E.A.; Allison, M.A.; Weathers, H.D.; 2017. Analysis and numerical modeling of the flow and sand dynamics in the lower Song Hau channel, Mekong Delta. Continental Shelf Research, 147, 62–77. 10.1016/j.csr.2017.08.003
(View/edit entry)
2017Delft3D
Model application 13
Zhao, Fang; Huai, Wenxin; Li, Dan; 2017. Numerical modeling of open channel flow with suspended canopy. Advances in Water Resources, 105, 132–143. 10.1016/j.advwatres.2017.05.001
(View/edit entry)
2017Delft3D
Model application 12
Kuang, Cui-ping; Chen, Wei; Gu, Jie; He, Lu-lu; 2014. Comprehensive analysis on the sediment siltation in the upper reach of the deepwater navigation channel in the Yangtze Estuary. Journal of Hydrodynamics, 26, 299–308. 10.1016/S1001-6058(14)60033-0
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2014Delft3D
Model application 14
Straatsma, Menno W.; Kleinhans, Maarten G.; 2018. Flood hazard reduction from automatically applied landscaping measures in RiverScape, a Python package coupled to a two-dimensional flow model. Environmental Modelling & Software, 101, 102–116. 10.1016/j.envsoft.2017.12.010
(View/edit entry)
2018Delft3D
Model application 6
Le, T.B.; Crosato, A.; Uijttewaal, W.S.J.; 2018. Long-term morphological developments of river channels separated by a longitudinal training wall. Advances in Water Resources, 113, 73–85. 10.1016/j.advwatres.2018.01.007
(View/edit entry)
2018Delft3D
Model application 7
Javernick, L.; Hicks, D. M.; Measures, R.; Caruso, B.; Brasington, J.; 2016. Numerical Modelling of Braided Rivers with Structure-from-Motion-Derived Terrain Models: Modelling Braided Rivers. River Research and Applications, 32, 1071–1081. 10.1002/rra.2918
(View/edit entry)
2016Delft3D
Model application 15
Borsje, B.W.; Roos, P.C.; Kranenburg, W.M.; Hulscher, S.J.M.H.; 2013. Modeling tidal sand wave formation in a numerical shallow water model: The role of turbulence formulation. Continental Shelf Research, 60, 17–27. 10.1016/j.csr.2013.04.023
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2013Delft3D
Model application 16
Istiyanto, Dinar Catur; 2013. TSUNAMI MITIGATION MEASURES FOR TSUNAMI PRONE SMALL ISLANDS: LESSONS LEARNED FROM THE 2010 TSUNAMI AROUND THE MENTAWAI ISLANDS OF INDONESIA. Journal of Earthquake and Tsunami, 7, 1350002. 10.1142/S1793431113500024
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2013Delft3D
Model application 6
Hodgkins, Linda M.; Mulligan, Ryan P.; McCallum, John M.; Weber, Kela P.; 2019. Modelling the transport of shipborne per- and polyfluoroalkyl substances (PFAS) in the coastal environment. Science of The Total Environment, 658, 602–613. 10.1016/j.scitotenv.2018.12.230
(View/edit entry)
2019Delft3D
Model application 2
Jiménez-Robles, A. M.; Ortega-Sánchez, M.; Losada, M. A.; 2016. Effects of basin bottom slope on jet hydrodynamics and river mouth bar formation: EFFECT OF BOTTOM SLOPE ON JET DYNAMICS. Journal of Geophysical Research: Earth Surface, 121, 1110–1133. 10.1002/2016JF003871
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2016Delft3D
Model application 4
Kumbier, Kristian; Carvalho, Rafael C.; Vafeidis, Athanasios T.; Woodroffe, Colin D.; 2018. Investigating compound flooding in an estuary using hydrodynamic modelling: a case study from the Shoalhaven River, Australia. Natural Hazards and Earth System Sciences, 18, 463–477. 10.5194/nhess-18-463-2018
(View/edit entry)
2018Delft3D
Model application 16
Lenstra, Klaas J. H.; Pluis, Stefan R. P. M.; Ridderinkhof, Wim; Ruessink, Gerben; van der Vegt, Maarten; 2019. Cyclic channel-shoal dynamics at the Ameland inlet: the impact on waves, tides, and sediment transport. Ocean Dynamics, 69, 409–425. 10.1007/s10236-019-01249-3
(View/edit entry)
2019Delft3D
Model application 4
Andutta, Fernando P.; Helfer, Fernanda; de Miranda, Luiz Bruner; Deleersnijder, Eric; Thomas, Christopher; Lemckert, Charles; 2016. An assessment of transport timescales and return coefficient in adjacent tropical estuaries. Continental Shelf Research, 124, 49–62. 10.1016/j.csr.2016.05.006
(View/edit entry)
2016Delft3D
Model application 7
Huisman, B.J.A.; Ruessink, B.G.; de Schipper, M.A.; Luijendijk, A.P.; Stive, M.J.F.; 2018. Modelling of bed sediment composition changes at the lower shoreface of the Sand Motor. Coastal Engineering, 132, 33–49. 10.1016/j.coastaleng.2017.11.007
(View/edit entry)
2018Delft3D
Model application 5
Paarlberg, Andries; Guerrero, Massimo; Huthoff, Fredrik; Re, Mariano; 2015. Optimizing Dredge-and-Dump Activities for River Navigability Using a Hydro-Morphodynamic Model. Water, 7, 3943–3962. 10.3390/w7073943
(View/edit entry)
2015Delft3D
Model application 13
Akurut, Mary; Niwagaba, Charles B.; Willems, Patrick; 2017. Long-term variations of water quality in the Inner Murchison Bay, Lake Victoria. Environmental Monitoring and Assessment, 189, 22. 10.1007/s10661-016-5730-4
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2017Delft3D
Model application 3
Hibma, Anneke; Schuttelaars, Henk M.; Wang, Zheng B.; 2003. Comparison of longitudinal equilibrium profiles of estuaries in idealized and process-based models. Ocean Dynamics, 53, 252–269. 10.1007/s10236-003-0046-7
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2003Delft3D
Model application 34
Poppema, Daan W.; Willemsen, Pim W.J.M.; de Vries, Mindert B.; Zhu, Zhenchang; Borsje, Bas W.; Hulscher, Suzanne J.M.H.; 2019. Experiment-supported modelling of salt marsh establishment. Ocean & Coastal Management, 168, 238–250. 10.1016/j.ocecoaman.2018.10.039
(View/edit entry)
2019Delft3D
Model application 4
Troost, Tineke A.; Desclaux, Térence; Leslie, Heather A.; van Der Meulen, Myra D.; Vethaak, A. Dick; 2018. Do microplastics affect marine ecosystem productivity?. Marine Pollution Bulletin, 135, 17–29. 10.1016/j.marpolbul.2018.05.067
(View/edit entry)
2018Delft3D
Model application 8
Zarzuelo, Carmen; López-Ruiz, Alejandro; Díez-Minguito, Manuel; Ortega-Sánchez, Miguel; 2017. Tidal and subtidal hydrodynamics and energetics in a constricted estuary. Estuarine, Coastal and Shelf Science, 185, 55–68. 10.1016/j.ecss.2016.11.020
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2017Delft3D
Model application 14
Ides, Stefaan; Plancke, Yves; Vos, Gwendy; 2011. Validation of a 2-dimensional hydrodynamic model within a study to propose the optimal disposal strategy in the Western Scheldt. La Houille Blanche, , 36–41. 10.1051/lhb/2011030
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2011Delft3D
Model application 3
Palazzoli, I.; Leonardi, N.; Jiménez-Robles, A.M.; Fagherazzi, S.; 2020. Velocity skew controls the flushing of a tracer in a system of shallow bays with multiple inlets. Continental Shelf Research, 192, 104008. 10.1016/j.csr.2019.104008
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2020Delft3D
Model application 0
Lefebvre, A.; Paarlberg, A.J.; Ernstsen, V.B.; Winter, C.; 2014. Flow separation and roughness lengths over large bedforms in a tidal environment: A numerical investigation. Continental Shelf Research, 91, 57–69. 10.1016/j.csr.2014.09.001
(View/edit entry)
2014Delft3D
Model application 11
Tonnon, P.K.; Huisman, B.J.A.; Stam, G.N.; van Rijn, L.C.; 2018. Numerical modelling of erosion rates, life span and maintenance volumes of mega nourishments. Coastal Engineering, 131, 51–69. 10.1016/j.coastaleng.2017.10.001
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2018Delft3D
Model application 8
Leonardi, N.; Sun, T.; Fagherazzi, S.; 2014. Modeling Tidal Bedding In Distributary-Mouth Bars. Journal of Sedimentary Research, 84, 499–512. 10.2110/jsr.2014.42
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2014Delft3D
Model application 9
El Serafy, Ghada Y.; Eleveld, Marieke A.; Blaas, Meinte; van Kessel, Thijs; Aguilar, Sandra Gaytan; Van der Woerd, Hendrik J.; 2011. Improving the description of the suspended particulate matter concentrations in the southern North Sea through assimilating remotely sensed data. Ocean Science Journal, 46, 179–204. 10.1007/s12601-011-0015-x
(View/edit entry)
2011Delft3D
Model application 19
Brambilla, Walter; van Rooijen, Arnold; Simeone, Simone; Ibba, Angelo; DeMuro, Sandro; 2016. Field Observations, Video Monitoring and Numerical Modeling at Poetto Beach, Italy. Journal of Coastal Research, 75, 825–829. 10.2112/SI75-166.1
(View/edit entry)
2016Delft3D
Model application 12
Mulligan, Ryan P.; Hay, Alex E.; Bowen, Anthony J.; 2010. A wave-driven jet over a rocky shoal. Journal of Geophysical Research, 115, C10038. 10.1029/2009JC006027
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2010Delft3D
Model application 16
Abundo, Michael; Nerves, Allan; Paringit, Enrico; Villanoy, Cesar; 2012. A Combined Multi-Site and Multi-Device Decision Support System for Tidal In-Stream Energy. Energy Procedia, 14, 812–817. 10.1016/j.egypro.2011.12.1016
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2012Delft3D
Model application 5
Rynne, Patrick; Reniers, Ad; van de Kreeke, Jacobus; MacMahan, Jamie; 2016. The effect of tidal exchange on residence time in a coastal embayment. Estuarine, Coastal and Shelf Science, 172, 108–120. 10.1016/j.ecss.2016.02.001
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2016Delft3D
Model application 9
Broekema, Y.B.; Giardino, A.; van der Werf, J.J.; van Rooijen, A.A.; Vousdoukas, M.I.; van Prooijen, B.C.; 2016. Observations and modelling of nearshore sediment sorting processes along a barred beach profile. Coastal Engineering, 118, 50–62. 10.1016/j.coastaleng.2016.08.009
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2016Delft3D
Model application 10
Nnafie, A.; Swart, H. E.; De Maerschalck, B.; Van Oyen, T.; Vegt, M.; Wegen, M.; 2019. Closure of Secondary Basins Causes Channel Deepening in Estuaries With Moderate to High Friction. Geophysical Research Letters, 46, 13209–13216. 10.1029/2019GL084444
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2019Delft3D
Model application 0
Li, Angang; Reidenbach, Matthew A.; 2014. Forecasting decadal changes in sea surface temperatures and coral bleaching within a Caribbean coral reef. Coral Reefs, 33, 847–861. 10.1007/s00338-014-1162-1
(View/edit entry)
2014Delft3D
Model application 12
Fery, N.; Al-Subhi, A.M.; Zubier, K.M.; Bruss, G.; 2015. Evaluation of the sea state near Jeddah based on recent observations and model results. Journal of Operational Oceanography, 8, 1–10. 10.1080/1755876X.2015.1014636
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2015Delft3D
Model application 9
Duy Vinh, Vu; Ouillon, Sylvain; Van Thao, Nguyen; Ngoc Tien, Nguyen; 2016. Numerical Simulations of Suspended Sediment Dynamics Due to Seasonal Forcing in the Mekong Coastal Area. Water, 8, 255. 10.3390/w8060255
(View/edit entry)
2016Delft3D
Model application 12
Herman, Agnieszka; Kaiser, Ralf; Niemeyer, Hanz D.; 2007. Modelling of a medium-term dynamics in a shallow tidal sea, based on combined physical and neural network methods. Ocean Modelling, 17, 277–299. 10.1016/j.ocemod.2007.02.004
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2007Delft3D
Model application 12
Troost, T.A.; Blaas, M.; Los, F.J.; 2013. The role of atmospheric deposition in the eutrophication of the North Sea: A model analysis. Journal of Marine Systems, 125, 101–112. 10.1016/j.jmarsys.2012.10.005
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2013Delft3D
Model application 22
Nauta, Tjitte A.; Bongco, Alicia E.; Santos-Borja, Adelina C.; 2003. Set-up of a decision support system to support sustainable development of the Laguna de Bay, Philippines. Marine Pollution Bulletin, 47, 211–218. 10.1016/S0025-326X(02)00407-1
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2003Delft3D
Model application 14
Stevens, Andrew W.; Lacy, Jessica R.; 2012. The Influence of Wave Energy and Sediment Transport on Seagrass Distribution. Estuaries and Coasts, 35, 92–108. 10.1007/s12237-011-9435-1
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2012Delft3D
Model application 16
Pokavanich, Tanuspong; Alosairi, Yousef; 2014. Summer Flushing Characteristics of Kuwait Bay. Journal of Coastal Research, 297, 1066–1073. 10.2112/JCOASTRES-D-13-00188.1
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2014Delft3D
Model application 13
van der Vegt, H.; Storms, J.E.A.; Walstra, D.J.R.; Howes, N.C.; 2016. Can bed load transport drive varying depositional behaviour in river delta environments?. Sedimentary Geology, 345, 19–32. 10.1016/j.sedgeo.2016.08.009
(View/edit entry)
2016Delft3D
Model application 12
Lefebvre, Alice; Paarlberg, Andries J.; Winter, Christian; 2014. Flow separation and shear stress over angle-of-repose bed forms: A numerical investigation: FLOW SEPARATION AND SHEAR STRESS OVER BED FORMS. Water Resources Research, 50, 986–1005. 10.1002/2013WR014587
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2014Delft3D
Model application 16
Salehi, Mehrdad; 2017. Thermal Recirculation Modeling for Power Plants in an Estuarine Environment. Journal of Marine Science and Engineering, 5, 5. 10.3390/jmse5010005
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2017Delft3D
Model application 3
Nienhuis, Jaap H.; Törnqvist, Torbjörn E.; Esposito, Christopher R.; 2018. Crevasse Splays Versus Avulsions: A Recipe for Land Building With Levee Breaches. Geophysical Research Letters, 45, 4058–4067. 10.1029/2018GL077933
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2018Delft3D
Model application 7
Chaichitehrani, Nazanin; Li, Chunyan; Xu, Kehui; Allahdadi, Mohammad Nabi; Hestir, Erin L.; Keim, Barry D.; 2019. A numerical study of sediment dynamics over Sandy Point dredge pit, west flank of the Mississippi River, during a cold front event. Continental Shelf Research, 183, 38–50. 10.1016/j.csr.2019.06.009
(View/edit entry)
2019Delft3D
Model application 0
Wang, Yunwei; Yu, Qian; Gao, Shu; 2014. Modeling interrelationships between morphological evolution and grain-size trends in back-barrier tidal basins of the East Frisian Wadden Sea. Geo-Marine Letters, 34, 37–49. 10.1007/s00367-013-0349-8
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2014Delft3D
Model application 11
Liu, Runqi; Wang, Yaping; Gao, Jianhua; Wu, Ziyin; Guan, Weibing; 2016. Turbidity maximum formation and its seasonal variations in the Zhujiang (Pearl River) Estuary, southern China. Acta Oceanologica Sinica, 35, 22–31. 10.1007/s13131-016-0897-7
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2016Delft3D
Model application 4
Wang, Hongqing; Chen, Qin; Hu, Kelin; La Peyre, Megan K.; 2017. A Modeling Study of the Impacts of Mississippi River Diversion and Sea-Level Rise on Water Quality of a Deltaic Estuary. Estuaries and Coasts, 40, 1028–1054. 10.1007/s12237-016-0197-7
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2017Delft3D
Model application 7
El Serafy, Ghada Y. H.; Mynett, Arthur E.; 2008. Improving the operational forecasting system of the stratified flow in Osaka Bay using an ensemble Kalman filter-based steady state Kalman filter: IMPROVING FORECASTS BY KALMAN FILTERS. Water Resources Research, 44, . 10.1029/2006WR005412
(View/edit entry)
2008Delft3D
Model application 21
Xia, Junqiang; Wang, Zhengbing; Wang, Yanping; Yu, Xin; 2013. Comparison of Morphodynamic Models for the Lower Yellow River 1: Comparison of Morphodynamic Models for the Lower Yellow River. JAWRA Journal of the American Water Resources Association, 49, 114–131. 10.1111/jawr.12002
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2013Delft3D
Model application 12
Amadori, Marina; Piccolroaz, Sebastiano; Giovannini, Lorenzo; Zardi, Dino; Toffolon, Marco; 2018. Wind variability and Earth’s rotation as drivers of transport in a deep, elongated subalpine lake: The case of Lake Garda: Drivers of transport in Lake Garda. Journal of Limnology, 77, . 10.4081/jlimnol.2018.1814
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2018Delft3D
Model application 5
Troost, T.A.; de Kluijver, A.; Los, F.J.; 2014. Evaluation of eutrophication variables and thresholds in the Dutch North Sea in a historical context — A model analysis. Journal of Marine Systems, 134, 45–56. 10.1016/j.jmarsys.2014.01.015
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2014Delft3D
Model application 15
Maaß, Anna-Lisa; Schüttrumpf, Holger; 2018. Long-term effects of mining-induced subsidence on the trapping efficiency of floodplains. Anthropocene, 24, 1–13. 10.1016/j.ancene.2018.10.001
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2018Delft3D
Model application 5
Izdori, Fides; Semiao, Andrea J. C.; Perona, Paolo; 2019. The Role of Environmental Variables in Waste Stabilization Ponds' Morphodynamics. Frontiers in Environmental Science, 7, 159. 10.3389/fenvs.2019.00159
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2019Delft3D
Model application 0
Gao, Weilun; Shao, Dongdong; Wang, Zheng Bing; Nardin, William; Yang, Wei; Sun, Tao; Cui, Baoshan; 2018. Combined Effects of Unsteady River Discharges and Wave Conditions on River Mouth Bar Morphodynamics. Geophysical Research Letters, 45, . 10.1029/2018GL080447
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2018Delft3D
Model application 3
Kuang, Cuiping; Lee, Joseph H. W.; Harrison, Paul J.; Yin, Kedong; 2011. Effect of Wind Speed and Direction on Summer Tidal Circulation and Vertical Mixing in Hong Kong Waters. Journal of Coastal Research, 275, 74–86. 10.2112/JCOASTRES-D-11-00050.1
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2011Delft3D
Model application 11
Vidal-Juárez, Teresa; de Alegría-Arzaburu, Amaia Ruiz; Mejía-Trejo, Adán; García-Nava, Héctor; Enríquez, Cecilia; 2014. Predicting Barrier Beach Breaching due to Extreme Water Levels at San Quntín, Baja California, Mexico. Journal of Coastal Research, 71, 100–106. 10.2112/SI71-012.1
(View/edit entry)
2014Delft3D
Model application 3
Wang, Xuan; Babovic, Vladan; 2016. Application of hybrid Kalman filter for improving water level forecast. Journal of Hydroinformatics, 18, 773–790. 10.2166/hydro.2016.085
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2016Delft3D
Model application 5
Baky, Md Abdullah Al; Islam, Muktarun; Paul, Supria; 2020. Flood Hazard, Vulnerability and Risk Assessment for Different Land Use Classes Using a Flow Model. Earth Systems and Environment, 4, 225–244. 10.1007/s41748-019-00141-w
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2020Delft3D
Model application 0
Baar, Anne; Albernaz, Marcio Boechat; van Dijk, Wout; Kleinhans, Maarten; Paquier, A.; Rivière, N.; 2018. The influence of transverse slope effects on large scale morphology in morphodynamic models. E3S Web of Conferences, 40, 04021. 10.1051/e3sconf/20184004021
(View/edit entry)
2018Delft3D
Model application 2
Yin, Kai; Xu, Sudong; Huang, Wenrui; 2016. Modeling sediment concentration and transport induced by storm surge in Hengmen Eastern Access Channel. Natural Hazards, 82, 617–642. 10.1007/s11069-016-2200-9
(View/edit entry)
2016Delft3D
Model application 7
Mannina, Giorgio; Hong, Yi; Li, Chenlu; Lemaire, Bruno J.; Soulignac, Frédéric; Scarati Martins, José R.; Roguet, Adélaïde; Lucas, Françoise; Vinçon-Leite, Brigitte; 2019. An Integrated Approach for Assessing the Impact of Urban Stormwater Discharge on the Fecal Contamination in a Recreational Lake Near Paris. In: (eds.)New Trends in Urban Drainage Modelling.. 334–338.
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2019Delft3D
Model application 0
Harcourt-Baldwin, J.-L.; Diedericks, G.P.J.; 2006. Numerical modelling and analysis of temperature controlled density currents in Tomales Bay, California. Estuarine, Coastal and Shelf Science, 66, 417–428. 10.1016/j.ecss.2005.10.001
(View/edit entry)
2006Delft3D
Model application 16
Tu, Le Xuan; Thanh, Vo Quoc; Reyns, Johan; Van, Song Pham; Anh, Duong Tran; Dang, Thanh Duc; Roelvink, Dano; 2019. Sediment transport and morphodynamical modeling on the estuaries and coastal zone of the Vietnamese Mekong Delta. Continental Shelf Research, 186, 64–76. 10.1016/j.csr.2019.07.015
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2019Delft3D
Model application 5
Wenneker, Ivo; van Dongeren, Ap; Lescinski, Jamie; Roelvink, Dano; Borsboom, Mart; 2011. A Boussinesq-type wave driver for a morphodynamical model to predict short-term morphology. Coastal Engineering, 58, 66–84. 10.1016/j.coastaleng.2010.08.007
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2011Delft3D
Model application 15
He, Xiaoyan; Wang, Ya Ping; Zhu, Qingguang; Zhang, Ying; Zhang, Dong; Zhang, Jicai; Yang, Yang; Gao, Jianhua; 2015. Simulation of sedimentary dynamics in a small-scale estuary: the role of human activities. Environmental Earth Sciences, 74, 869–878. 10.1007/s12665-015-4100-9
(View/edit entry)
2015Delft3D
Model application 7
, ; 2008. Mechanisms that Influence the Performance of Beach Nourishment: A Case Study in Delray Beach, Florida, U.S.A.. Journal of Coastal Research, 2008, 1304. 10.2112/06-0749.1
(View/edit entry)
2008Delft3D
Model application 15
Buchty-Lemke, Michael; Hagemann, Lukas; Maaß, Anna-Lisa; Schüttrumpf, Holger; Schwarzbauer, Jan; Lehmkuhl, Frank; 2019. Floodplain chronology and sedimentation rates for the past 200 years derived from trace element gradients, organic compounds, and numerical modeling. Environmental Earth Sciences, 78, 445. 10.1007/s12665-019-8428-4
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2019Delft3D
Model application 2
Kumar, V. Sanil; Shanas, P. R.; Dora, G. Udhaba; Glejin, Johnson; Philip, Sajiv; 2017. Longshore sediment transport in the surf zone based on different formulae: a case study along the central west coast of India. Journal of Coastal Conservation, 21, 1–13. 10.1007/s11852-016-0462-8
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2017Delft3D
Model application 7
Wang, Yuankun; Xia, Ziqiang; Wang, Dong; 2012. Characterization of hydraulic suitability of Chinese sturgeon ( Acipenser sinensis ) spawning habitat in the Yangtze River: HYDRAULIC SUITABILITY OF CHINESE STURGEON. Hydrological Processes, 26, 3489–3498. 10.1002/hyp.8407
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2012Delft3D
Model application 10
El Safty, Hoda; Lynett, Patrick; 2017. SPOT APPLICATION TOOL FOR WAVE DRIVEN NEARSHORE HYDRODYNAMICS. Coastal Engineering Proceedings, , 19. 10.9753/icce.v35.waves.19
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2017Delft3D
Model application 0
Dissanayake, D.M.P.K.; Wurpts, A.; Miani, M.; Knaack, H.; Niemeyer, H.D.; Roelvink, J.A.; 2012. Modelling morphodynamic response of a tidal basin to an anthropogenic effect: Ley Bay, East Frisian Wadden Sea – applying tidal forcing only and different sediment fractions. Coastal Engineering, 67, 14–28. 10.1016/j.coastaleng.2012.04.001
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2012Delft3D
Model application 13
Sanyal, Joy; 2017. Predicting possible effects of dams on downstream river bed changes of a Himalayan river with morphodynamic modelling. Quaternary International, 453, 48–62. 10.1016/j.quaint.2017.03.063
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2017Delft3D
Model application 9
Iwantoro, Arya P.; van der Vegt, Maarten; Kleinhans, Maarten G.; 2019. Morphological evolution of bifurcations in tide-influenced deltas. .
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2019Delft3D
Model application 1
Zhang, Ling; Lu, Jianzhong; Chen, Xiaoling; Liang, Dong; Fu, Xiaokang; Sauvage, Sabine; Sanchez Perez, José-Miguel; 2017. Stream flow simulation and verification in ungauged zones by coupling hydrological and hydrodynamic models: a case study of the Poyang Lake ungauged zone. Hydrology and Earth System Sciences, 21, 5847–5861. 10.5194/hess-21-5847-2017
(View/edit entry)
2017Delft3D
Model application 11
Lefebvre, Alice; Paarlberg, Andries J.; Winter, Christian; 2016. Characterising natural bedform morphology and its influence on flow. Geo-Marine Letters, 36, 379–393. 10.1007/s00367-016-0455-5
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2016Delft3D
Model application 12
Song, Honglin; Kuang, Cuiping; Gu, Jie; Zou, Qingping; Liang, Huidi; Sun, Xiaoming; Ma, Zhen; 2020. Nonlinear tide-surge-wave interaction at a shallow coast with large scale sequential harbor constructions. Estuarine, Coastal and Shelf Science, 233, 106543. 10.1016/j.ecss.2019.106543
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2020Delft3D
Model application 3
Le, T.B.; Crosato, A.; Mosselman, E.; Uijttewaal, W.S.J.; 2018. On the stability of river bifurcations created by longitudinal training walls. Numerical investigation. Advances in Water Resources, 113, 112–125. 10.1016/j.advwatres.2018.01.012
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2018Delft3D
Model application 6
George, Douglas A.; Gelfenbaum, Guy; Stevens, Andrew W.; 2012. Modeling the Hydrodynamic and Morphologic Response of an Estuary Restoration. Estuaries and Coasts, 35, 1510–1529. 10.1007/s12237-012-9541-8
(View/edit entry)
2012Delft3D
Model application 11
Soulignac, Frédéric; Anneville, Orlane; Bouffard, Damien; Chanudet, Vincent; Dambrine, Etienne; Guénand, Yann; Harmel, Tristan; Ibelings, Bastiaan W; Trevisan, Dominique; Uittenbogaard, Rob; Danis, Pierre-Alain; 2019. Contribution of 3D coupled hydrodynamic-ecological modeling to assess the representativeness of a sampling protocol for lake water quality assessment. Knowledge & Management of Aquatic Ecosystems, , 42. 10.1051/kmae/2019034
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2019Delft3D
Model application 2
Dissanayake, Pushpa; Wurpts, Andreas; 2013. Modelling an anthropogenic effect of a tidal basin evolution applying tidal and wave boundary forcings: Ley Bay, East Frisian Wadden Sea. Coastal Engineering, 82, 9–24. 10.1016/j.coastaleng.2013.08.005
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2013Delft3D
Model application 11
Ribeiro, Américo S.; Sousa, Magda C.; Lencart e Silva, João D.; Dias, João M.; 2016. David and Goliath Revisited: Joint Modelling of the Tagus and Sado Estuaries. Journal of Coastal Research, 75, 123–127. 10.2112/SI75-025.1
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2016Delft3D
Model application 3
Boudet, L.; Sabatier, F.; Radakovitch, O.; 2017. Modelling of sediment transport pattern in the mouth of the Rhone delta: Role of storm and flood events. Estuarine, Coastal and Shelf Science, 198, 568–582. 10.1016/j.ecss.2016.10.004
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2017Delft3D
Model application 9
Stein, Luiza Paschoal; Siegle, Eduardo; 2019. SANTOS BEACH MORPHODYNAMICS UNDER HIGH-ENERGY CONDITIONS. Revista Brasileira de Geomorfologia, 20, . 10.20502/rbg.v20i3.1419
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2019Delft3D
WAVEWATCH III ^TM
Model application 0
List, Jeffrey H.; Ashton, Andrew D.; 2007. A Circulation Modeling Approach for Evaluating the Conditions for Shoreline Instabilities. . Volume .
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2007Delft3D
Model application 20
Shaeri, Saeed; Tomlinson, Rodger; Etemad-Shahidi, Amir; Strauss, Darrell; 2017. Numerical modelling to assess maintenance strategy management options for a small tidal inlet. Estuarine, Coastal and Shelf Science, 187, 273–292. 10.1016/j.ecss.2017.01.017
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2017Delft3D
Model application 5
Luijendijk, Arjen; Schipper, Matthieu; Ranasinghe, Roshanka; 2019. Morphodynamic Acceleration Techniques for Multi-Timescale Predictions of Complex Sandy Interventions. Journal of Marine Science and Engineering, 7, 78. 10.3390/jmse7030078
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2019Delft3D
Model application 5
Goos, G.; Hartmanis, J.; van Leeuwen, J.; Sloot, Peter M. A.; Abramson, David; Bogdanov, Alexander V.; Dongarra, Jack J.; Zomaya, Albert Y.; Gorbachev, Yuriy E.; Postma, L.; Boderie, P. M. A.; van Gils, J. A. G.; van Beek, J. K. L.; 2003. Component Software Systems for Surface Water Simulation. In: (eds.)Computational Science — ICCS 2003.. 649–658.
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2003Delft3D
Model application 8
N, Pusceddu; T, Batzella; C, Kalb; F, Ferraro; A, Ibba; S, De Muro; 2011. Short-term evolution of the Budoni beach on NE Sardinia (Italy). RENDICONTI ONLINE DELLA SOCIETÀ GEOLOGICA ITALIANA, 17, . 10.3301/ROL.2011.45
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2011Delft3D
Model application 10
Bennett, Vanessa C.C.; Mulligan, Ryan P.; 2017. Evaluation of surface wind fields for prediction of directional ocean wave spectra during Hurricane Sandy. Coastal Engineering, 125, 1–15. 10.1016/j.coastaleng.2017.04.003
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2017Delft3D
Model application 5
Ranasinghe, Roshanka; Swinkels, Cilia; Luijendijk, Arjen; Bosboom, Judith; Roelvink, Dano; Stive, Marcel; Walstra, Dirkjan; 2011. MORPHODYNAMIC UPSCALING WITH THE MORFAC APPROACH. Coastal Engineering Proceedings, 1, 59. 10.9753/icce.v32.sediment.59
(View/edit entry)
2011Delft3D
Model application 6
Sendrowski, Alicia; Sadid, Kazi; Meselhe, Ehab; Wagner, Wayne; Mohrig, David; Passalacqua, Paola; 2018. Transfer Entropy as a Tool for Hydrodynamic Model Validation. Entropy, 20, 58. 10.3390/e20010058
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2018Delft3D
Model application 7
Tao, Jing; Hill, Paul S.; Mulligan, Ryan P.; Smith, Peter C.; 2014. Seasonal variability of total suspended matter in Minas Basin, Bay of Fundy. Estuarine, Coastal and Shelf Science, 151, 169–180. 10.1016/j.ecss.2014.10.005
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2014Delft3D
Model application 8
Durán-Colmenares, Azucena; Barrios-Piña, Hector; Ramírez-León, Hermilo; 2016. Numerical Modeling of Water Thermal Plumes Emitted by Thermal Power Plants. Water, 8, 482. 10.3390/w8110482
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2016Delft3D
Model application 6
Kaçıkoç, Meltem; Beyhan, Mehmet; 2014. Hydrodynamic and Water Quality Modeling of Lake Eğirdir: Hydrodynamic and Water Quality Modeling of Lake Eğirdir. CLEAN - Soil, Air, Water, 42, 1573–1582. 10.1002/clen.201300455
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2014Delft3D
Model application 11
Han, H.J.; Los, F.J.; Burger, D.F.; Lu, X.X.; 2016. A modelling approach to determine systematic nitrogen transformations in a tropical reservoir. Ecological Engineering, 94, 37–49. 10.1016/j.ecoleng.2016.05.054
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2016Delft3D
Model application 4
T, Batzella; N, Pusceddu; C, Kalb; F, Ferraro; A, Ibba; S, De Muro; 2011. Bars/troughs dynamics and evolution trend of the La Cinta beach (San Teodoro OT) - NE Sardinia. RENDICONTI ONLINE DELLA SOCIETÀ GEOLOGICA ITALIANA, 17, . 10.3301/ROL.2011.13
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2011Delft3D
Model application 8
Abundo, Michael Lochinvar S.; Buhali, Mario; Ang, Ma. Rosario Concepcion O.; Cayetano, Arjay; 2012. Development of an integrated multi-site multi-device rapid evaluation tool for tidal energy planning. . Volume .
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2012Delft3D
Model application 1
Bulat, Maxim; Biron, Pascale M.; Lacey, Jay R. W.; Botrel, Morgan; Hudon, Christiane; Maranger, Roxane; 2019. A three‐dimensional numerical model investigation of the impact of submerged macrophytes on flow dynamics in a large fluvial lake. Freshwater Biology, 64, 1627–1642. 10.1111/fwb.13359
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2019Delft3D
Model application 1
Fissel, David B.; Lin, Yuehua; Scoon, Alison; Lim, Jose; Brown, Leslie; Clouston, Ryan; 2017. The variability of the sediment plume and ocean circulation features of the Nass River Estuary, British Columbia. Satellite Oceanography and Meteorology, 2, . 10.18063/som.v2i2.316
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2017Delft3D
Model application 3
Tanaka, Masahiro; Odagiri, Mitsunori; 2010. Mechanism of the Oxygen-Depleted Water Formation near the Head of the Ariake Bay and its Numerical Modeling. Journal of Japan Society of Civil Engineers, Ser. B2 (Coastal Engineering), 66, 1011–1015. 10.2208/kaigan.66.1011
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2010Delft3D
Model application 1
Platzek, F. W.; Stelling, G. S.; Jankowski, J. A.; Pietrzak, J. D.; 2014. Accurate vertical profiles of turbulent flow in z-layer models. Water Resources Research, 50, 2191–2211. 10.1002/2013WR014411
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2014Delft3D
Model application 5
Batista, Silvana Simone; Harari, Joseph; 2016. Modelagem da dispersão de coliformes termotolerantes e enterococos em duas enseadas na região costeira de Ubatuba (SP), Brasil. Engenharia Sanitaria e Ambiental, 22, 403–413. 10.1590/s1413-41522016158594
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2016Delft3D
Model application 2
Reyes-Merlo, Miguel Á.; Ortega-Sánchez, Miguel; Díez-Minguito, Manuel; Losada, Miguel A.; 2017. Efficient dredging strategy in a tidal inlet based on an energetic approach. Ocean & Coastal Management, 146, 157–169. 10.1016/j.ocecoaman.2017.07.002
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2017Delft3D
Model application 6
Zhu, Qingguang; Wang, Ya Ping; Gao, Shu; Zhang, Jicai; Li, Mingliang; Yang, Yang; Gao, Jianhua; 2017. Modeling morphological change in anthropogenically controlled estuaries. Anthropocene, 17, 70–83. 10.1016/j.ancene.2017.03.001
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2017Delft3D
Model application 4
Javernick, Luke; Redolfi, Marco; Bertoldi, Walter; 2018. Evaluation of a numerical model's ability to predict bed load transport observed in braided river experiments. Advances in Water Resources, 115, 207–218. 10.1016/j.advwatres.2018.03.012
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2018Delft3D
Model application 7
McCarroll, R.; Masselink, Gerd; Valiente, Nieves; Scott, Tim; King, Erin; Conley, Daniel; 2018. Wave and Tidal Controls on Embayment Circulation and Headland Bypassing for an Exposed, Macrotidal Site. Journal of Marine Science and Engineering, 6, 94. 10.3390/jmse6030094
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2018Delft3D
Model application 8
Mosselman, Erik; Sloff, Kees; 2007. 7 The importance of floods for bed topography and bed sediment composition: numerical modelling of Rhine bifurcation at Pannerden. In: (eds.)Developments in Earth Surface Processes.. 161–179.
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2007Delft3D
Model application 8
Cranston, Michael D.; Tavendale, Amy C. W.; 2012. Advances in operational flood forecasting in Scotland. Proceedings of the Institution of Civil Engineers - Water Management, 165, 79–87. 10.1680/wama.2012.165.2.79
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2012Delft3D
Model application 7
Vatvani, D.; Zweers, N. C.; van Ormondt, M.; Smale, A. J.; de Vries, H.; Makin, V. K.; 2012. Storm surge and wave simulations in the Gulf of Mexico using a consistent drag relation for atmospheric and storm surge models. Natural Hazards and Earth System Sciences, 12, 2399–2410. 10.5194/nhess-12-2399-2012
(View/edit entry)
2012Delft3D
Model application 11
van Ledden, Mathijs; Wang, Zheng-Bing; Winterwerp, Han; de Vriend, Huib; 2006. Modelling sand–mud morphodynamics in the Friesche Zeegat. Ocean Dynamics, 56, 248–265. 10.1007/s10236-005-0055-9
(View/edit entry)
2006Delft3D
Model application 20
Erftemeijer, Pla; van Beek, Jkl; Bolle, Lj; Dickey-Collas, M; Los, Hfj; 2009. Variability in transport of fish eggs and larvae. I. Modelling the effects of coastal reclamation. Marine Ecology Progress Series, 390, 167–181. 10.3354/meps08173
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2009Delft3D
Model application 19
Sousa, Magda Catarina; Ribeiro, Américo; Des, Marisela; Gomez-Gesteira, Moncho; deCastro, Maite; Dias, João Miguel; 2020. NW Iberian Peninsula coastal upwelling future weakening: Competition between wind intensification and surface heating. Science of The Total Environment, 703, 134808. 10.1016/j.scitotenv.2019.134808
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2020Delft3D
Model application 2
Iglesias, I.; Venâncio, S.; Pinho, J. L.; Avilez-Valente, P.; Vieira, J. M. P.; 2019. Two Models Solutions for the Douro Estuary: Flood Risk Assessment and Breakwater Effects. Estuaries and Coasts, 42, 348–364. 10.1007/s12237-018-0477-5
(View/edit entry)
2019Delft3D
Model application 6
Briere, Christophe; Giardino, Alessio; Van der Werf, Jebbe; 2011. MORPHOLOGICAL MODELING OF BAR DYNAMICS WITH DELFT3D: THE QUEST FOR OPTIMAL FREE PARAMETER SETTINGS USING AN AUTOMATIC CALIBRATION TECHNIQUE. Coastal Engineering Proceedings, 1, 60. 10.9753/icce.v32.sediment.60
(View/edit entry)
2011Delft3D
Model application 13
Escobar, Carlos A.; 2016. RELEVANCIA DE PROCESOS COSTEROS EN LA HIDRODINÁMICA DEL GOLFO DE URABÁ (CARIBE COLOMBIANO). Bulletin of Marine and Coastal Research, 40, . 10.25268/bimc.invemar.2011.40.2.114
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2016Delft3D
Model application 6
Al-Asadi, Khalid; Duan, Jennifer G.; 2014. Three-Dimensional Simulation of Tidal Flow in Vegetated Marsh Area. . Volume .
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2014Delft3D
Model application 1
Al'ala, Musa; Fritz, Hermann M.; Fahmi, Mirza; Hafli, Teuku Mudi; 2019. Numerical simulations of the 2004 Indian Ocean tsunami deposits' thicknesses and emplacements. Natural Hazards and Earth System Sciences, 19, 1265–1280. 10.5194/nhess-19-1265-2019
(View/edit entry)
2019Delft3D
Model application 0
Des, M.; deCastro, M.; Sousa, M.C.; Dias, J.M.; Gómez-Gesteira, M.; 2019. Hydrodynamics of river plume intrusion into an adjacent estuary: The Minho River and Ria de Vigo. Journal of Marine Systems, 189, 87–97. 10.1016/j.jmarsys.2018.10.003
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2019Delft3D
Model application 5
de Goede, Erik; Wagner, Tim; de Graaff, Reimer; Sheets, Ben; 2014. Modelling of Ice Growth and Transport on a Regional Scale, With Application to Fountain Lake, Minnesota, USA. . Volume .
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2014Delft3D
Model application 3
Trung Viet, Nguyen; Xiping, Dou; Thanh Tung, Tran; Dien, Duong Cong; Tanaka, Hitoshi; Viet, Nguyen Trung; Van Manh, Dinh; 2020. Numerical Model for Simulating Sand Terrace Formation in Front of the Cua Dai River Mouth. In: (eds.)APAC 2019.. 587–592.
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2020Delft3D
Model application 0
Gimiliani, Giovana Teixeira; Fontes, Roberto Fioravanti Carelli; Abessa, Denis Moledo de Souza; 2016. Modeling the dispersion of endocrine disruptors in the Santos Estuarine System (Sao Paulo State, Brazil). Brazilian Journal of Oceanography, 64, 1–8. 10.1590/S1679-87592016072806401
(View/edit entry)
2016Delft3D
Model application 8
Hanegan, K.C.; Geleynse, N.; Hillen, M.M.; Kluyver, T.M.; Luijendijk, A.P.; Stive, M.J.F.; Storms, J.E.A.; Van Ledden.; M. 2013. 4TU - Dataset: Modeling the Evolution of the Wax Lake Delta in Atchafalaya Bay, Louisiana. , , https://data.4tu.nl/repository/uuid:fdcbcd5b-e161-421a-bc0e-8a33e36f4726.
(View/edit entry)
2013Delft3D
Model application 3
Bosboom, J.; Mol, M.; Reniers, A.J.H.M.; Stive, M.J.F.; de Valk, C.F.; 2020. Optimal sediment transport for morphodynamic model validation. Coastal Engineering, 158, 103662. 10.1016/j.coastaleng.2020.103662
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2020Delft3D
Model application 0
Thanh, Vo Quoc; Roelvink, Dano; van der Wegen, Mick; Reyns, Johan; Kernkamp, Herman; Van Vinh, Giap; Linh, Vo Thi Phuong; 2020. Flooding in the Mekong Delta: the impact of dyke systems on downstream hydrodynamics. Hydrology and Earth System Sciences, 24, 189–212. 10.5194/hess-24-189-2020
(View/edit entry)
2020Delft3D
Model application 1
Kumbier, Kristian; Carvalho, Rafael C.; Vafeidis, Athanasios T.; Woodroffe, Colin D.; 2019. Comparing static and dynamic flood models in estuarine environments: a case study from south-east Australia. Marine and Freshwater Research, 70, 781. 10.1071/MF18239
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2019Delft3D
Model application 1
Ge, Zhenpeng; Dai, Zhijun; Pang, Wenhong; Li, Shushi; Wei, Wen; Mei, Xuefei; Huang, Hu; Gu, Jinghua; 2017. LIDAR-based detection of the post-typhoon recovery of a meso-macro-tidal beach in the Beibu Gulf, China. Marine Geology, 391, 127–143. 10.1016/j.margeo.2017.08.008
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2017Delft3D
Model application 8
Elfeki, Amro; Bahrawi, Jarbou; 2017. Application of the random walk theory for simulation of flood hazards: Jeddah flood 25 November 2009. International Journal of Emergency Management, 13, 169. 10.1504/IJEM.2017.10003685
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2017Delft3D
Model application 4
Des, M.; Gómez-Gesteira, M.; deCastro, M.; Gómez-Gesteira, L.; Sousa, M.C.; 2020. How can ocean warming at the NW Iberian Peninsula affect mussel aquaculture?. Science of The Total Environment, 709, 136117. 10.1016/j.scitotenv.2019.136117
(View/edit entry)
2020Delft3D
Model application 0
Nguyen, Kim Dan; Guillou, Sylvain; Gourbesville, Philippe; Thiébot, Jérôme; Do, Anh T. K.; de Vries, Sierd; Ye, Qinghua; Stive, Marcel J. F.; Nguyen, Trung Viet; 2020. Hydrodynamics and Sediment Transport at a Seasonal Inlet and Its Adjacent Beach: Cua Dai, Vietnam. In: (eds.)Estuaries and Coastal Zones in Times of Global Change.. 487–503.
(View/edit entry)
2020Delft3D
Model application 0
Luan, Hua Long; Ding, Ping Xing; Wang, Zheng Bing; Yang, Shi Lun; Lu, Jin You; 2018. Morphodynamic impacts of large-scale engineering projects in the Yangtze River delta. Coastal Engineering, 141, 1–11. 10.1016/j.coastaleng.2018.08.013
(View/edit entry)
2018Delft3D
Model application 5
Bermúdez, María; Cea, Luis; Puertas, Jerónimo; Rodríguez, Nuria; Baztán, Javier; 2018. Numerical Modeling of the Impact of a Pumped-Storage Hydroelectric Power Plant on the Reservoirs’ Thermal Stratification Structure: a Case Study in NW Spain. Environmental Modeling & Assessment, 23, 71–85. 10.1007/s10666-017-9557-3
(View/edit entry)
2018Delft3D
Model application 5
Niu, Lixia; van Gelder, P.H.A.J.M.; Zhang, Changkuan; Guan, Yiqing; Vrijling, J.K.; 2016. Physical control of phytoplankton bloom development in the coastal waters of Jiangsu (China). Ecological Modelling, 321, 75–83. 10.1016/j.ecolmodel.2015.10.008
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2016Delft3D
Model application 4
Gomes, Mariana Peixoto; Pinho, José Luís; Antunes do Carmo, José S.; Santos, Lara; 2015. Hazard assessment of storm events for The Battery, New York. Ocean & Coastal Management, 118, 22–31. 10.1016/j.ocecoaman.2015.11.006
(View/edit entry)
2015Delft3D
Model application 5
Ruju, Andrea; Ibba, Angelo; Porta, Marco; Buosi, Carla; Passarella, Marinella; De Muro, Sandro; 2018. The role of hydrodynamic forcing, sediment transport processes and bottom substratum in the shoreward development of Posidonia oceanica meadow. Estuarine, Coastal and Shelf Science, 212, 63–72. 10.1016/j.ecss.2018.06.025
(View/edit entry)
2018Delft3D
Model application 5
Benedet, L.; Finkl, C.W.; Dobrochinski, J.P.H.; 2013. Optimization of Nearshore Dredge Pit Design to Reduce Impacts on Adjacent Beaches. Journal of Coastal Research, 288, 519–525. 10.2112/JCOASTRES-D-12-00126.1
(View/edit entry)
2013Delft3D
Model application 5
Zarzuelo, Carmen; López-Ruiz, Alejandro; Ortega-Sánchez, Miguel; 2018. Impact of human interventions on tidal stream power: The case of Cádiz Bay. Energy, 145, 88–104. 10.1016/j.energy.2017.12.117
(View/edit entry)
2018Delft3D
Model application 4
Abascal, Ana J.; Castanedo, Sonia; Núñez, Paula; Mellor, Adam; Clements, Annika; Pérez, Beatriz; Cárdenas, Mar; Chiri, Helios; Medina, Raúl; 2017. A high-resolution operational forecast system for oil spill response in Belfast Lough. Marine Pollution Bulletin, 114, 302–314. 10.1016/j.marpolbul.2016.09.042
(View/edit entry)
2017Delft3D
Model application 7
Paprotny, Dominik; Morales-Nápoles, Oswaldo; Nikulin, Grigory; Lang, M.; Klijn, F.; Samuels, P.; 2016. Extreme sea levels under present and future climate: a pan-European database. E3S Web of Conferences, 7, 02001. 10.1051/e3sconf/20160702001
(View/edit entry)
2016Delft3D
Model application 3
Qin, Rufu; Lin, Liangzhao; 2019. Integration of GIS and a Lagrangian Particle-Tracking Model for Harmful Algal Bloom Trajectories Prediction. Water, 11, 164. 10.3390/w11010164
(View/edit entry)
2019Delft3D
Model application 2
Ni, Wenfei; Wang, Ya Ping; Symonds, Andrew M.; Collins, Michael B.; 2014. Intertidal flat development in response to controlled embankment retreat: Freiston Shore, The Wash, UK. Marine Geology, 355, 260–273. 10.1016/j.margeo.2014.06.001
(View/edit entry)
2014Delft3D
Model application 7
Frings, Roy M.; Ottevanger, Willem; Sloff, Kees (C.J.); 2011. Downstream fining processes in sandy lowland rivers. Journal of Hydraulic Research, 49, 178–193. 10.1080/00221686.2011.561000
(View/edit entry)
2011Delft3D
Model application 8
Shaeri, Saeed; Strauss, Darrell; Etemad-Shahidi, Amir; Tomlinson, Rodger; 2018. Hydrosedimentological Modelling of a Small, Trained Tidal Inlet System, Currumbin Creek, Southeast Queensland, Australia. Journal of Coastal Research, 342, 341–359. 10.2112/JCOASTRES-D-16-00219.1
(View/edit entry)
2018Delft3D
Model application 4
Parsapour-moghaddam, Parna; Rennie, Colin D.; Slaney, Jonathan; Paquier, A.; Rivière, N.; 2018. Hydrodynamic Simulation of an Irregularly Meandering Gravel-Bed River: Comparison of MIKE 21 FM and Delft3D Flow models. E3S Web of Conferences, 40, 02004. 10.1051/e3sconf/20184002004
(View/edit entry)
2018Delft3D
Model application 1
Zenebe, Tewedros Fikre; Haile AM, Yasir Mohamed; 2015. Mitigation of Sedimentation at the Diverstion Intake of Fota Spate Irrigation: Case Study of the Gash Spate Irrigation Scheme, Sudan. Irrigation & Drainage Systems Engineering, 4, . 10.4172/2168-9768.1000138
(View/edit entry)
2015Delft3D
Model application 5
Velasquez-Montoya, Liliana; Overton, Margery F.; Sciaudone, Elizabeth J.; 2020. Natural and anthropogenic-induced changes in a tidal inlet: Morphological evolution of Oregon Inlet. Geomorphology, 350, 106871. 10.1016/j.geomorph.2019.106871
(View/edit entry)
2020Delft3D
Model application 0
Chen, Yizhong; Lin, Weiqing; Zhu, Jianrong; Lu, Shiqiang; 2016. Numerical simulation of an algal bloom in Dianshan Lake. Chinese Journal of Oceanology and Limnology, 34, 231–244. 10.1007/s00343-015-4298-0
(View/edit entry)
2016Delft3D
Model application 4
, ; 2019. Effects of Wave Orbital Velocity Parameterization on Nearshore Sediment Transport and Decadal Morphodynamics. Journal of Marine Science and Engineering, 7, 188. 10.3390/jmse7060188
(View/edit entry)
2019Delft3D
Model application 3
, ; . Modelling the Impact of Detached Breakwaters on the Coast. Coastal Engineering 1996, , 2022–2035. 10.1061/9780784402429.157
(View/edit entry)
Delft3D
Model application 6
Bennett, Vanessa C.C.; Mulligan, Ryan P.; Hapke, Cheryl J.; 2018. A numerical model investigation of the impacts of Hurricane Sandy on water level variability in Great South Bay, New York. Continental Shelf Research, 161, 1–11. 10.1016/j.csr.2018.04.003
(View/edit entry)
2018Delft3D
Model application 2
Kuang, Cuiping; Song, Honglin; Gu, Jie; Zou, Qingping; Liang, Huidi; Sun, Xiaoming; Ma, Zhen; 2019. Responses of tidal modification and nonlinearity to large-scale sequential harbor constructions in the northeastern China. Continental Shelf Research, 182, 57–72. 10.1016/j.csr.2019.06.001
(View/edit entry)
2019Delft3D
Model application 2
Amrutha, M. M.; Sanil Kumar, V.; Singh, J.; 2016. Changes in nearshore waves during the active sea/land breeze period off Vengurla, central west coast of India. Annales Geophysicae, 34, 215–226. 10.5194/angeo-34-215-2016
(View/edit entry)
2016Delft3D
Model application 6
Zheng, Maohui; Guo, Yuerong; Liu, Shuguang; Kuang, Cuiping; Gou, Hongliang; Xing, Fei; 2010. Numerical Simulation and Visualization of Flood Inundation in the Upper Reaches of Huangpu River. . Volume .
(View/edit entry)
2010Delft3D
Model application 1
Li, Yangdong; Li, Xiaofeng; 2016. Remote sensing observations and numerical studies of a super typhoon-induced suspended sediment concentration variation in the East China Sea. Ocean Modelling, 104, 187–202. 10.1016/j.ocemod.2016.06.010
(View/edit entry)
2016Delft3D
Model application 6
Molinas, Ernesto; Vinzon, Susana Beatriz; de Paula Xavier Vilela, Carla; Gallo, Marcos Nicolas; 2014. Structure and position of the bottom salinity front in the Amazon Estuary. Ocean Dynamics, 64, 1583–1599. 10.1007/s10236-014-0763-0
(View/edit entry)
2014Delft3D
Model application 7
Feng, Zhixuan; Reniers, Ad; Haus, Brian; Solo-Gabriele, Helena; Fiorentino, Laura; Olascoaga, Maria; MacMahan, Jamie; 2012. MODELING MICROBIAL WATER QUALITY AT A BEACH IMPACTED BY MULTIPLE NON-POINT SOURCES. Coastal Engineering Proceedings, 1, 74. 10.9753/icce.v33.management.74
(View/edit entry)
2012Delft3D
Model application 5
Sousa, Magda C.; 2018. Integrated High-resolution Numerical Model for the NW Iberian Peninsula Coast and Main Estuarine Systems. Journal of Coastal Research, 85, 66–70. 10.2112/SI85-014.1
(View/edit entry)
2018Delft3D
Model application 2
Vitousek, S.; Fletcher, C.H.; Merrifield, M.A.; Pawlak, G.; 2007. Model Scenarios of Shoreline Change at Kaanapali Beach, Maui, Hawaii: Seasonal and Extreme Events. Sixth International Symposium on Coastal Engineering and Science of Coastal Sediment Process. Volume .
(View/edit entry)
2007Delft3D
Model application 9
Duong, Trang Minh; Ranasinghe, Roshanka; Luijendijk, Arjen; Ngo, Hieu; Roelvink, Dano; 2012. Climate Change Impacts on the Stability of Small Tidal Inlets: A Numerical Modelling Study Using the Realistic Analogue Approach. The International Journal of Ocean and Climate Systems, 3, 163–171. 10.1260/1759-3131.3.3.163
(View/edit entry)
2012Delft3D
Model application 3
Dai, Peng; Zhang, Jisheng; Zheng, Jinhai; 2017. Predictions for Dynamic Tidal Power and Associated Local Hydrodynamic Impact in the Taiwan Strait, China. Journal of Coastal Research, 331, 149–157. 10.2112/JCOASTRES-D-16-00068.1
(View/edit entry)
2017Delft3D
Model application 4
Yin, Kai; Xu, Sudong; Zhao, Quan; Huang, Wenrui; Yang, Ke; Guo, Meiting; 2020. Effects of land cover change on atmospheric and storm surge modeling during typhoon event. Ocean Engineering, 199, 106971. 10.1016/j.oceaneng.2020.106971
(View/edit entry)
2020Delft3D
Model application 0
Dissanayake, Pushpa; Hofmann, Hilmar; Peeters, Frank; 2019. Comparison of results from two 3D hydrodynamic models with field data: internal seiches and horizontal currents. Inland Waters, 9, 239–260. 10.1080/20442041.2019.1580079
(View/edit entry)
2019Delft3D
Model application 3
Baracchini, Theo; Chu, Philip Y.; Šukys, Jonas; Lieberherr, Gian; Wunderle, Stefan; Wüest, Alfred; Bouffard, Damien; 2020. Data assimilation of in situ and satellite remote sensing data to 3D hydrodynamic lake models: a case study using Delft3D-FLOW v4.03 and OpenDA v2.4. Geoscientific Model Development, 13, 1267–1284. 10.5194/gmd-13-1267-2020
(View/edit entry)
2020Delft3D
Model application 2
Jiang, Boyang; Kaihatu, James; 2011. MULTI-DIMENSIONAL ERROR ANALYSIS OF NEARSHORE WAVE MODELING TOOLS, WITH APPLICATION TOWARD DATA-DRIVEN BOUNDARY CORRECTION. Coastal Engineering Proceedings, 1, 67. 10.9753/icce.v32.waves.67
(View/edit entry)
2011Delft3D
Model application 1
Eladawy, Ahmed; Shaltout, Mohamed; Sousa, Magda Catarina; Dias, João Miguel; Nadaoka, Kazuo; 2018. Estimating the Mean Circulation and Water Exchange of the Gulf of Suez-Red Sea via a Validated One-Way Atmospheric-Hydrodynamic Coupled Model. Earth Systems and Environment, 2, 213–231. 10.1007/s41748-018-0049-7
(View/edit entry)
2018Delft3D
Model application 1
Borsje, Bas; Kruijt, Maurits; Werf, Jebbe Van der; Hulscher, Suzanne; Herman, Peter; 2011. MODELING BIOGEOMORPHOLOGICAL INTERACTIONS IN UNDERWATER NOURISHMENTS. Coastal Engineering Proceedings, 1, 104. 10.9753/icce.v32.sediment.104
(View/edit entry)
2011Delft3D
Model application 1
Ţene, Matei; Stuparu, Dana E.; Kurowicka, Dorota; El Serafy, Ghada Y.; 2018. A copula-based sensitivity analysis method and its application to a North Sea sediment transport model. Environmental Modelling & Software, 104, 1–12. 10.1016/j.envsoft.2018.03.002
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2018Delft3D
Model application 1
Huang, Jun; Zhang, Xiaofeng; Chua, Vivien P.; 2016. SPATIALLY-AVERAGED DIFFUSIVITIES FOR POLLUTANT TRANSPORT IN VEGETATED FLOWS. International Journal of Modern Physics: Conference Series, 42, 1660170. 10.1142/S2010194516601708
(View/edit entry)
2016Delft3D
Model application 0
Lee, Chilwoo; Hwang, Sooncheol; Do, Kideok; Son, Sangyoung; 2019. Increasing flood risk due to river runoff in the estuarine area during a storm landfall. Estuarine, Coastal and Shelf Science, 221, 104–118. 10.1016/j.ecss.2019.03.021
(View/edit entry)
2019Delft3D
Model application 2
Van der Werf, Jebbe; Giardino, Alessio; Mulder, Jan; Stolk, Ad; 2011. A FIRST INVESTIGATION INTO THE IMPACT OF VERY LARGE-SCALE OFFSHORE SAND MINING ALONG THE DUTCH COAST. Coastal Engineering Proceedings, 1, 97. 10.9753/icce.v32.sediment.97
(View/edit entry)
2011Delft3D
Model application 3
Schleiss, Anton; de Cesare, Giovanni; Franca, Mario; Pfister, Michael; Parsapour-Moghaddam, P; Rennie, C; 2014. Morphodynamic modelling of a tortuous meandering clay bed river using Delft3D: Stillwater Creek, Ottawa. In: (eds.)River Flow 2014.. 1163–1171.
(View/edit entry)
2014Delft3D
Model application 3
Barrera Crespo, Pedro D.; Mosselman, Erik; Giardino, Alessio; Becker, Anke; Ottevanger, Willem; Nabi, Mohamed; Arias-Hidalgo, Mijail; 2019. Sediment budget analysis of the Guayas River using a process-based model. Hydrology and Earth System Sciences, 23, 2763–2778. 10.5194/hess-23-2763-2019
(View/edit entry)
2019Delft3D
Model application 1
Chang, Yeon S.; Huisman, Bas; de Boer, Wiebe; Yoo, Jeseon; 2018. Hindcast of Long-term Shoreline Change due to Coastal Interventions at Namhangjin, Korea. Journal of Coastal Research, 85, 201–205. 10.2112/SI85-041.1
(View/edit entry)
2018Delft3D
Model application 1
Veeramony, Jayaram; Condon, Andrew; van Ormondt, Maarten; 2017. Forecasting Storm Surge and Inundation: Model Validation. Weather and Forecasting, 32, 2045–2063. 10.1175/WAF-D-17-0015.1
(View/edit entry)
2017Delft3D
Model application 3
Akurut, M.; Willems, P.; Niwagaba, C. B.; 2014. Assessing the influence of Lake Victoria flux on the Inner Murchison Bay water quality. . Volume .
(View/edit entry)
2014Delft3D
Model application 4
Hosseini, Seyed Mahmood; Coonrod, Julie; 2011. Coupling Numerical and Physical Modeling for Analysis of Flow in a Diversion Structure with Coanda-effect Screens. Water, 3, 764–786. 10.3390/w3030764
(View/edit entry)
2011Delft3D
Model application 2
Sun, Yabin; Sisomphon, Piyamarn; Babovic, Vladan; Chan, Eng Soon; 2009. Efficient data assimilation method based on chaos theory and Kalman filter with an application in Singapore Regional Model. Journal of Hydro-environment Research, 3, 85–95. 10.1016/j.jher.2009.07.003
(View/edit entry)
2009Delft3D
Model application 3
Villanoy, Cesar; David, Laura; Cabrera, Olivia; Atrigenio, Michael; Siringan, Fernando; Aliño, Porfirio; Villaluz, Maya; 2012. Coral reef ecosystems protect shore from high-energy waves under climate change scenarios. Climatic Change, 112, 493–505. 10.1007/s10584-012-0399-3
(View/edit entry)
2012Delft3D
Model application 10
Nahorniak, Matthew; Wheaton, Joe; Volk, Carol; Bailey, Phillip; Reimer, Matt; Wall, Eric; Whitehead, Kelly; Jordan, Chris; 2018. How do we efficiently generate high-resolution hydraulic models at large numbers of riverine reaches?. Computers & Geosciences, 119, 80–91. 10.1016/j.cageo.2018.07.001
(View/edit entry)
2018Delft3D
Model application 2
Walker, Justin H.; Bryan, Karin R.; Trembanis, Arthur C.; 2020. The influence of tidal jet current – Ocean wave interaction on the embayed beach processes. Marine Geology, 426, 106200. 10.1016/j.margeo.2020.106200
(View/edit entry)
2020Delft3D
Model application 0
van der Wegen, M.; Jaffe, B.E.; 2013. Does centennial morphodynamic evolution lead to higher channel efficiency in San Pablo Bay, California?. Marine Geology, 345, 254–265. 10.1016/j.margeo.2013.06.020
(View/edit entry)
2013Delft3D
Model application 3
Morelissen, Robin; Vlijm, Roland; Hwang, Intae; Doneker, Robert L.; Ramachandran, Adi S.; 2016. Hydrodynamic modelling of large-scale cooling water outfalls with a dynamically coupled near-field–far-field modelling system. Journal of Applied Water Engineering and Research, 4, 138–151. 10.1080/23249676.2015.1099480
(View/edit entry)
2016Delft3D
Model application 3
Elhakeem, Abubaker; Elshorbagy, Walid; 2015. Hydrodynamic evaluation of long term impacts of climate change and coastal effluents in the Arabian Gulf. Marine Pollution Bulletin, 101, 667–685. 10.1016/j.marpolbul.2015.10.032
(View/edit entry)
2015Delft3D
Model application 5
van de Lageweg, W.I.; Feldman, H.; 2018. Process-based modelling of morphodynamics and bar architecture in confined basins with fluvial and tidal currents. Marine Geology, 398, 35–47. 10.1016/j.margeo.2018.01.002
(View/edit entry)
2018Delft3D
Model application 2
Chatzirodou, Antonia; Karunarathna, Harshinie; Reeve, Dominic E.; 2016. Investigation of deep sea shelf sandbank dynamics driven by highly energetic tidal flows. Marine Geology, 380, 245–263. 10.1016/j.margeo.2016.04.011
(View/edit entry)
2016Delft3D
Model application 3
Lai, Fuchun; Liu, Haijiang; 2017. Wave setup properties in the surge-wave coupled simulation: a case study of Typhoon Khanun. Procedia IUTAM, 25, 111–118. 10.1016/j.piutam.2017.09.017
(View/edit entry)
2017Delft3D
Model application 0
Herdman, Liv; Erikson, Li; Barnard, Patrick; 2018. Storm Surge Propagation and Flooding in Small Tidal Rivers during Events of Mixed Coastal and Fluvial Influence. Journal of Marine Science and Engineering, 6, 158. 10.3390/jmse6040158
(View/edit entry)
2018Delft3D
Model application 3
Yano, Shinichiro; Winterwerp, Johan C; Tai, Akira; Saita, Tomonori; 2010. Numerical Experiments on Features of Nonlinear Tide and Its Influences on Sediment Transport in the Ariake Sea and the Yatsushiro Sea. Journal of Japan Society of Civil Engineers, Ser. B2 (Coastal Engineering), 66, 341–345. 10.2208/kaigan.66.341
(View/edit entry)
2010Delft3D
Model application 1
de Schipper, Matthieu A.; Reniers, Ad J.H.M.; Ranasinghe, Roshanka; Stive, Marcel J.F.; 2014. The influence of sea state on formation speed of alongshore variability in surf zone sand bars. Coastal Engineering, 91, 45–59. 10.1016/j.coastaleng.2014.05.001
(View/edit entry)
2014Delft3D
Model application 1
Qian, Xuesheng; Chen, Yongping; Zhang, Changkuan; Pan, Yi; Das, Himangshu; 2015. Radial tidal current field in a semi-enclosed rectangular basin: formation and evolution. Chinese Journal of Oceanology and Limnology, 33, 1085–1099. 10.1007/s00343-015-4220-9
(View/edit entry)
2015Delft3D
Model application 2
Gu, Jie; Li, Wen Ting; Huang, Jing; Han, Bing; 2012. Numerical Study on the Impact of the Sewage Drainage on Water Quality of Shanghai Water Sources. Advanced Materials Research, 433, 1020–1026. 10.4028/www.scientific.net/AMR.433-440.1020
(View/edit entry)
2012Delft3D
Model application 3
Chatzirodou, Antonia; Karunarathna, Harshinie; Reeve, Dominic E.; 2019. 3D modelling of the impacts of in-stream horizontal-axis Tidal Energy Converters (TECs) on offshore sandbank dynamics. Applied Ocean Research, 91, 101882. 10.1016/j.apor.2019.101882
(View/edit entry)
2019Delft3D
Model application 2
SatheeshKumar, J; Balaji, R; 2015. Inter-Comparison of Hydrodynamic Models of Gulf of Khambhat. The International Journal of Ocean and Climate Systems, 6, 35–46. 10.1260/1759-3131.6.1.35
(View/edit entry)
2015Delft3D
Model application 3
Ji, Hanqing; Fang, Shibiao; Hao, Haoyu; Xu, Xuefeng; Xie, Zhongyu; Cheng, Hao; 2017. Simulation of storm surge during typhoon on Dongtou fishery port. . Volume .
(View/edit entry)
2017Delft3D
Model application 0
Luijendijk, Arjen; De Vries, Sierd; Van Het Hooft, Thijs; De Schipper, Matthieu; 2019. PREDICTING DUNE GROWTH AT THE SAND ENGINE BY COUPLING THE DELFT3D FLEXIBLE MESH AND AEOLIS MODELS. . Volume .
(View/edit entry)
2019Delft3D
Model application 0
van der Werf, J.J.; Damen, J.M.; Roos, P.C.; Vroom, J.; Elias, E.P.L.; Hulscher, S.J.M.H.; 2020. Erosion mechanism of the landward Oostgat tidal channel slope, The Netherlands. Continental Shelf Research, 193, 104027. 10.1016/j.csr.2019.104027
(View/edit entry)
2020Delft3D
Model application 0
Rahman, Shazzadur; Islam, A K M Saiful; Saha, Probal; Tazkia, Abdur Rahman; Krien, Yann; Durand, Fabien; Testut, Laurent; Islam, G M Tarekul; Bala, Sujit Kumar; 2019. Projected changes of inundation of cyclonic storms in the Ganges–Brahmaputra–Meghna delta of Bangladesh due to SLR by 2100. Journal of Earth System Science, 128, 145. 10.1007/s12040-019-1184-8
(View/edit entry)
2019Delft3D
Model application 1
Alvarez-Mieles, Gabriela; Corzo, Gerald; Mynett, Arthur E.; 2019. Spatial and Temporal Variations′ of Habitat Suitability for Fish. In: (eds.)Spatiotemporal Analysis of Extreme Hydrological Events.. 113–141.
(View/edit entry)
2019Delft3D
Model application 0
Dai, Peng; Zhang, Jisheng; Zheng, Jinhai; 2017. Tidal current and tidal energy changes imposed by a dynamic tidal power system in the Taiwan Strait, China. Journal of Ocean University of China, 16, 953–964. 10.1007/s11802-017-3237-4
(View/edit entry)
2017Delft3D
Model application 1
Storms, Joep E. A.; Stive, Marcel J. F.; Roelvink, Dano (J.) A.; Walstra, Dirk Jan; 2007. Initial Morphologic and Stratigraphic Delta Evolution Related to Buoyant River Plumes. . Volume .
(View/edit entry)
2007Delft3D
Model application 11
Kuang, Cuiping; Mao, Xiaodan; Liu, Pengchen; Deng, Ling; Gu, Jie; Ma, Zhen; Du, Dong; Yang, Jilong; Liu, Futian; Song, Honglin; 2015. Influence of Wind Force on a Silt-Muddy Coast: Huanghua Harbor Coast, China. Journal of Waterway, Port, Coastal, and Ocean Engineering, 141, 05015001. 10.1061/(ASCE)WW.1943-5460.0000299
(View/edit entry)
2015Delft3D
Model application 6
Thanh Tung, Tran; Van De Kreeke, J.; Stive, M. J. F.; 2011. DYNAMIC EQUILIBRIUM AND MORPHOLOGICAL STABILITY OF IDEALIZED TIDAL INLETS USING PROCESS-BASED MODELLING. . Volume .
(View/edit entry)
2011Delft3D
Model application 0
Li, Lin Lu; Huang, Wen Rui; Liu, Shu Guang; Liu, Xiao Li; Hu, Xin Yu; Teng, Fei; 2013. Two Dimensional Hydrodynamic and Pollutant Transport Modeling of Jiangyin-Xuliujing Reach of Yangtze Estuary. Advanced Materials Research, 663, 999–1004. 10.4028/www.scientific.net/AMR.663.999
(View/edit entry)
2013Delft3D
Model application 1
Lu, Jianzhong; Wai, Onyx W. H.; Chen, Xiaoling; Zhang, Peng; 2014. Flow prediction using ENVISAT RA-2 sea surface height validated model: A case study for the effect of Hong Kong-Zhuhai-Macau Bridge in the Pearl River Estuary, China. Aquatic Ecosystem Health & Management, 17, 305–315. 10.1080/14634988.2014.944478
(View/edit entry)
2014Delft3D
Model application 1
Pinheiro, João P.; Lopes, Carina L.; Ribeiro, Américo S.; Sousa, Magda C.; Dias, João M.; 2020. Tide-surge interaction in Ria de Aveiro lagoon and its influence in local inundation patterns. Continental Shelf Research, 200, 104132. 10.1016/j.csr.2020.104132
(View/edit entry)
2020Delft3D
Model application 0
Malheiros Miranda, Inaiê; Toldo, Elírio Ernestino; da Fontoura Klein, Antonio Henrique; Strauss, Darrell; Vieira da Silva, Guilherme; 2020. The role of cuspate spits on wave attenuation and energy redistribution in a coastal lagoon, Lagoa dos Patos, Brazil. Geo-Marine Letters, , . 10.1007/s00367-019-00632-9
(View/edit entry)
2020Delft3D
Model application 0
Duong, Trang Minh; Ranasinghe, Roshanka; Luijendijk, Arjen; Walstra, Dirk-Jan; Roelvink, Dano; 2014. A QUALITATIVE ASSESSMENT OF CLIMATE CHANGE IMPACTS ON THE STABILITY OF SMALL TIDAL INLETS VIA SCHEMATISED NUMERICAL MODELLING. Coastal Engineering Proceedings, 1, 3. 10.9753/icce.v34.posters.3
(View/edit entry)
2014Delft3D
Model application 1
Barrett, Lawrence; Wright, Nigel G.; Sterling, Mark; 2011. A comparison of 2D and 3D simulations of the River Blackwater. Proceedings of the Institution of Civil Engineers - Engineering and Computational Mechanics, 164, 217–232. 10.1680/eacm.2011.164.4.217
(View/edit entry)
2011Delft3D
Model application 1
Son, Sangyoung; Lee, Chilwoo; Jung, Tae-Hwa; Do, Kideok; 2018. COUPLED HYDRODYNAMIC-HYDROLOGICAL MODELING FOR STORM SURGE INUNDATION IN THE COASTAL AREA. Coastal Engineering Proceedings, , 90. 10.9753/icce.v36.sediment.90
(View/edit entry)
2018Delft3D
Model application 0
McCarroll, R. Jak; Masselink, Gerd; Valiente, Nieves G.; Wiggins, Mark; Scott, Tim; Conley, Daniel C.; King, Erin V.; 2020. Impact of a headland-associated sandbank on shoreline dynamics. Geomorphology, 355, 107065. 10.1016/j.geomorph.2020.107065
(View/edit entry)
2020Delft3D
Model application 1
List, Jeffrey H.; Benedet, Lindino; Hanes, Daniel M.; Ruggiero, Peter; 2009. UNDERSTANDING DIFFERENCES BETWEEN DELFT3D AND EMPIRICAL PREDICTIONS OF ALONGSHORE SEDIMENT TRANSPORT GRADIENTS. . Volume .
(View/edit entry)
2009Delft3D
Model application 7
De Lucas Pardo, M.A.; 2014. Effect of biota on fine sediment transport processes: A study of Lake Markermeer. , , .
(View/edit entry)
2014Delft3D
Model application 4
Manson, Gavin K.; Davidson-Arnott, Robin G.D.; Forbes, Donald L.; Rygel, Michael; 2016. Modelled nearshore sediment transport in open-water conditions, central north shore of Prince Edward Island, Canada. Canadian Journal of Earth Sciences, 53, 101–118. 10.1139/cjes-2015-0090
(View/edit entry)
2016Delft3D
Model application 2
, ; 2014. 수리구조물 하류에서 어류의 피난처 해석을 위한 수치모의 (구미보를 중심으로). Ecology and Resilient Infrastructure, 1, 8–18. 10.17820/ERI.2014.1.1.008
(View/edit entry)
2014Delft3D
Model application 1
Escobar, Carlos A.; Velásquez, Liliana; Posada, Federico; 2015. Marine Currents in the Gulf of Urabá, Colombian Caribbean Sea. Journal of Coastal Research, 316, 1363–1374. 10.2112/JCOASTRES-D-14-00186.1
(View/edit entry)
2015Delft3D
Model application 4
Salehi, Mehrdad; 2018. Storm Surge and Wave Impact of Low-Probability Hurricanes on the Lower Delaware Bay—Calibration and Application. Journal of Marine Science and Engineering, 6, 54. 10.3390/jmse6020054
(View/edit entry)
2018Delft3D
Model application 2
Vona, Iacopo; Gray, Matthew W.; Nardin, William; 2020. The Impact of Submerged Breakwaters on Sediment Distribution along Marsh Boundaries. Water, 12, 1016. 10.3390/w12041016
(View/edit entry)
2020Delft3D
Model application 1
Jayathilaka, R.M.R.M.; Fernando, M.C.S.; 2019. Numerical modelling of the spatial variation of sediment transport using wave climate schematization method - a case study of west coast of Sri Lanka. Journal of the National Science Foundation of Sri Lanka, 47, 421. 10.4038/jnsfsr.v47i4.9679
(View/edit entry)
2019Delft3D
Model application 0
Wan, Yuanyang; Wang, Li; 2017. Numerical investigation of the factors influencing the vertical profiles of current, salinity, and SSC within a turbidity maximum zone. International Journal of Sediment Research, 32, 20–33. 10.1016/j.ijsrc.2016.07.003
(View/edit entry)
2017Delft3D
Model application 2
Cooper, Amelia; Mulligan, Ryan; 2016. Application of a Spectral Wave Model to Assess Breakwater Configurations at a Small Craft Harbour on Lake Ontario. Journal of Marine Science and Engineering, 4, 46. 10.3390/jmse4030046
(View/edit entry)
2016Delft3D
Model application 3
Chatzirodou, Antonia; Karunarathna, Harshinie; Reeve, Dominic E.; 2017. Modelling 3D hydrodynamics governing island-associated sandbanks in a proposed tidal stream energy site. Applied Ocean Research, 66, 79–94. 10.1016/j.apor.2017.04.008
(View/edit entry)
2017Delft3D
Model application 2
Liu, Sien; Ye, Qinghua; Wu, Shiqiang; Stive, Marcel J. F.; 2020. Wind Effects on the Water Age in a Large Shallow Lake. Water, 12, 1246. 10.3390/w12051246
(View/edit entry)
2020Delft3D
Model application 0
Venâncio, Stênio De Sousa; Pinho, José Luís; Vieira, José Manuel; Avilez-Valente, Paulo; Iglesias, Isabel; 2019. Analysis of estuarine flood levels based on numerical modelling. The Douro river estuary case study. Revista Eletrônica em Gestão, Educação e Tecnologia Ambiental, 23, 14. 10.5902/2236117038538
(View/edit entry)
2019Delft3D
Model application 0
Michele, Greco; Giovanni, Martino; Annibale, Guariglia; Lucia, Trivigno; Vito, Sansanelli; Angela, Losurdo; 2017. Development of an Integrated SDSS for Coastal Risks Monitoring and Assessment. Journal of Coastal Zone Management, 20, . 10.4172/2473-3350.1000446
(View/edit entry)
2017Delft3D
Model application 1
Vroom, J.; van der Wegen, M.; Martyr-Koller, R. C.; Lucas, L. V.; 2017. What Determines Water Temperature Dynamics in the San Francisco Bay-Delta System?: WATER TEMPERATURE DYNAMICS. Water Resources Research, 53, 9901–9921. 10.1002/2016WR020062
(View/edit entry)
2017Delft3D
Model application 1
Deng, Chun-yan; Xia, Jun-qiang; Yuan, Yuan; Min, Wang; 2019. Modeling of the Effects of Secondary Flow on Bank Failure in a Curved Channel. IOP Conference Series: Earth and Environmental Science, 304, 022040. 10.1088/1755-1315/304/2/022040
(View/edit entry)
2019Delft3D
Model application 0
Putzu, Stefano; Enrile, Francesco; Besio, Giovanni; Cucco, Andrea; Cutroneo, Laura; Capello, Marco; Stocchino, Alessandro; 2019. A Reasoned Comparison between Two Hydrodynamic Models: Delft3D-Flow and ROMS (Regional Oceanic Modelling System). Journal of Marine Science and Engineering, 7, 464. 10.3390/jmse7120464
(View/edit entry)
2019Delft3D
Model application 1
Bergillos, Rafael J.; Rodriguez-Delgado, Cristobal; Iglesias, Gregorio; 2020. Management of Coastal Erosion Under Climate Change Through Wave Farms. In: (eds.)Ocean Energy and Coastal Protection.. 59–73.
(View/edit entry)
2020Delft3D
Model application 0
Abundo, Michael Lochinvar S.; Ang, Ma. Rosario Concepcion O.; Buhali, Mario; 2012. Tidal in-stream energy potential metric: Calibration and estimation in selected sites in the Philippines. . Volume .
(View/edit entry)
2012Delft3D
Model application 0
Pokavanich, Tanuspong; Alosairi, Yousef; Graaff, Reimer De; Morelissen, Robin; Verbruggen, Wilbert; Al-Refail, Kholood; Taqi, Altaf; Al-Said, Turki; 2014. THREE-DIMENSIONAL HYDRO-ENVIRONMENT CHARACTERIZATION AND MODELING OF THE NORTHERN ARABIAN GULF. Coastal Engineering Proceedings, 1, 41. 10.9753/icce.v34.management.41
(View/edit entry)
2014Delft3D
Model application 3
Mohamed Ahmed, A.S.; 2004. Mathematical model investigation of the suitable countermeasure for the accretion problem at Rosetta Estuary, Egypt. . Volume 1.
(View/edit entry)
2004Delft3D
Model application 3
Aarninkhof, Stefan; Wijnberg, Kathelijne; Roelvink, Dano; Reniers, Ad; 2006. 2DH-Quantification of Surf Zone Bathymetry from Video. . Volume .
(View/edit entry)
2006Delft3D
Model application 2
Dastgheib, Ali; Wulandari, Ayu S. R.; Ranasinghe, Roshanka; 2018. Investigating the Stability of Double-Inlet Tidal Systems Using a Process-Based Modelling Approach. Journal of Coastal Research, 85, 161–165. 10.2112/SI85-033.1
(View/edit entry)
2018Delft3D
Model application 0
Eelkema, Menno; Wang, Zheng Bing; Stive, Marcel J.F.; 2011. SEDIMENT TRANSPORT DYNAMICS IN RESPONSE TO A STORM-SURGE BARRIER. . Volume .
(View/edit entry)
2011Delft3D
Model application 0
Li, Xin; Wu, De An; 2011. Study on the Yangtze River Estuarine Turbidity Maximum. Applied Mechanics and Materials, 90, 2774–2777. 10.4028/www.scientific.net/AMM.90-93.2774
(View/edit entry)
2011Delft3D
Model application 3
Jung, Jae-Sang; Cho, Yong-Sik; 2013. A 3D Hydrodynamic Model for Determination of Flood Level inside Saemangeum Embankment. Journal of Coastal Research, 65, 243–248. 10.2112/SI65-042.1
(View/edit entry)
2013Delft3D
Model application 0
Bennett, William George; Karunarathna, Harshinie; 2019. Coastal flood alleviation through management interventions under changing climate conditions. International Journal of Disaster Resilience in the Built Environment, 11, 187–203. 10.1108/IJDRBE-07-2019-0042
(View/edit entry)
2019Delft3D
Model application 0
Storms, J.E.A.; Walstra, D.; Li, L.; van der Vegt, H.; de Boer, W.; van Putten, H.; Forzoni, A.; 2016. Towards an Open-source Web-based Delft3D GeoTool. . Volume .
(View/edit entry)
2016Delft3D
Model application 1
Symonds, Andrew Mark; Vijverberg, Thomas; Post, Sander; Van der Spek, Bart-Jan; Henrotte, Johan; Sokolewicz, Marius; 2017. COMPARISON BETWEEN MIKE 21 FM, DELFT3D AND DELFT3D FM FLOW MODELS OF WESTERN PORT BAY, AUSTRALIA. Coastal Engineering Proceedings, , 11. 10.9753/icce.v35.currents.11
(View/edit entry)
2017Delft3D
Model application 3
Zhang, Changkuan; Tang, Hongwu; Zhu, Yuliang; Yang, Juan; Hao, Jialing; Shen, Hongyan; 2009. Numerical Simulation of Hydrodynamic Characteristics and Water Quality in Yangchenghu Lake. In: (eds.)Advances in Water Resources and Hydraulic Engineering.. 710–715.
(View/edit entry)
2009Delft3D
Model application 4
Treffers, Roald B.; van der Werf, Jebbe J.; van Ormondt, Maarten; Walstra, Dirk-Jan; 2009. 37. 3D COMPUTATIONS OF WAVE-DRIVEN LONGSHORE CURRENTS IN THE SURF ZONE. . Volume .
(View/edit entry)
2009Delft3D
Model application 1
Saha, Probal; Islam, Minhazul; Oyshi, Jarin Tasneem; Khanum, Roufa; Nishat, Ainun; 2019. A sustainability study of the flow regulation impacts by dams in a carp breeding river using the hydrodynamic model and building block analysis. SN Applied Sciences, 1, 1429. 10.1007/s42452-019-1417-0
(View/edit entry)
2019Delft3D
Model application 1
, ; 2015. 2개의 하천이 합류하는 하구역에서의 연결수로 통수능에 따른 홍수위저감효과 분석. Journal of Korea Water Resources Association, 48, 1065–1075. 10.3741/JKWRA.2015.48.12.1065
(View/edit entry)
2015Delft3D
Model application 1
Siemes, Rutger W. A.; Borsje, Bas W.; Daggenvoorde, Roy J.; Hulscher, Suzanne J. M. H.; 2020. Artificial Structures Steer Morphological Development of Salt Marshes: A Model Study. Journal of Marine Science and Engineering, 8, 326. 10.3390/jmse8050326
(View/edit entry)
2020Delft3D
Model application 0
van Rijn, L. C.; Walstra, D. J. R.; Tonnon, P. K.; 2006. Morphological Modelling of Artificial Sand Ridge Near Hoek van Holland, The Netherlands. . Volume .
(View/edit entry)
2006Delft3D
Model application 3
Windupranata, W.; Mayerle, R.; 2009
(View/edit entry)
2009Delft3D
Model application 3
Rodrigo, Socorro Margarita T.; Villanoy, Cesar L.; Briones, Jeric C.; Bilgera, Princess Hope T.; Cabrera, Olivia C.; Narisma, Gemma Teresa T.; 2018. The mapping of storm surge-prone areas and characterizing surge-producing cyclones in Leyte Gulf, Philippines. Natural Hazards, 92, 1305–1320. 10.1007/s11069-018-3252-9
(View/edit entry)
2018Delft3D
Model application 0
Hanegan, K.; Georgiou, I.; 2015. Tidal modulated flow and sediment flux through Wax Lake Delta distributary channels: Implications for delta development. Proceedings of the International Association of Hydrological Sciences, 367, 391–398. 10.5194/piahs-367-391-2015
(View/edit entry)
2015Delft3D
Model application 5
Hoekstra, Roderik; Walstra, Dirk-Jan R.; Swinkels, Cilia S.; 2012. PILOT PROJECT SAND GROYNES DELFLAND COAST. Coastal Engineering Proceedings, 1, 128. 10.9753/icce.v33.sediment.128
(View/edit entry)
2012Delft3D
Model application 1
Wang, Zhenlu; Liang, Bingchen; Wu, Guoxiang; Borsje, B.W.; 2019. Modeling the formation and migration of sand waves: The role of tidal forcing, sediment size and bed slope effects. Continental Shelf Research, 190, 103986. 10.1016/j.csr.2019.103986
(View/edit entry)
2019Delft3D
Model application 0
Gu, Jie; Chen, Wei; Qin, Xin; Ma, Dan Qing; Wang, Xiao Li; Yang, Ji Zhong; 2012. Simulation to Investigate the Reasons for the Sediment Deposition in the Upper Reach of the Deepwater Navigation Channel in the Changjiang River Estuary. Advanced Materials Research, 610, 1237–1241. 10.4028/www.scientific.net/AMR.610-613.1237
(View/edit entry)
2012Delft3D
Model application 1
Gu, Jie; Qin, Xin; Chen, Wei; Ma, Dan Qing; Wang, Xiao Li; Yang, Ji Zhong; 2012. Influence of the Diversion Angle on Flow Characteristics of the North Branch of the Changjiang River Estuary. Advanced Materials Research, 610, 2697–2700. 10.4028/www.scientific.net/AMR.610-613.2697
(View/edit entry)
2012Delft3D
Model application 0
Van Der Werf, Jebbe; Veen, Roelof; Ribberink, Jan; Van Der Zanden, Joep; 2015. TESTING OF THE NEW SANTOSS TRANSPORT FORMULA IN THE DELFT3D MORPHOLOGICAL MODELING SYSTEM. . Volume .
(View/edit entry)
2015Delft3D
Model application 1
Banda, Mohd. Sarfaraz; Niewerth, Stephan; Aberle, Jochen; Paquier, A.; Rivière, N.; 2018. 2D numerical simulation of meander morphology. E3S Web of Conferences, 40, 05062. 10.1051/e3sconf/20184005062
(View/edit entry)
2018Delft3D
Model application 0
Grasmeijer, Bart; Chu, Ao; van Rijn, Leo; 2011. APPLICATION AND COMPARISON OF TWO DIFFERENT FINE COHESIVE SEDIMENT TRANSPORT MODELS IN DELFT3D. . Volume .
(View/edit entry)
2011Delft3D
Model application 0
Condon, A.; Veeramony, J.; 2012. Development and validation of a coastal surge and inundation prediction system. . Volume .
(View/edit entry)
2012Delft3D
Model application 1
Hansen, Jeff E.; Elias, Edwin; List, Jeffrey H.; Barnard, Patrick L.; 2011. A Numerical Model Investigation of the Formation and Persistence of an Erosion Hotspot. . Volume .
(View/edit entry)
2011Delft3D
Model application 1
Plüß, A.; Kösters, F.; 2014. Morphodynamic modelling for the entire German Bight: an initial study on model sensitivity and uncertainty. Advances in Geosciences, 39, 61–68. 10.5194/adgeo-39-61-2014
(View/edit entry)
2014Delft3D
Model application 2
Yang, J Y; Zhou, L Y; 2016. Simulation of water temperature in two reservoirs with Delft3d. IOP Conference Series: Earth and Environmental Science, 39, 012073. 10.1088/1755-1315/39/1/012073
(View/edit entry)
2016Delft3D
Model application 1
Horita, Cristina Ono; Bleninger, Tobias Bernward; Morelissen, Robin; de Carvalho, João Luiz Baptista; 2019. Dynamic coupling of a near with a far field model for outfall discharges. Journal of Applied Water Engineering and Research, 7, 295–313. 10.1080/23249676.2019.1685413
(View/edit entry)
2019Delft3D
Model application 0
Trung Viet, Nguyen; Xiping, Dou; Thanh Tung, Tran; Laknath, D. P. C.; Sewwandi, K. A. H. S.; Hailong, H.; 2020. Analysis of Cyclone Events in Bay of Bengal and Simulation of Storm Surge in Eastern Coast of Sri Lanka. In: (eds.)APAC 2019.. 1319–1326.
(View/edit entry)
2020Delft3D
Model application 0
Rueda-Bayona, Juan Gabriel; Osorio, Andrés F.; Guzmán, Andrés; 2020. Set-up and input dataset files of the Delft3d model for hydrodynamic modelling considering wind, waves, tides and currents through multidomain grids. Data in Brief, 28, 104921. 10.1016/j.dib.2019.104921
(View/edit entry)
2020Delft3D
Model application 0
Gu, Jie; Qin, Xin; Chen, Wei; Ma, Dan Qing; Wang, Xiao Li; 2012. Numerical Analysis of the Influence of Saltwater Intrusion on the Deepwater Channel in the Changjiang Estuary. Applied Mechanics and Materials, 204, 2352–2356. 10.4028/www.scientific.net/AMM.204-208.2352
(View/edit entry)
2012Delft3D
Model application 0
Oliveira, Vítor H.; Sousa, Magda C.; Morgado, Fernando; Dias, João M.; 2019. Modeling the Impact of Extreme River Discharge on the Nutrient Dynamics and Dissolved Oxygen in Two Adjacent Estuaries (Portugal). Journal of Marine Science and Engineering, 7, 412. 10.3390/jmse7110412
(View/edit entry)
2019Delft3D
Model application 0
Fernández-Fernández, Sandra; Ferreira, Caroline C.; Silva, Paulo A.; Baptista, Paulo; Romão, Soraia; Fontán-Bouzas, Ángela; Abreu, Tiago; Bertin, Xavier; 2019. Assessment of Dredging Scenarios for a Tidal Inlet in a High-Energy Coast. Journal of Marine Science and Engineering, 7, 395. 10.3390/jmse7110395
(View/edit entry)
2019Delft3D
Model application 1
Jisan, Mansur Ali; Bao, Shaowu; Pietrafesa, Leonard J.; 2017. Ensemble Projection of the Sea Level Rise Impact on Storm Surge and Inundation in the Coastal Bangladesh. .
(View/edit entry)
2017Delft3D
Model application 1
Trung Viet, Nguyen; Xiping, Dou; Thanh Tung, Tran; Durai Eswaran, S. R.; Sannasiraj, S. A.; Sundar, V.; 2020. Study on Wave Amplification Using Circular and Elliptical Plates. In: (eds.)APAC 2019.. 1123–1126.
(View/edit entry)
2020Delft3D
Model application 0
Németh, Attila A.; Hulscher, Suzanne J. M. H.; van Damme, Ruud M. J.; 2001. Numerical Simulation of Sand Wave Evolution in Shallow Shelf Seas. . Volume .
(View/edit entry)
2001Delft3D
Model application 5
Paladini de Mendoza, Francesco; Bonamano, Simone; Martellucci, Riccardo; Melchiorri, Cristiano; Consalvi, Natalizia; Piermattei, Viviana; Marcelli, Marco; 2018. Circulation during Storms and Dynamics of Suspended Matter in a Sheltered Coastal Area. Remote Sensing, 10, 602. 10.3390/rs10040602
(View/edit entry)
2018Delft3D
Model application 0
Kuang, Cuiping; He, Lulu; Xing, Fei; Deng, Ling; Gu, Jie; 2009. Numerical Study on the Evolution Process of Polluted Water Cluster in Gonghu, Taihu Lake. . Volume .
(View/edit entry)
2009Delft3D
Model application 1
Ferreira, Caroline; Silva, Paulo A.; Fernández-Fernández, Sandra; Baptista, Paulo; Abreu, Tiago; Romão, Soraia; Fontán-Bouzas, Ángela; Bertin, Xavier; Garrido, Carla; 2018. Wave Climate Definition on Modeling Morphological Changes in Figueira da Foz Coastal System (W Portugal). Journal of Coastal Research, 85, 1256–1260. 10.2112/SI85-252.1
(View/edit entry)
2018Delft3D
Model application 0
Chow, Aaron C.; Verbruggen, Wilbert; Morelissen, Robin; Al-Osairi, Yousef; Ponnumani, Poornima; Lababidi, Haitham M. S.; Al-Anzi, Bader; Adams, E. Eric; 2019. Numerical Prediction of Background Buildup of Salinity Due to Desalination Brine Discharges into the Northern Arabian Gulf. Water, 11, 2284. 10.3390/w11112284
(View/edit entry)
2019Delft3D
Model application 1
, ; 2011. Numerical simulation of impact of the upstream discharge on salinity at Qingcaosha reservoir. . Volume .
(View/edit entry)
2011Delft3D
Model application 0
Gourbesville, Philippe; Cunge, Jean; Caignaert, Guy; Kerin, Igor; Giri, Sanjay; Bekić, Damir; 2018. Simulation of Levee Breach Using Delft Models: A Case Study of the Drava River Flood Event. In: (eds.)Advances in Hydroinformatics.. 1117–1131.
(View/edit entry)
2018Delft3D
Model application 0
Zhu, Hao; Zuo, Liqin; Reyns, Johan; Lu, Yongjun; Dastgheib, Ali; Roelvink, Dano; 2020. Morphologic modelling of tidal inlet on a barrier-lagoon coast: Case study of the Laolonggou tidal inlet in the Bohai Bay. Applied Ocean Research, 94, 101967. 10.1016/j.apor.2019.101967
(View/edit entry)
2020Delft3D
Model application 0
Pu, Jaan Hui; 2016. Conceptual hydrodynamic-thermal mapping modelling for coral reefs at south Singapore sea. Applied Ocean Research, 55, 59–65. 10.1016/j.apor.2015.11.011
(View/edit entry)
2016Delft3D
Model application 2
Fan, Fei; You, Wei; Zhu, Zhi Xia; Dong, Pei Hua; 2014. Modelling Study of the Influence of Wave Farm to Nearshore Wave Climate and Current. Advanced Materials Research, 955, 1126–1131. 10.4028/www.scientific.net/AMR.955-959.1126
(View/edit entry)
2014Delft3D
Model application 0
Wang, Yang Jun; Yin, Tai Ju; Deng, Zhi Hao; 2015. A Study on the Evolution of Distributary Channels in River-Dominated Deltas Using Numerical Simulations of Hydrodynamic Behaviors. Applied Mechanics and Materials, 744, 1050–1055. 10.4028/www.scientific.net/AMM.744-746.1050
(View/edit entry)
2015Delft3D
Model application 0
Yang, Ji Zhong; Gu, Jie; Ma, Dan Qing; Wang, Xiao Li; Hu, Tian; Wang, Yuan; 2013. Numerical Analysis of Ebb Water Split Ratio of the South and North Branch in the Changjiang Estuary. Advanced Materials Research, 807, 1624–1627. 10.4028/www.scientific.net/AMR.807-809.1624
(View/edit entry)
2013Delft3D
Model application 0
Van Ballegooyen, R.; Taljaard, S.; Van Niekerk, L.; Huizinga, P.; 2004. Using 3D modelling to predict physico-chemical responses to variation in river inflow in smaller, stratified estuaries typical of South Africa. Journal of Hydraulic Research, 42, 563–577. 10.1080/00221686.2004.9628311
(View/edit entry)
2004Delft3D
Model application 5
Uijttewaal, Wim; Jirka, Gerhard; 2004. Shallow Flows: Research Presented at the International Symposium on Shallow Flows, Delft, Netherlands, 2003. In: (eds.).. .
(View/edit entry)
2004Delft3D
Model application 2
Sierra-Carrascal, Eduardo; Connell, Kenneth J.; Curtiss, Greg; Osborne, Philip D.; 2013. Coastal Engineering Analysis for Airport Improvements, False Pass, AK. . Volume .
(View/edit entry)
2013Delft3D
Model application 0
Ndungu, Jane Njeri; 2014. Assessing water quality in lake Naivasha. , , .
(View/edit entry)
2014Delft3D
Model application 2
Xiao, Changlai; Liang, Xiujuan; Du, Chao; Xie, Shaoming; Fang, Zhang; Ma, Zhe; Feng, Bo; Tian, Zhujun; 2009. Numerical Simulation and Improvement Measures of Water Quality in Yangshapao Lake. . Volume .
(View/edit entry)
2009Delft3D
Model application 0
Gomes, Mariana; Santos, Lara; Pinho, José Luís; do Carmo, José S. Antunes; 2018. Hazard Assessment of Storm Events for the Portuguese Northern Coast. Geosciences, 8, 178. 10.3390/geosciences8050178
(View/edit entry)
2018Delft3D
Model application 1
Brito Costa, Nelson Carvalho Dantas de; Venâncio, Stênio de Sousa; Silva Pinho, José Luís da; Pereira Vieira, José Manuel; 2017. Análise hidrodinâmica do estuário do rio Lima, Portugal, a partir de simulação numérica. Ambiente e Agua - An Interdisciplinary Journal of Applied Science, 12, 476. 10.4136/ambi-agua.1925
(View/edit entry)
2017Delft3D
Model application 0
Wang, Ping; Cheng, Jun; Horwitz, Mark H.; Legault, Kelly R.; 2015. COMPARING TWO NUMERICAL MODELS IN SIMULATING HYDRODYNAMICS AND SEDIMENT TRANSPORT AT A DUAL INLET SYSTEM, WEST-CENTRAL FLORIDA. . Volume .
(View/edit entry)
2015Delft3D
Model application 2
L, Sabato; S, Longhitano; A, Cilumbriello; D, Gioia; L, Spalluto; C, Kalb; 2011. Studio sedimentologico e dinamica marino-costiera del sistema litorale di Bosco Pantano di Policoro (Basilicata, Italia meridionale). RENDICONTI ONLINE DELLA SOCIETÀ GEOLOGICA ITALIANA, 17, . 10.3301/ROL.2011.46
(View/edit entry)
2011Delft3D
Model application 3
Ding, Liang; Fan, Fei; Li, Jia Rui; 2014. Numerical Study of Wave Climate in Jiangsu Sea Area. Applied Mechanics and Materials, 501, 2099–2106. 10.4028/www.scientific.net/AMM.501-504.2099
(View/edit entry)
2014Delft3D
Model application 0
Ramakrishnan, Balaji; Pratap Singh, Niraj; Jeyaraj, Satheeshkumar; 2019. Input reduction and acceleration techniques in a morphodynamic modeling: A case study of Mumbai harbor. Regional Studies in Marine Science, 31, 100765. 10.1016/j.rsma.2019.100765
(View/edit entry)
2019Delft3D
Model application 0
Gonzalez-Vazquez, Ja; 2019. Diagnosis of water circulation in an estuary: A case study of the Jamapa River and the Mandinga lagoons, Veracruz, Mexico. Ciencias Marinas, 45, 1–16. 10.7773/cm.v45i1.2923
(View/edit entry)
2019Delft3D
Model application 1
Nguyen, Diem; Etri, Talal; Runte, Karl-Heinz; Mayerle, Roberto; 2011. MORPHODYNAMIC MODELING OF THE MEDIUM-TERM MIGRATION OF A TIDAL CHANNEL USING PROCESS-BASED MODEL. Coastal Engineering Proceedings, 1, 70. 10.9753/icce.v32.sediment.70
(View/edit entry)
2011Delft3D
Model application 1
Akter, Rabeya; Asik, Tansir Zaman; Sakib, Mohiuddin; Akter, Marin; Sakib, Mostofa Najmus; Al Azad, A. S. M. Alauddin; Maruf, Montasir; Haque, Anisul; Rahman, Md. Munsur; 2019. The Dominant Climate Change Event for Salinity Intrusion in the GBM Delta. Climate, 7, 69. 10.3390/cli7050069
(View/edit entry)
2019Delft3D
Model application 1
Dourado, Francisco; Costa, Pedro JM; La Selle, SeanPaul; Andrade, C.; Silva, Ana Nobre; Bosnic, Ivana; Gelfenbaum, Guy; 2019. Can the tsunami geological record contribute to constrain the tectonic source of the 1755 AD earthquake?. .
(View/edit entry)
2019Delft3D
Model application 0
Lang, Yun; Wang, LingLing; Cai, Xin; Hu, Zijun; 2019. Research on Hydrodynamics with Water Temperature Characteristics and Spring Algal Blooms in a Typical Tributary Bay of Three Gorges Reservoir. Mathematical Problems in Engineering, 2019, 1–10. 10.1155/2019/7654543
(View/edit entry)
2019Delft3D
Model application 0
Yufang, Han; Chuanteng, Lu; 2015. Process Research on Estuarine Turbidity Maximum and Mouth Bar of Yangtze Estuary after the Improvement Works. Procedia Engineering, 116, 80–87. 10.1016/j.proeng.2015.08.267
(View/edit entry)
2015Delft3D
Model application 1
Dai, Peng; Zhang, Ji-sheng; Zheng, Jin-hai; Hulsbergen, Kees; van Banning, Gijs; Adema, Jeroen; Tang, Zi-xuan; 2018. Numerical study of hydrodynamic mechanism of dynamic tidal power. Water Science and Engineering, 11, 220–228. 10.1016/j.wse.2018.09.004
(View/edit entry)
2018Delft3D
Model application 1
van der Vegt, H.; Storms, J.E.A.; Walstra, D.; Howes, N.C.; 2016. Analysis Tools to Quantify the Variability in Deltaic Geological Models Using Delft3D Simulation Results. . Volume .
(View/edit entry)
2016Delft3D
Model application 0
Kinfu, Yonas; Ng, Kit-Yin; Zheng, Yifan; 2008. Three-Dimensional Coastal Thermal Recirculation Modeling: A Case Study. . Volume .
(View/edit entry)
2008Delft3D
Model application 1
McCullough, Cherie; van Rooijen, Arie; van Maren, Bas; 2019. Process-based erosion modelling for shoreline rehabilitation design of a coal mine pit lake. . Volume .
(View/edit entry)
2019Delft3D
Model application 1
Gu, Jie; Yang, Ji Zhong; Chen, Wei; Qin, Xin; Ma, Dan Qing; Wang, Xiao Li; 2012. Numerical Analysis of the Influence of Saltwater Intrusion on Qingcaosha Reservoir. Applied Mechanics and Materials, 212, 216–220. 10.4028/www.scientific.net/AMM.212-213.216
(View/edit entry)
2012Delft3D
Model application 0
Sandén, A.B.; Donselaar, M.E.; Storms, J.E.A.; van Toorenenburg, K.A.; van der Vegt, H.; Weltje, G.J.; 2016. Process-based Modelling of Sediment Distribution in Fluvial Crevasse Splays Validated by Outcrop Data. . Volume .
(View/edit entry)
2016Delft3D
Model application 0
Baawain, Mahad; Choudri, B.S.; Ahmed, Mushtaque; Purnama, Anton; Sana, Ahmad; 2015. Hydrodynamic and Thermal Dispersion Modelling of the Effluent in a Coastal Channel. In: (eds.)Recent Progress in Desalination, Environmental and Marine Outfall Systems.. 269–283.
(View/edit entry)
2015Delft3D
Model application 1
Scheel, F.; van Ledden, M.; van Prooijen, B.C.; Stive, M.J.F.; 2012. Simulating the large-scale spatial sand-mud distribution in a schematized process-based tidal inlet system model. . Volume .
(View/edit entry)
2012Delft3D
Model application 0
Betancur Pérez, Gabriel; Toro-Botero, Francisco Mauricio; Gómez-Giraldo, Andrés; 2016. Metodología para la selección de modelos hidrodinámicos - Caso de aplicación: variabilidad espacial de la estructura térmica en el embalse tropical Riogrande II, Colombia. DYNA, 83, 154. 10.15446/dyna.v83n198.50400
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2016Delft3D
Model application 0
Zhang, Changkuan; Tang, Hongwu; Wang, Yuankun; Xia, Ziqiang; 2009. Chinese Sturgeon Spawning Habitat Horizontal Mean Vorticity Computation and Analysis. In: (eds.)Advances in Water Resources and Hydraulic Engineering.. 2267–2271.
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2009Delft3D
Model application 1
De Goede, Erik D.; 2020. Historical overview of 2D and 3D hydrodynamic modelling of shallow water flows in the Netherlands. Ocean Dynamics, 70, 521–539. 10.1007/s10236-019-01336-5
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2020Delft3D
Model application 0
Ali, Mohammad Mostafa; 2019. Interaction between the braided bar and adjacent channel during flood: a case study of a sand-bed braided river, Brahmaputra–Jamuna. Sustainable Water Resources Management, 5, 947–960. 10.1007/s40899-018-0269-x
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2019Delft3D
Model application 0
Storms, J.E.A.; Schoenmakers, M.; Hansen, L.; Waldmann, N.; Beylich, A.; 2016. Understanding Glacier-induced Wind-driven Circulation Patterns in Strynevatnet Fjord (Norway) and their Implications for Fjord-infill Patterns. . Volume .
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2016Delft3D
Model application 0
Yossef, Mohamed F.M.; de Jong, J. S.; Spruyt, A.; Scholten, M.; Paquier, A.; Rivière, N.; 2018. Novel approaches for large-scale two-dimensional hydrodynamic modelling of rivers. E3S Web of Conferences, 40, 05040. 10.1051/e3sconf/20184005040
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2018Delft3D
Model application 0
Theol, Shaimaa A.; Jagers, Bert; Suryadi, F. X.; de Fraiture, Charlotte; 2019. The Role of Gate Operation in Reducing Problems with Cohesive and Non-Cohesive Sediments in Irrigation Canals. Water, 11, 2572. 10.3390/w11122572
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2019Delft3D
Model application 0
Baron-Hyppolite, Christophe; Lashley, Christopher; Garzon, Juan; Miesse, Tyler; Ferreira, Celso; Bricker, Jeremy; 2018. Comparison of Implicit and Explicit Vegetation Representations in SWAN Hindcasting Wave Dissipation by Coastal Wetlands in Chesapeake Bay. Geosciences, 9, 8. 10.3390/geosciences9010008
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2018Delft3D
Model application 0
Bennett, William G.; van Veelen, Thomas J.; Fairchild, Tom P.; Griffin, John N.; Karunarathna, Harshinie; 2020. Computational Modelling of the Impacts of Saltmarsh Management Interventions on Hydrodynamics of a Small Macro-Tidal Estuary. Journal of Marine Science and Engineering, 8, 373. 10.3390/jmse8050373
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2020Delft3D
Model application 0
Rueda-Bayona, Juan_Gabriel; 2019. Delft3D multidomain sample files. , 2, . 10.17632/nx5br3nz59.2
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2019Delft3D
Model application 0
Rueda-Bayona, Juan_Gabriel, ; 2019. Sensitivity test Delft3D. , 1, . 10.17632/nx5br3nz59.1
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2019Delft3D
Model application 0
Zhang, Ying; Zhou, Zeng; Geng, Liang; Coco, Giovanni; Tao, Jianfeng; Zhang, Changkuan; 2018. SIMULATING THE FORMATION OF TIDAL CHANNELS ALONG AN OPEN-COAST TIDAL FLAT: THE EFFECTS OF INITIAL PERTURBATION. Coastal Engineering Proceedings, , 84. 10.9753/icce.v36.papers.84
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2018Delft3D
Model application 0
Horstman, E.M.; 2014. The mangrove tangle : short-term bio-physical interactions in coastal mangroves. , , .
(View/edit entry)
2014Delft3D
Model application 1
Elias, E. P. L.; Stive, M. J. F.; 2006. The Effect of Stratification on the Residual Flow in a Mixed-Energy Tide-Dominated Inlet. . Volume .
(View/edit entry)
2006Delft3D
Model application 1
Fadlillah, L N; Widyastuti, M; Marfai, M A; 2020. Comparison of tidal model using mike21 and delft3d-flow in part of Java Sea, Indonesia. IOP Conference Series: Earth and Environmental Science, 451, 012067. 10.1088/1755-1315/451/1/012067
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2020Delft3D
Model application 0
Alvarez Carval, Jessica Patricia; Tovio Gracia, Cesar Augusto; 2019. Análisis de los efectos de la descarga del canal del dique sobre la estratificación salina de su desembocadura a la bahía de Cartagena. Lámpsakos, 21, 51–64. 10.21501/21454086.2950
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2019Delft3D
Model application 0
Horrillo-Caraballo, Jose M.; Fairley, Iain; Karunarathna, Harshinie; Masters, Ian; Reeve, Dominic E.; 2018. MODELLING THE EFFECTS OF A TIDAL LAGOON ON THE MORPHOLOGY OF SWANSEA BAY, WALES, UK. Coastal Engineering Proceedings, , 52. 10.9753/icce.v36.sediment.52
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2018Delft3D
Model application 0
Zhang, XinRong; Dincer, Ibrahim; Liang, Bingchen; Xu, Zhaoyan; Shi, Hongda; Fan, Fei; 2017. Modelling Analysis of the Influence of Wave Farm to Nearshore Hydrodynamics Forces. In: (eds.)Energy Solutions to Combat Global Warming.. 227–245.
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2017Delft3D
Model application 0
, ; 2011. Analysis of the influence of Deep Waterway Project on morphological evolution in the North Passage of the Changjiang Estuary, China. . Volume .
(View/edit entry)
2011Delft3D
Model application 0
Man, W.Y.; Hulscher, S.J.M.H.; Roos, P.C.; Mulder, J.P.M.; Luijendijk, A.; 2012. Short term morphological wave impact on the Zandmotor; a conceptual model. . Volume .
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2012Delft3D
Model application 0
A. (Astrid), Blom; A. (Alessandra), Crosato; TU Delft, Faculty Of Civil Engineering; Vriend, H.J. De; Wang, Z.B.; 2015. Planform changes and overbank flow in meandering rivers: The river Allier (France). , , .
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2015Delft3D
Model application 3
, ; 2017. 基于集合卡尔曼滤波的湖泊富营养化模型Delft3D-BLOOM数据同化. 湖泊科学, 29, 1070–1083. 10.18307/2017.0505
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2017Delft3D
Model application 1
van der Wegen, M.; Guo, J.; Jaffe, B.E.; van der Spek, A.J.F.; Roelvink, J.A.; 2012. Levee development along tidal channels. . Volume .
(View/edit entry)
2012Delft3D
Model application 1
, ; 2011. Analyze characteristics of sediment movement in Changjiang River Estuary under a typhoon storm by numerical simulation. . Volume .
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2011Delft3D
Model application 0
Haron, N F; Tahir, W; 2016. Hydrodynamic and Salinity Intrusion Model in Selangor River Estuary. IOP Conference Series: Materials Science and Engineering, 136, 012083. 10.1088/1757-899X/136/1/012083
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2016Delft3D
Model application 0
Al-Hulail, Faisal; 2010. Water quality description and modelling for south of Kuwait: Az-Zour area. . Volume .
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2010Delft3D
Model application 1
Vermaas, T.; Forzoni, A.; Storms, J.E.A.; 2016. Drawing the Line, when Do we Need Process-based Models?. . Volume .
(View/edit entry)
2016Delft3D
Model application 0
Sokolewicz, Marius; Walstra, Dirk-Jan; Henrotte, Johan; Godsey, Elizabeth; 2014. OPTIMIZATION OF THE CLOSURE OF A BREACHED BARRIER ISLAND IN THE GULF OF MEXICO. Coastal Engineering Proceedings, 1, 46. 10.9753/icce.v34.sediment.46
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2014Delft3D
Model application 1
Jie, H.; Leicheng, G.; van der Wegen, M.; Roelvink, D.; 2015. Hindcasting morphodynamic evolution with sand–mud interactions in the Yangtze Estuary. Proceedings of the International Association of Hydrological Sciences, 368, 430–435. 10.5194/piahs-368-430-2015
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2015Delft3D
Model application 1
Union, Publications Office of the European; 2017
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2017Delft3D
Model application 1
Bahgat, M.; 2018. Optimum use of dredged materials for sustainable shoreline management in Nile Delta. Water Science, 32, 115–128. 10.1016/j.wsj.2017.12.001
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2018Delft3D
Model application 1
Achete, Fernanda Minikowski; 2020. Multiple Scales of Suspended Sediment Dynamics in a Complex Geometry Estuary. In: (eds.).. .
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2020Delft3D
Model application 0
Silveira, Lucas Ferreira da; Benedet, Lindino; Signorin, Morjana; Bonanata, Rafael; 2012. EVALUATION OF THE RELATIONSHIPS BETWEEN NAVIGATION CHANNEL DREDGING AND EROSION OF ADJACENT BEACHES IN SOUTHERN BRAZIL. Coastal Engineering Proceedings, 1, 106. 10.9753/icce.v33.sediment.106
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2012Delft3D
Model application 1
Waldman, S.; Bastón, S.; Nemalidinne, R.; Chatzirodou, A.; Venugopal, V.; Side, J.; 2018. Corrigendum to “Implementation of tidal turbines in MIKE 3 and Delft3D models of Pentland Firth & Orkney waters” [Ocean Coast. Manag. 147 (2017) 21–36]. Ocean & Coastal Management, 163, 535–536. 10.1016/j.ocecoaman.2018.07.014
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2018Delft3D
Model application 0
Kwon, Yeong-Yeon; Choi, Jung-Woon; Kim, HoJin; Kim, Seonjeong; Kwon, Jae-Il; 2019. Comparison of the Storm Surge Prediction Models Using Different Atmospheric Forcing for Typhoon CHABA. Journal of Coastal Research, 91, 31. 10.2112/SI91-007.1
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2019Delft3D
Model application 0
Lee, Wonhyun; Kaihatu, James M.; 2018. EFFECTS OF DESALINATION ON HYDRODYNAMIC PROCESS IN PERSIAN GULF. Coastal Engineering Proceedings, , 3. 10.9753/icce.v36.papers.3
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2018Delft3D
Model application 0
Laknath, D.P.C.; Ito, Kazunori; Honda, Takahide; Takabatake, Tomoyuki; 2014. STORM SURGE SIMULATION IN NAGASAKI DURING THE PASSAGE OF 2012 TYPHOON SANBA. Coastal Engineering Proceedings, 1, 4. 10.9753/icce.v34.management.4
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2014Delft3D
Model application 1
Dastgheib, A.; Roelvink, D.; 2012. Zuiderzee is now called IJsselmeer*: Process-based Modeling. . Volume .
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2012Delft3D
Model application 1
Pinho, José; Coelho, José; Venâncio, Stênio; Vieira, Luís; Vieira, Bárbara; Vieira, Jose; . Application of Delft3d for Designing and Assessing New Solutions to Improve Sediment Input to an Erosion Prone Coast. . Volume .
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Delft3D
Model application 0
Talmon, Arno; Sittoni, Luca; Meshkati Shahmirzadi, Ebi; Hanssen, Jill; 2018. Shear settling in laminar open channel flow: analytical solution, measurements and numerical simulation. . Volume .
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2018Delft3D
Model application 0
Leonardi, Nicoletta; Li, Xiaorong; Carnacina, Iacopo; 2019. A Numerical Investigation on Tidally Induced Sediment Transport and Morphological Changes with Changing Sea Level in South-East England. Geosciences, 9, 140. 10.3390/geosciences9030140
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2019Delft3D
Model application 0
Li, Hong; Mynett, Arthur E.; Hua Ye, Qing; 2012. Hydroinformatics in multi-colours—part green: applications in aquatic ecosystem modelling. Journal of Hydroinformatics, 14, 857–871. 10.2166/hydro.2012.132
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2012Delft3D
Model application 1
Pratomo, Danar Guruh; Hutanti, Krisma; ., Khomsin; 2019. ANALISIS POLA SEBARAN SEDIMEN UNTUK MENDUKUNG PEMELIHARAAN KEDALAMAN PERAIRAN PELABUHAN MENGGUNAKAN PEMODELAN HIDRODINAMIKA 3D (STUDI KASUS: PELABUHAN TANJUNG PERAK, SURABAYA). Geoid, 14, 78. 10.12962/j24423998.v14i2.3938
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2019Delft3D
Model application 0
Treloar, Doug; Taylor, David; Clarke, Garry; 2006. Geomorphological modelling of entrance improvement options - Lake Illawarra. Wetlands Australia, 21, 85. 10.31646/wa.263
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2006Delft3D
Model application 3
Mineault-Guitard, Alexandre; 2016. Validation of Observed Bedload Transport Pathways Using Morphodynamic Modelling. , , . 10.20381/RUOR-5710
(View/edit entry)
2016Delft3D
Model application 0
Al’ala, M; Mahardi, W; 2017. Numerical simulations of tsunami waves impacts on Ulee Lheue Harbour in Banda Aceh-Indonesia. IOP Conference Series: Earth and Environmental Science, 56, 012015. 10.1088/1755-1315/56/1/012015
(View/edit entry)
2017Delft3D
Model application 0
, ; 2017. Numerical simulations of land cover roughness influence on tsunami inundation in Ulee Lheue Bay, Aceh-Indonesia. IOP Conference Series: Earth and Environmental Science, 56, 012009. 10.1088/1755-1315/56/1/012009
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2017Delft3D
Model application 0
Trung Viet, Nguyen; Xiping, Dou; Thanh Tung, Tran; Cham, Dao Dinh; Minh, Nguyen Quang; Lam, Nghiem Tien; Son, Nguyen Thai; Thanh, Nguyen Tien; 2020. Identification of Erosion-Accretion Causes and Regimes Along the Quang Nam Coast, Vietnam. In: (eds.)APAC 2019.. 809–814.
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2020Delft3D
Model application 0
Chen, Lei; Zhou, Zeng; Xu, Mengpiao; Xu, Fan; Tao, Jianfeng; Zhang, Changkuan; 2018. EXPLORING THE INFLUENCE OF LAND RECLAMATION ON SEDIMENT GRAIN SIZE DISTRIBUTION ON TIDAL FLATS: A NUMERICAL STUDY. Coastal Engineering Proceedings, , 85. 10.9753/icce.v36.papers.85
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2018Delft3D
Model application 0
Orhan, Kadir; Mayerle, Roberto; 2020. Potential Hydrodynamic Impacts and Performances of Commercial-Scale Turbine Arrays in the Strait of Larantuka, Indonesia. Journal of Marine Science and Engineering, 8, 223. 10.3390/jmse8030223
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2020Delft3D
Model application 0
Wang, Li; Zimmermann, Nicolas; Trouw, Koen; De Maerschalck, Bart; Vanlede, Joris; 2014. NUMERICAL MODELLING OF LONG-TERM MORPHOLOGY IN THE SURF ZONE OF THE BELGIAN COAST. Coastal Engineering Proceedings, 1, 42. 10.9753/icce.v34.sediment.42
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2014Delft3D
Model application 0
Al Azad, A.; Mita, Kazi; Zaman, Md.; Akter, Marin; Asik, Tansir; Haque, Anisul; Hussain, Mohammad; Rahman, Md.; 2018. Impact of Tidal Phase on Inundation and Thrust Force Due to Storm Surge. Journal of Marine Science and Engineering, 6, 110. 10.3390/jmse6040110
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2018Delft3D
Model application 0
Tanuspong, Pokavanich; Anukul, Buranapratheprat; Chittima, Aryuthaka; Roosmini, D.; Pribadi, K.; Sugeng, B.; Hadihardaja, I.K.; 2018. Hydrodynamics Modeling of Khung Krabaen Lagoon, Chanthaburi Province, Thailand. MATEC Web of Conferences, 147, 05009. 10.1051/matecconf/201814705009
(View/edit entry)
2018Delft3D
Model application 0
Huang, P Y; Hu, H; Zhang, M M; 2019. Cumulative effect of the perennial reclamation projects on water exchange in Sanmen Bay. IOP Conference Series: Earth and Environmental Science, 344, 012156. 10.1088/1755-1315/344/1/012156
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2019Delft3D
Model application 0
Trung Viet, Nguyen; Xiping, Dou; Thanh Tung, Tran; Nguyen, Hung Thanh; Vu, Cuong Dinh; Van Nguyen, Hung; Nguyen, Tuan D.; 2020. Factors Controlling Variation in Sediment Transport at Nhat Le Estuary. In: (eds.)APAC 2019.. 759–765.
(View/edit entry)
2020Delft3D
Model application 0
Manning, Andrew; Plecha, Sandra; A., Paulo; Oliveira, Anabela; M., Joao; 2011. Sediment Transport Modelling and Morphological Trends at a Tidal Inlet. In: (eds.)Sediment Transport in Aquatic Environments.. .
(View/edit entry)
2011Delft3D
Model application 0
Theol, Shaimaa Abd Al Amear; 2020. The use of Delft3D to simulate the deposition of cohesive and non-cohesive sediments in irrigation systems. In: (eds.).. .
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2020Delft3D
Model application 0
Deabes, Essam A.M.; 2020. The impact of thermal power stations on coastline and benthic fauna: Case study of El-Burullus power plant in Egypt. Results in Engineering, 7, 100128. 10.1016/j.rineng.2020.100128
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2020Delft3D
Model application 0
Yang-jun, Wang; Tai-ju, Yin; 2020. Numerical forward Modelling of River-dominated Deltas. Applied Science and Innovative Research, 4, p16. 10.22158/asir.v4n1p16
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2020Delft3D
Model application 0
Cuong, Le Duc; Lu, Qiao Lu; Lan, Tran Dinh; Tu, Tran Anh; Vuong, Bui Van; 2019. CALCULATIONS OF ENVIRONMENTAL CAPACITY AND POLLUTANT LOAD REDUCTION BY THE DELFT3D MODEL FOR THE DEVELOPMENT OF AQUACULTURE IN THE BACH DANG ESTUARY AREA. . Volume .
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2019Delft3D
Model application 0
Fahmi, Mirza; Hafli, T. Mudi; 2019. SIMULASI NUMERIK PERUBAHAN MORFOLOGI PANTAI AKIBAT KONSTRUKSI JETTY PADA MUARA LAMBADA LHOK ACEH BESAR MENGGUNAKAN SOFTWARE DELFT3D. Jurnal Teknik Sipil, 8, 50–59. 10.24815/jts.v8i2.13905
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2019Delft3D
Model application 0
Novico, Franto; Ali, Arif; Saputro, Eko; Sinaga, Adi; Egon, Andi; 2018. MORFODINAMIKA JANGKA PENDEK PENDANGKALAN DI ALUR PELAYARAN BARITO, KALIMANTAN SELATAN. JURNAL GEOLOGI KELAUTAN, 15, . 10.32693/jgk.15.2.2017.402
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2018Delft3D
Model application 0
Syahputra, Ichsan; Yuliana, Heny; 2019. Pemodelan Kecepatan Arus dan Tinggi Gelombang Pada Rencana Breakwater Kolam Pelabuhan Meulaboh Dengan Menggunakan Program Delft3D. Jurnal Teknik Sipil Unaya, 5, 11–19. 10.30601/jtsu.v5i2.284
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2019Delft3D
Model application 0
Al’ala, Musa; Kato, Shigeru; 2017. Predicting impact of SLR on coastal flooding in Banda Aceh coastal defences. . Volume .
(View/edit entry)
2017Delft3D
Model application 0
Gu, Jie; Huang, Jing; Han, Bing; Li, Wenting; 2009. Numerical Study to Choose the Optimum Narrowing Schemes for Protecting Water Source in the South Branch of the Changjiang Estuary. . Volume .
(View/edit entry)
2009Delft3D
Model application 0
Chu, A.; 2019. Analysis and modelling of Morphodynamics of the Yangtze Estuary. , , . 10.4233/uuid:068a1257-dfc2-4389-964e-f665aa5cb213
(View/edit entry)
2019Delft3D
Model application 0
De Koning, Rick; De Vries, Jaap van Thiel; Borsje, Bas; 2018. A CLASSIFICATION METHOD FOR THE PRESENCE OF TIDAL SAND WAVES AND MAINTENANCE DREDGING DESIGN. Coastal Engineering Proceedings, , 48. 10.9753/icce.v36.papers.48
(View/edit entry)
2018Delft3D
Model application 0
Razmi, Amir Mehdi; 2014. Hydrodynamic variability of lacustrine open embayments: implications for water quality. , , .
(View/edit entry)
2014Delft3D
Model application 0
Hammood, Sophia; Yin, Xiaoling; Zhao, Xuefeng; 2017. Salt intrusion response to changes in tidal amplitude during low river flow in the Modaomen Estuary, China. IOP Conference Series: Earth and Environmental Science, 69, 012031. 10.1088/1755-1315/69/1/012031
(View/edit entry)
2017Delft3D
Model application 0
Barnard, P.L.; Erikson, L.H.; Foxgrover, A.C.; Limber, P.W.; O'Neill, A.C.; Vitousek, S.; 2018
(View/edit entry)
2018Delft3D
WAVEWATCH III ^TM
Model application 0
Turiano, M.C.; Cruz, E.C.; 2017. Simulative Analysis of Storm Tide Levels in Batanes Islands during September 2016 Typhoon Meranti Using the Coupled Delft3D-SWAN Numerical Models. . Volume .
(View/edit entry)
2017Delft3D
Model application 0
Toh, Han Loong; Van Maren, Dirk Sebastiaan; 2015. SUSPENDED SEDIMENT AND LIGHT ATTENUATION CHARACTERISTICS IN SINGAPORE WATERS. . Volume .
(View/edit entry)
2015Delft3D
Model application 0
Giri, S; Yossef, M; Raman, S; Cleyet-Merle, P; Pillai, B; 2016. Reservoir sedimentation issue in Pillur reservoir in Nilgiris basin (India): Field reconnaissance and numerical modelling using Delft3D. . Volume .
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2016Delft3D
Model application 0
Wieprecht, Silke; Haun, Stefan; Weber, Karolin; Noack, Markus; Terheiden, Kristina; Banda, M.S.; Dittrich, A.; Pervez, J.; 2016. Morphodynamic modelling of a meandering sand bed river using Delft3D. In: (eds.)River Sedimentation.. 551–558.
(View/edit entry)
2016Delft3D
Model application 0
Lan, Nguyen Hong; Lan, Vu Van; 2016. CALCULATING STORM SURGES FOR MARINE SPATIAL PLANNING IN PHU QUOC - CON DAO AREA USING DELFT3D MODEL. Tạp chí Khoa học và Công nghệ Biển, 16, 275–282. 10.15625/1859-3097/16/3/8656
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2016Delft3D
Model application 0
Sawyer, Audrey H.; Edmonds, Douglas A.; Knights, Deon; 2015. Surface water‐groundwater connectivity in deltaic distributary channel networks. Geophysical Research Letters, 42, . 10.1002/2015GL066156
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2015Delft3D
MODFLOW
Model application 11
Syvitski, J.P.M.; Arango, H.G.; Harris, C.K.; Meiburg, E.H.; Jenkins, C.J.; Hutton, E.W.H.; Auad, G.; Xing, F.; 2016. Keynote Speech - Modeling of Sediment Transport in the Gulf of Mexico due to the Influence of Hurricanes. . Volume .
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2016Delft3D
WAVEWATCH III ^TM
Model application 0
Valiente, Nieves G.; Masselink, Gerd; McCarroll, Robert Jak; Scott, Tim; Conley, Daniel; King, Erin; 2020. Nearshore sediment pathways and potential sediment budgets in embayed settings over a multi-annual timescale. Marine Geology, 427, 106270. 10.1016/j.margeo.2020.106270
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2020Delft3D
Model application 0
Garcia Triana, I.D.T.F.; 2014. Towards a data assimilation system for morphodynamic modeling. , , .
(View/edit entry)
2014Delft3D
Model application 0
Briere, Christophe; Van Ormondt, Maarten; Walstra, Dirk-Jan; 2008. Morphodynamic modelling of a shoreface nourishment at Egmond-aan-Zee, The Netherlands. . Volume .
(View/edit entry)
2008Delft3D
Model application 0
Baawain, Mahad; Choudri, B.S.; Ahmed, Mushtaque; Purnama, Anton; Baptistelli, Silene Cristina; 2015. Hydrodynamic Modeling: Application of Delft3D-FLOW in Santos Bay, São Paulo State, Brazil. In: (eds.)Recent Progress in Desalination, Environmental and Marine Outfall Systems.. 307–332.
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2015Delft3D
Model application 0
Lam, Nghiem Tien; Thanh, Le Dinh; Cat, Vu Minh; Thuy, Vu Thi Thu; 2009. SEDIMENT TRANSPORT AND MORPHODYNAMICS OF MY A INLET, VIETNAM, IN THE LOW FLOW SEASON. . Volume .
(View/edit entry)
2009Delft3D
Model application 1
van der Hout, Arne J.; de Jong, Martijn P. C.; Moerman, Emiel; Timerman, Gabriela J.; Ribeiro, Eric Oliveira; 2012. Determination of Infragravity Wave Conditions at a Nearshore Location With a Non-Uniform Coastline: Case Study of Baía de Todos os Santos, Brazil. . Volume .
(View/edit entry)
2012Delft3D
Model application 0
Yu-Fang, Han; Qing-Hua, Ye; J.A., Roelvink Dano; 2014. MODELING ON THE ESTUARINE TURBIDITY MAXIMUM OF YANGTZE ESTUARY BEFORE AND AFTER THE REGULATION WORKS USING Z-MODEL. Coastal Engineering Proceedings, 1, 46. 10.9753/icce.v34.currents.46
(View/edit entry)
2014Delft3D
Model application 0
Elmilady, H.; Wegen, M.; Roelvink, D.; Spek, A.; 2020. Morphodynamic Evolution of a Fringing Sandy Shoal: From Tidal Levees to Sea Level Rise. Journal of Geophysical Research: Earth Surface, 125, . 10.1029/2019JF005397
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2020Delft3D
Model application 0
da Silva, Renan F.; Storlazzi, Curt D.; Rogers, Justin S.; Reyns, Johan; McCall, Robert; 2020. Modelling three-dimensional flow over spur-and-groove morphology. Coral Reefs, 39, 1841–1858. 10.1007/s00338-020-02011-8
(View/edit entry)
2020Delft3D
Model application 0
Zou, P.X.; Bricker, Jeremy D.; Uijttewaal, Wim S.J.; 2020. Impacts of extreme events on hydrodynamic characteristics of a submerged floating tunnel. Ocean Engineering, 218, 108221. 10.1016/j.oceaneng.2020.108221
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2020Delft3D
Model application 0
Duong, Trang Minh; Ranasinghe, Roshanka; Thatcher, Marcus; Mahanama, Sarith; Wang, Zheng Bing; Dissanayake, Pushpa Kumara; Hemer, Mark; Luijendijk, Arjen; Bamunawala, Janaka; Roelvink, Dano; Walstra, Dirkjan; 2018. Assessing climate change impacts on the stability of small tidal inlets: Part 2 - Data rich environments. Marine Geology, 395, 65–81. 10.1016/j.margeo.2017.09.007
(View/edit entry)
2018Delft3D
Model application 10
Damveld, J. H.; Borsje, B. W.; Roos, P. C.; Hulscher, S. J. M. H.; 2020. Horizontal and Vertical Sediment Sorting in Tidal Sand Waves: Modeling the Finite‐Amplitude Stage. Journal of Geophysical Research: Earth Surface, 125, . 10.1029/2019JF005430
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2020Delft3D
Model application 0
Keyzer, L.M.; Herman, P.M.J.; Smits, B.P.; Pietrzak, J.D.; James, R.K.; Candy, A.S.; Riva, R.E.M.; Bouma, T.J.; van der Boog, C.G.; Katsman, C.A.; Slobbe, D.C.; Zijlema, M.; van Westen, R.M.; Dijkstra, H.A.; 2020. The potential of coastal ecosystems to mitigate the impact of sea-level rise in shallow tropical bays. Estuarine, Coastal and Shelf Science, 246, 107050. 10.1016/j.ecss.2020.107050
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2020Delft3D
Model application 0
Kranenburg, Wouter; Tiessen, Meinard; Veenstra, Jelmer; de Graaff, Reimer; Uittenbogaard, Rob; Bouffard, Damien; Sakindi, Gaetan; Umutoni, Augusta; Van de Walle, Jonas; Thiery, Wim; van Lipzig, Nicole; 2020. 3D-modelling of Lake Kivu: Horizontal and vertical flow and temperature structure under spatially variable atmospheric forcing. Journal of Great Lakes Research, 46, 947–960. 10.1016/j.jglr.2020.05.012
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2020Delft3D
Model application 0
Nnafie, A.; Wolf, T.B.J.; de Swart, H.E.; 2020. Tidal sand ridges on the shelf: A numerical study of their natural morphodynamic evolution and response to interventions. Continental Shelf Research, 205, 104195. 10.1016/j.csr.2020.104195
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2020Delft3D
Model application 0
Song, Honglin; Kuang, Cuiping; Wang, Xiao Hua; Ma, Zhen; 2020. Wave-current interactions during extreme weather conditions in southwest of Bohai Bay, China. Ocean Engineering, 216, 108068. 10.1016/j.oceaneng.2020.108068
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2020Delft3D
Model application 0
Rautenbach, Christo; Daniels, Tania; de Vos, Marc; Barnes, Michael A.; 2020. A coupled wave, tide and storm surge operational forecasting system for South Africa: validation and physical description. Natural Hazards, 103, 1407–1439. 10.1007/s11069-020-04042-4
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2020Delft3D
Model application 4
Christensen, Alexandra; Twilley, Robert R.; Willson, Clinton S.; Castañeda-Moya, Edward; 2020. Simulating hydrological connectivity and water age within a coastal deltaic floodplain of the Mississippi River Delta. Estuarine, Coastal and Shelf Science, 245, 106995. 10.1016/j.ecss.2020.106995
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2020Delft3D
Model application 0
Le Quéré, Philippe April; Nistor, Ioan; Mohammadian, Abdolmajid; 2020. Numerical Modeling of Tsunami-Induced Scouring around a Square Column: Performance Assessment of FLOW-3D and Delft3D. Journal of Coastal Research, 36, . 10.2112/JCOASTRES-D-19-00181.1
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2020Delft3D
Model application 0
Hasan Tanim, Ahad; Goharian, Erfan; 2020. Developing a hybrid modeling and multivariate analysis framework for storm surge and runoff interactions in urban coastal flooding. Journal of Hydrology, , 125670. 10.1016/j.jhydrol.2020.125670
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2020Delft3D
Model application 0
Mészáros, Lőrinc; van der Meulen, Frank; Jongbloed, Geurt; El Serafy, Ghada; 2020. A Bayesian stochastic generator to complement existing climate change scenarios: supporting uncertainty quantification in marine and coastal ecosystems. Stochastic Environmental Research and Risk Assessment, , . 10.1007/s00477-020-01935-5
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2020Delft3D
Model application 0
Damveld, Johan H.; Borsje, Bas W.; Roos, Pieter C.; Hulscher, Suzanne J. M. H.; 2020. Biogeomorphology in the marine landscape: Modelling the feedbacks between patches of the polychaete worm Lanice conchilega and tidal sand waves. Earth Surface Processes and Landforms, 45, 2572–2587. 10.1002/esp.4914
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2020Delft3D
Model application 1
Nguyen, Anh; Le, Bao V.Q; Richter, Otto; 2020. The Role of Mangroves in the Retention of Heavy Metal (Chromium): A Simulation Study in the Thi Vai River Catchment, Vietnam. International Journal of Environmental Research and Public Health, 17, 5823. 10.3390/ijerph17165823
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2020Delft3D
Model application 2
Molinas, Ernesto; Carneiro, Juliane Castro; Vinzon, Susana; 2020. Internal tides as a major process in Amazon continental shelf fine sediment transport. Marine Geology, 430, 106360. 10.1016/j.margeo.2020.106360
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2020Delft3D
Model application 0
Cho, Minsang; Yoon, Hyun-Doug; Do, Kidoek; Son, Sangyoung; Kim, In-Ho; 2019. Comparative Study on the Numerical Simulation of Bathymetric Changes under Storm Condition. Journal of Coastal Research, 91, 106. 10.2112/SI91-022.1
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2019Delft3D
Model application 0
Edwards, K. L.; Veeramony, J.; Wang, D.; Holland, K. T.; Hsu, Y. L.; 2009. Sensitivity of Delft3D to input conditions. . Volume .
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2009Delft3D
Model application 4
Des, M.; Martínez, B.; deCastro, M.; Viejo, R.M.; Sousa, M.C.; Gómez-Gesteira, M.; 2020. The impact of climate change on the geographical distribution of habitat-forming macroalgae in the Rías Baixas. Marine Environmental Research, 161, 105074. 10.1016/j.marenvres.2020.105074
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2020Delft3D
Model application 0
Picado, A.; Oliveira, V.; Pereira, H.; Sousa, M.C.; Costa, L.; Almeida, A.; Dias, J.M.; 2020. Assessing the Potential of Minho and Lima Estuaries for Aquaculture. Journal of Coastal Research, 95, 148. 10.2112/SI95-029.1
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2020Delft3D
Model application 0
Troch, Christophe; Terblanche, Luther; Henning, Hermanus; 2020. Modelling and measurement of low-frequency surge motion associated with extreme storm conditions in the Port of Cape Town. Applied Ocean Research, , 102452. 10.1016/j.apor.2020.102452
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2020Delft3D
Model application 0
Duc Anh, Nguyen Quang; Tanaka, Hitoshi; Tam, Ho Sy; Tinh, Nguyen Xuan; Tung, Tran Thanh; Viet, Nguyen Trung; 2020. Comprehensive Study of the Sand Spit Evolution at Tidal Inlets in the Central Coast of Vietnam. Journal of Marine Science and Engineering, 8, 722. 10.3390/jmse8090722
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2020Delft3D
Model application 0
Tehranirad, Babak; Herdman, Liv; Nederhoff, Kees; Erikson, Li; Cifelli, Robert; Pratt, Greg; Leon, Michael; Barnard, Patrick; 2020. Effect of Fluvial Discharges and Remote Non-Tidal Residuals on Compound Flood Forecasting in San Francisco Bay. Water, 12, 2481. 10.3390/w12092481
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2020Delft3D
Model application 0
Picado, Ana; Mendes, Joana; Ruela, Rui; Pinheiro, João; Dias, João Miguel; 2020. Physico-Chemical Characterization of Two Portuguese Coastal Systems: Ria de Alvor and Mira Estuary. Journal of Marine Science and Engineering, 8, 537. 10.3390/jmse8070537
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2020Delft3D
Model application 0
Theol, Shaimaa; Jagers, Bert; Yangkhurung, Jigyasha Rai; Suryadi, F.X.; de Fraiture, Charlotte; 2020. Effect of Gate Selection on the Non-Cohesive Sedimentation in Irrigation Schemes. Water, 12, 2765. 10.3390/w12102765
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2020Delft3D
Model application 0
Simeonov, Julian; Holland, Todd; Spansel, Steven; 2009. Rip currents and rip channel morphodynamics under quasi-steady conditions. . Volume .
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2009Delft3D
Model application 0
Rautenbach, Christo; Barnes, Michael A.; Wang, David W.; Dykes, James; 2020. Southern African Wave Model Sensitivities and Accuracies. Journal of Marine Science and Engineering, 8, 773. 10.3390/jmse8100773
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2020Delft3D
Model application 0
Suryadi, Yadi; Sutrisna, Afrizal Maulana; Adityawan, Mohammad Bagus; Chrysanti, Asrini; Yakti, Bagus Pramono; Widyaningtias, Widyaningtias; Hadihardaja, Iwan Kridasantausa; 2020. Kajian Sedimentasi di Muara Sungai ciletuh, Kabupaten Sukabumi. Jurnal Teknik Sipil, 27, 147–156. 10.5614/jts.2020.27.2.5
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2020Delft3D
Model application 0
Strauss, Darrell; da Silva, Guilherme Vieira; da Silva, Ana Paula; Murray, Thomas; Faivre, Gaelle; Wharton, Courtney; 2020. Process-based Modelling of a Nearshore Nourishment. Journal of Coastal Research, 95, 1297. 10.2112/SI95-250.1
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2020Delft3D
Model application 0
Dempwolff, León-Carlos; Lojek, Oliver; Selke, Valeria; Goseberg, Nils; Gerlach, Renate; 2020. Hydrodynamic Cross-Scale Archaeology at a Roman River Harbour. Water, 12, 3365. 10.3390/w12123365
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2020Delft3D
Model application 0
Lenstra, Klaas J.H.; van der Vegt, Maarten; 2021. The impact of sea-level rise and basin area reduction on the cyclic behavior of tidal inlet systems. Continental Shelf Research, 214, 104323. 10.1016/j.csr.2020.104323
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2021Delft3D
Model application 0
Lersundi-Kanpistegi, Aimar; Bernabeu, Ana M.; Rey, Daniel; Díaz, Rafael; 2020. Multidata Study to Evaluate the Impact of Submarine Outfall in a Beach Sedimentary Dynamic: The Case of Samil Beach (Galicia, Spain). Journal of Marine Science and Engineering, 8, 461. 10.3390/jmse8060461
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2020Delft3D
Model application 0
Brakenhoff, Laura; Schrijvershof, Reinier; van der Werf, Jebbe; Grasmeijer, Bart; Ruessink, Gerben; van der Vegt, Maarten; 2020. From Ripples to Large-Scale Sand Transport: The Effects of Bedform-Related Roughness on Hydrodynamics and Sediment Transport Patterns in Delft3D. Journal of Marine Science and Engineering, 8, 892. 10.3390/jmse8110892
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2020Delft3D
Model application 0
Brakenhoff, Laura; Schrijvershof, Reinier; Grasmeijer, Bart; van der Werf, Jebbe; Ruessink, Gerben; van der Vegt, Maarten; 2020. The effects of bedform-related roughness on hydrodynamics and sediment transport patterns in Delft3D. .
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2020Delft3D
Model application 0
Lemke, Laura; Janssen, Matthew S.; Miller, Jon K.; 2020. Mitigation of Channel Shoaling at a Sheltered Inlet Subject to Flood Gate Operations. Journal of Marine Science and Engineering, 8, 865. 10.3390/jmse8110865
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2020Delft3D
Model application 0
Damarnegara, Satria; Ali, Rheszha Pahlavi; Ansori, Mohamad Bagus; 2019. TRANSCRITICAL FLOW SIMULATION USING SHALLOW WATER EQUATION MODEL. Journal of Civil Engineering, 34, 55. 10.12962/j20861206.v34i2.6468
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2019Delft3D
Model application 0
Cham, D. D.; Son, N. T.; Minh, N. Q.; Hung, N. T.; Tien Thanh, N.; 2020. Hydrodynamic Condition Modeling along the North-Central Coast of Vietnam. Engineering, Technology & Applied Science Research, 10, 5648–5654. 10.48084/etasr.3506
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2020Delft3D
Model application 0
Zikra, Muhammad; Armono, Haryo Dwito; Pratama, Fahrizal; 2020. Wave Modeling for the Establishment Potential Area of Offshore Aquaculture in Indonesia. Fluids, 5, 229. 10.3390/fluids5040229
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2020Delft3D
Model application 0
Haq, Taqiuddin; Halik, Gusfan; Hidayah, Entin; 2020. Flood routing model using integration of Delft3D and GIS (case study: Tanggul watershed, Jember). . Volume .
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2020Delft3D
Model application 0
Salama, Radwa; elsersawy, Heba; 2020. COMPARISION BETWEEN TWO NUMERICAL MODELS FOR PREDICATION OF HYDRAULICS AND MORPHOLOGICAL CHANGES IN THE RIVER NILE (FROM KM 633 TO KM 645 UPSTREAM El-RODA GAUGE STATION). JES. Journal of Engineering Sciences, 0, 0–0. 10.21608/jesaun.2020.39116.1002
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2020Delft3D
Model application 0
Matin, Naila; Ahtesham Hossain Raju, Km; Ataur Rahman, M; 2020. Analysis of Wave Characteristics along the Coast of Bangladesh Using a Coupled Wave-Hydrodynamic Delft3D Model of the Bay of Bengal. IOP Conference Series: Earth and Environmental Science, 527, 012013. 10.1088/1755-1315/527/1/012013
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2020Delft3D
Model application 0
, ; 2020. Evaluation of potential tidal impoundment energy systems in Ria de Aveiro, Portugal. Energy Reports, 6, 226–230. 10.1016/j.egyr.2020.11.115
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2020Delft3D
Model application 0
, ; 2021. The role of tides, river discharge and wind on the residual circulation of Maputo Bay. Regional Studies in Marine Science, 41, 101604. 10.1016/j.rsma.2020.101604
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2021Delft3D
Model application 0
Murshid, Shamim; Mariotti, Giulio; 2021. Geometry of natural and engineered tidal inlets. Coastal Engineering, 164, 103828. 10.1016/j.coastaleng.2020.103828
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2021Delft3D
Model application 0
Leenders, S.; Damveld, J.H.; Schouten, J.; Hoekstra, R.; Roetert, T.J.; Borsje, B.W.; 2021. Numerical modelling of the migration direction of tidal sand waves over sand banks. Coastal Engineering, 163, 103790. 10.1016/j.coastaleng.2020.103790
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2021Delft3D
Model application 0
Shettigar, Nithin Achutha; Bhattacharya, Biswa; Mészáros, Lörinc; Spinosa, Anna; El Serafy, Ghada; 2020. 3D Ensemble Simulation of Seawater Temperature – An Application for Aquaculture Operations. Frontiers in Marine Science, 7, . 10.3389/fmars.2020.592147
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2020Delft3D
Model application 0
Rodriguez-Delgado, Cristobal; Bergillos, Rafael J.; 2021. Wave energy assessment under climate change through artificial intelligence. Science of The Total Environment, 760, 144039. 10.1016/j.scitotenv.2020.144039
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2021Delft3D
Model application 0