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| | {{Model identity |
| | |Model type=Modular |
| | }} |
| | {{Start models incorporated}} |
| | {{End a table}} |
| | {{Model identity2 |
| | |ModelDomain=Coastal |
| | |Spatial dimensions=3D |
| | |Spatialscale=Continental, Landscape-Scale, Regional-Scale |
| | |One-line model description=SWAN is a third-generation wave model |
| | |Extended model description=SWAN is a third-generation wave model that computes random, short-crested wind-generated waves in coastal regions and inland waters. |
| | }} |
| | {{Start model keyword table}} |
| | {{Model keywords |
| | |Model keywords=wave dynamics |
| | }} |
| | {{End a table}} |
| {{Modeler information | | {{Modeler information |
| |First name=Team | | |First name=Team |
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| |Town / City=Delft | | |Town / City=Delft |
| |Postal code=2600 GA | | |Postal code=2600 GA |
| |State=NO STATE
| | |Country=Netherlands |
| |Country=The Netherlands | |
| |Email address=swan-info-citg@tudelft.nl | | |Email address=swan-info-citg@tudelft.nl |
| }}
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| {{Model identity
| |
| |Model type=Modular
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| |Categories=Coastal, Marine
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| |Spatial dimensions=3D
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| |Spatialscale=Continental, Regional-Scale, Landscape-Scale
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| |One-line model description=SWAN is a third-generation wave model
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| |Extended model description=SWAN is a third-generation wave model that computes random, short-crested wind-generated waves in coastal regions and inland waters.
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| }} | | }} |
| {{Model technical information | | {{Model technical information |
| |Supported platforms=Unix, Linux, Windows | | |Supported platforms=Unix, Linux, Windows |
| |Programming language=Fortran77 | | |Programming language=Fortran77 |
| |Code optimized=Parallel | | |Code optimized=Multiple Processors |
| Computing
| |
| |Start year development=1993 | | |Start year development=1993 |
| |Does model development still take place?=Yes | | |Does model development still take place?=Yes |
| | |DevelopmentCode=Active |
| | |DevelopmentCodeYearChecked=2020 |
| |Model availability=As code | | |Model availability=As code |
| |Source code availability=Through web repository | | |Source code availability=Through web repository |
| |Source web address=http://vlm089.citg.tudelft.nl/swan/index.htm | | |Source web address=http://www.swan.tudelft.nl/ |
| |Program license type=Other | | |Program license type=Other |
| |Program license type other=GNU General Public License | | |Program license type other=GNU General Public License |
| |OpenMI compliant=No but possible
| |
| |CCA component=No but possible
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| |IRF interface=No but possible
| |
| |Memory requirements=-- | | |Memory requirements=-- |
| |Typical run time=-- | | |Typical run time=-- |
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| In areas where variations in wave height are large within a horizontal scale of a few wave lengths, diffraction should be used. However, the computation of diffraction in arbitrary geophysical conditions is rather complicated and requires considerable computing effort. To avoid this, a phase-decoupled approach is employed in SWAN so that same qualitative behaviour of spatial redistribution and changes in wave direction is obtained. This approach, however, does not properly handle diffraction in harbours or in front of reflecting obstacles. | | In areas where variations in wave height are large within a horizontal scale of a few wave lengths, diffraction should be used. However, the computation of diffraction in arbitrary geophysical conditions is rather complicated and requires considerable computing effort. To avoid this, a phase-decoupled approach is employed in SWAN so that same qualitative behaviour of spatial redistribution and changes in wave direction is obtained. This approach, however, does not properly handle diffraction in harbors or in front of reflecting obstacles. |
| }}
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| {{Model testing
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| |Describe available calibration data sets=--
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| |Describe available test data sets=--
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| |Describe ideal data for testing=--
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| }} | | }} |
| | {{Model testing}} |
| {{Users groups model | | {{Users groups model |
| |Do you have current or future plans for collaborating with other researchers?=-- | | |Do you have current or future plans for collaborating with other researchers?=-- |
| }} | | }} |
| {{Documentation model | | {{Documentation model |
| |Provide key papers on model if any=Key papers:
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| # Holthuijsen, L.H., N. Booij and R.C. Ris, 1993, A spectral wave model for the coastal zone, Proceedings 2nd International Symposium on Ocean Wave Measurement and Analysis, New Orleans, Louisiana, July 25-28, 1993, New York, pp. 630-641.
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| # Ris, R.C., L.H. Holthuijsen and N. Booij, 1994, A spectral model for waves in the near shore zone, Proc. 24th Int. Conf. Coastal Engng, Kobe, Oct. 1994, Japan, pp. 68-78.
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| # Booij, N., Holthuijsen, L.H. and R.C. Ris, 1996, The SWAN wave model for shallow water, Proc. 25th Int. Conf. Coastal Engng., Orlando, USA, Vol. 1, pp. 668-676.
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| # Ris, R.C. and L.H. Holthuijsen, 1996, Spectral Modelling of current induced wave-blocking, Proc. 25th Int. Conf. Coastal Engng., Orlando, USA, Vol. 1, pp. 1247-1254.
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| # Ris, R.C., 1997, Spectral Modelling of Wind Waves in Coastal Areas (Ph.D. Dissertation Delft University of Technology), Communications on Hydraulic and Geotechnical Engineering, Report No. 97-4, Delft.
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| # Ris, R.C. and L.H. Holthuijsen, 1997, Modelling of current induced wave-blocking in a spectral wave model, 8th International Biennal Conference on Physics of Estuaries and Coastal Seas, J. Dronkers and M.B.A.M. Scheffers (eds.), The Hague, 139-144.
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| # Holthuijsen, L.H., N. Booij and R. Padilla-Hernandez, 1997, A curvi-linear, third-generation coastal wave model, Conf. Coastal Dynamics '97, Plymouth, 128-136.
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| # Booij, N., L.H. Holthuijsen, N. Doorn and A.T.M.M. Kieftenburg, 1997, Diffraction in a spectral wave model, Proceedings 3rd International Symposium on Ocean Wave Measurement and Analysis, WAVES'97, ASCE, 243-255.
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| # Booij, N., L.H. Holthuijsen and R. Padilla-Hernandez, 1997, Numerical wave propagation on a curvilinear grid, Proceedings 3rd International Symposium on Ocean Wave Measurement and Analysis, WAVES'97, ASCE, 286-294.
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| # Holthuijsen, L.H., N. Booij, R.C. Ris, J.H. Andorka Gal and J.C.M. de Jong, 1997, A verification of the third-generation wave model "SWAN" along the southern North Sea coast, Proceedings 3rd International Symposium on Ocean Wave Measurement and Analysis, WAVES'97, ASCE, 49-63.
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| # Padilla-Hernandez, R., J. Monbaliu and L.H. Holthuijsen, 1998, Intercomparing third-generation wave model nesting, 5th International Workshop on Wave Hindcasting and Forecasting, Jan. 27-30, 1998, Melbourne, Florida, 102-112.
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| # Booij, N., L.H. Holthuijsen and IJ.G. Haagsma, 1998, Comparing the second-generation HISWA wave model with the third-generation SWAN wave model, 5th International Workshop on Wave Hindcasting and Forecasting, Jan. 27-30, 1998, Melbourne, Florida, 215-222.
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| # Holthuijsen, L.H., R.C. Ris and N. Booij, 1998, A verification of the third-generation wave model SWAN, 5th International Workshop on Wave Hindcasting and Forecasting, Jan. 27-30, 1998, Melbourne, Florida, 223-230.
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| # Holthuijsen, L.H. and L. Cavaleri, 1998, Activities of the WISE group, 5th International Workshop on Wave Hindcasting and Forecasting, Jan. 27-30, 1998, Melbourne, Florida, 433-437.
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| # Holthuijsen, L.H., N. Booij and IJ.G. Haagsma, 1998, Comparing 1st-, 2nd - and 3rd-generation coastal wave modelling, 26th Int. Conf. Coastal Engng., Copenhagen, 140-149
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| # Cavaleri, L. and L.H. Holthuijsen, 1998, Wave modelling in the WISE group, Proc. 26th Int. Conf. Coastal Engng., Copenhagen, 498-508
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| # Booij, N. L.H. Holthuijsen and R.C. Ris, 1998, Shallow water wave modelling, Oceanology International 98, The Global Ocean, Brighton, Conference Proceedings, 3, 483-491.
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| # Holthuijsen, L.H., 1998, The concept and features of the ocean wave spectrum, Provision and engineering/operational application of ocean wave spectra, COST Conference, UNESCO, 21-25 Sept., 1998, Paris, keynote address.
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| # Gorman, R.M. and C.G. Neilson, 1999, Modelling shallow water wave generation and transformation in an intertidal estuary, Coastal Engineering, 36, 197-217
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| # Booij, N., R.C. Ris and L.H. Holthuijsen, 1999, A third-generation wave model for coastal regions, Part I, Model description and validation, J. Geophys. Res. C4, 104, 7649-7666.
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| # Ris, R.C., N. Booij and L.H. Holthuijsen, 1999, A third-generation wave model for coastal regions, Part II, Verification, J. Geophys. Res. C4, 104, 7667-7681.
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| # Padilla-Hernandez, R. and J. Monbaliu, 2001, Energy balance of wind waves as a function of the bottom friction formulation, Coastal Engineering, 43, 131-148.
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| # Jin, K.-R. and Z.-G. Ji, 2001, Calibration and verification of a spectral wind�wave model for Lake Okeechobee, Ocean Engineering, 28, 571-584.
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| # Rogers, W.E., J.M. Kaihatu, H.A. H. Petit, N. Booij, and L.H. Holthuijsen, 2002, Diffusion reduction in a arbitrary scale third generation wind wave model, Ocean Engng., 29, 1357-1390.
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| # Rogers, W.E., P.A. Hwang and D.W. Wang, 2003, Investigation of wave growth and decay in the SWAN model: three regional-scale applications, J. Phys. Oceanogr., 33, 366-389.
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| # Holthuijsen, L.H., A. Herman and N. Booij, 2003, Phase-decoupled refraction-diffraction for spectral wave models, Coastal Engineering, 49, 291-305.
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| # Zijlema, M. and A.J. van der Westhuysen, 2005, On convergence behaviour and numerical accuracy in stationary SWAN simulations of nearshore wind wave spectra, Coastal Engineering, 52, 237-256.
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| # Zijlema, M., 2005, Parallelization of a nearshore wind wave model for distributed memory architectures, in: G. Winter, A. Ecer, J. Periaux, N. Satofuka, P. Fox (Eds.), Parallel Computational Fluid Dynamics -Multidisciplinary applications, Elsevier Science B.V., Amsterdam, The Netherlands, 207�214.
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| # Van der Westhuysen, A.J., M. Zijlema and J.A. Battjes, 2007, Nonlinear saturation-based whitecapping dissipation in SWAN for deep and shallow water, Coastal Engineering, 54, 151-170.
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| # Winterwerp, J.C., R.F. de Graaff, J. Groeneweg and A.P. Luijendijk, 2007, Modelling of wave damping at Guyana mud coast, Coastal Engineering, 54, 249-261.
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| # Groeneweg, J., M. van Ledden and M. Zijlema, 2007, Wave transformation in front of the Dutch coast, in: J.M. Smith (Ed.), Proc. 30th Int. Conf. on Coast. Engng., San Diego, USA, 552-564.
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| # Xu, F., W. Perrie, B. Toulany and P.C. Smith, 2007, Wind-generated waves in Hurricane Juan, Ocean Modelling, 16, 188-205.
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| # Bolanos-Sanchez, R., A. Sanchez-Arcilla and J. Cateura, 2007, Evaluation of two atmospheric models for wind�wave modelling in the NW Mediterranean, J. Marine Systems, 65, 336-353.
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| # Bottema, M. and G. van Vledder, 2008, Effective fetch and non-linear four-wave interactions during wave growth in slanting fetch conditions, Coastal Engineering, 55, 261-275.
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| # Pandoe, W.W. and B.L. Edge, 2008, Case Study for a Cohesive Sediment Transport Model for Matagorda Bay, Texas, with Coupled ADCIRC 2D-Transport and SWAN Wave Models, ASCE J. Hydraulic Engineering, 134(3), 303-314.
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| # Funakoshi, Y., S.C. Hagen, P. Bacopoulos, 2008, Coupling of Hydrodynamic and Wave Models: Case Study for Hurricane Floyd (1999) Hindcast, ASCE J. Waterway, Port, Coastal, and Ocean Engineering, 134(6), 321-335.
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| # Rusu, E., P. Pilar and C. Guedes Soares, 2008, Evaluation of the wave conditions in Madeira Archipelago with spectral models, Ocean Engineering, 35, 1357-1371.
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| # Warner, J.C., N. Perlin and E.D. Skyllingstad, 2008, Using the Model Coupling Toolkit to couple earth system models, Environmental Modelling and Software, 23, 1240-1249.
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| # Van Ledden, M., G. Vaughn, J. Lansen, F. Wiersma and M. Amsterdam, 2009, Extreme wave event along the Guyana coastline in October 2005, Continental Shelf Research, 29, 352-361.
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| # Rogers, W.E. and K.T. Holland, 2009, A study of dissipation of wind-waves by mud at Cassino Beach, Brazil: prediction and inversion, Continental Shelf Research, 29, 676-690.
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| # Holthuijsen, L.H., M. Zijlema and P.J. van der Ham, 2009, Wave physics in a tidal inlet, in: J. M. Smith (Ed.), Proc. 31th Int. Conf. on Coast. Engng., Hamburg, Germany, 2009, 437-448.
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| # Zijlema, M., 2009, Parallel, unstructured mesh implementation for SWAN, in: J. M. Smith (Ed.), Proc. 31th Int. Conf. on Coast. Engng., Hamburg, Germany, 2009, 470-482.
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| # Bottema, M. and G.Ph. van Vledder, 2009, A ten-year data set for fetch- and depth-limited wave growth, Coastal Engineering, 56, 703-725.
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| # Breivik, O., Y. Gusdal, B.R. Furevik, O.J. Aarnes and M. Reistad, 2009, Nearshore wave forecasting and hindcasting by dynamical and statistical downscaling, J. Marine Systems, 78, S235-S243.
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| # Van der Westhuysen, A.J., 2009, Modelling of depth-induced wave breaking under finite-depth wave growth conditions, J. Geophys. Res., in press.
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| # Zijlema, M., 2009, Computation of wind-wave spectra in coastal waters with SWAN on unstructured grids, Coastal Engineering, in press.
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| |Manual model available=Yes | | |Manual model available=Yes |
| |Model website if any=Manual: http://130.161.13.149/swan/online_doc/swanuse/swanuse.html | | |Model website if any=Manual: http://swanmodel.sourceforge.net/online_doc/swanuse/swanuse.html |
| Official SWAN website: http://www.swan.tudelft.nl | | Official SWAN website: http://www.swan.tudelft.nl |
| |Model forum=http://130.161.13.149/swan/forum/default.asp | | |Model forum=https://sourceforge.net/p/swanmodel/mailman/ |
| | }} |
| | {{Additional comments model |
| | |Comments=Notice: SWAN can be freely downloaded from the next site: |
| | https://sourceforge.net/projects/swanmodel/files/swan/ |
| | No registration is needed. |
| | }} |
| | {{CSDMS staff part |
| | |OpenMI compliant=No but possible |
| | |IRF interface=No but possible |
| | |CMT component=No but possible |
| | |CCA component=No but possible |
| }} | | }} |
| {{Additional comments model}} | | {{Start coupled table}} |
| <!-- PLEASE USE THE "EDIT WITH FORM" BUTTON TO EDIT ABOVE CONTENTS; CONTINUE TO EDIT BELOW THIS LINE --> | | {{End a table}} |
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| ==Introduction== | | ==Introduction== |
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| == History == | | == History == |
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| == Papers == | | == References == |
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| == Issues == | | == Issues == |
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| == Help == | | == Help == |
| | {{#ifexist:Model_help:{{PAGENAME}}|[[Model_help:{{PAGENAME}}]]|}} |
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| == Input Files == | | == Input Files == |
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| == Output Files == | | == Output Files == |
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| == Download ==
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| == Source ==
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