Alternative Approaches to the Wave Equation in Shallow Water Flow Modelling-Reference-Cited by-同舟云学术

Alternative Approaches to the Wave Equation in Shallow Water Flow Modelling

Published:1994 Issue: Volume: Page:1113-1120
ISSN:0921-092X
Container-title:Computational Methods in Water Resources X
language:
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Author:

Sigurdsson Sven

Publisher

Springer Netherlands

Link

http://link.springer.com/content/pdf/10.1007/978-94-010-9204-3_135

Reference8 articles.

1. Benqué, J.P., Cunge, J.A., Feulliet, J., Hauguel, A., and Holly, F.M. (1982) “New Method for Tidal Current Computation”, Jounral of the Waterway, Port, Coastal and Ocean Division, Proceedings of the American Society of Civil Engineers, 108, No. WW3, 396–417.

2. Gresho, P.M., Lee, R.L., Sani, R.L., Maslanik, M.K., and Eaton, B.E. (1987) “The Consistent Galerkin FEM for Computing Derived Boundary Quantities in Thermal and/or Fluid Problems”, Int. J. Num. Meth. in Fluids, 7, 371–394.

3. Kolar, R.L., Gray, W.G., and Westerink, J.J. (1992) “An Analysis of the Mass Conserving Properties of the Generalized Wave Continuity Equation”, in: T.F. Russell, R.E. Ewing, C.A. Brebbia, W.G. Gray, G.F. Pinder (eds.) Computational Methods in Water Resources IX, Vol. 2: Mathematical Modeling in Water Resources, Computational Mechanics Publication, Elsevier Applied Science, pp. 537–544.

4. Kolar, R.L., Westerink, J.J., Cantekin, M.E., and Blain, C.A. (1994) “Aspects of Nonlinear Simulations Using Shallow Water Models Based on the Wave Continuity Equation”, to appear in Computers and Fluids.

5. Lynch, D.R. and Gray, W.G. (1979) “A Wave Equation Model for Finite Element Tidal Computations”, Computers and Fluids, 7, 207–228.

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1. BOUNDARY CONDITIONS IN SHALLOW WATER MODELS—AN ALTERNATIVE IMPLEMENTATION FOR FINITE ELEMENT CODES;International Journal for Numerical Methods in Fluids;1996-04-15