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Title: Finite element modelling of flow and temperature regime in shallow lakes (English)
Author: Podsechin, Victor
Author: Schernewski, Gerald
Language: English
Journal: Applications of Mathematics 2013
Volume: Proceedings. Prague, May 15-17, 2013
Issue: 2013
Year:
Pages: 177-184
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Category: math
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Summary: A two-dimensional depth-averaged flow and temperature model was applied to study the circulation patterns in the Oder (Szczecin) Lagoon located on the border between Germany and Poland. The system of shallow water and temperature evolution equations is discretized with the modified Utnes scheme [4], which is characterized by a semi-decoupling algorithm. The continuity equation is rearranged to Helmholtz equation form. The upwinding Tabata method [3] is used to approximate convective terms. Averaged flow fields under prevailing wind conditions in August were calculated. The temperature variations were also simulated during the flood period in summer 1997. Simulation results are presented and limitations of the model are discussed. (English)
Keyword: depth-averaged flow
Keyword: system of shallow water
Keyword: continuity equation
Keyword: temperature equation
Keyword: Utnes scheme
Keyword: upwinding Tabata method
MSC: 65M60
MSC: 65Z05
MSC: 76D05
MSC: 76M10
MSC: 86A05
idZBL: Zbl 1340.76052
idMR: MR3204442
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Date available: 2017-02-14T09:18:03Z
Last updated: 2017-03-20
Stable URL: http://hdl.handle.net/10338.dmlcz/702944
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