DYRESM-CAEDYM (Dynamic Reservoir Simulation Model - Computational Aquatic Ecosystem Dynamics Model)

DYRESM-CAEDYM is a one dimensional hydrodynamic-ecological model that can be used to investigate the interactions between physical, chemical and biological processes that occur in lakes and reservoirs over time scales ranging from days to seasonal to interannual.

one dimensionalhydrodynamic-ecologicallakesreservoirsdaysseasonalinterannual

Contributor(s)
Initial contribute: 2019-12-30

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Application-focused categoriesNatural-perspectiveLand regions

Detailed Description

English {{currentDetailLanguage}} English

Quoted from: http://fis.freshwatertools.eu/index.php/tools/tools-factsheet.html?modelid=0 

DYRESM - CAEDYM (Dynamic Reservoir Simulation Model - Computational Aquatic Ecosystem Dynamics Model) is a one dimensional hydrodynamic-ecological model that can be used to investigate the interactions between physical, chemical and biological processes that occur in lakes and reservoirs over time scales ranging from days to seasonal to interannual. DYRESM uses Lagrangian layer scheme in which the lake is represented as layers having an equal thickness and the layers expand or contract considering density changes driven by surface heating, mixing and flows. Coupled DYRESM-CAEDYM model enables to model Nitrogen, Phosphorus, Dissolved Oxygen, Microbes, Sediment Processes, and Phytoplankton dynamics in vertical resolution.

 

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Yue Songshan (2019). DYRESM-CAEDYM (Dynamic Reservoir Simulation Model - Computational Aquatic Ecosystem Dynamics Model), Model Item, OpenGMS, https://geomodeling.njnu.edu.cn/modelItem/4ec895e6-ec1e-4507-810c-9e63bf2c9c8c
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zhangshuo
Last modify time
2021-01-11
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Contributor(s)
Initial contribute : 2019-12-30

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History

Last modifier
zhangshuo
Last modify time
2021-01-11
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