Impacts of global change on water-related sectors and society in a trans-boundary central European river basin – Part 2: from eco-hydrology to water demand management

Impacts of global change on water-related sectors and society in a trans-boundary central European river basin – Part 2: from eco-hydrology to water demand management

This second part of the paper presents the details of the eco-hydrological model SWIM simulating the natural water supply and its coupling to WBalMo, a water management model. <br><br> Based on the climate scenarios of the STAR model, SWIM simulates the natural water and matter fluxes fo...

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Main Authors: F. Wechsung, F. F. Hattermann, M. Hentschel, M. Kaltofen, T. Conradt
Format: Article
Language:English
Published: Copernicus Publications 2007-06-01
Series:Advances in Geosciences
Online Access:http://www.adv-geosci.net/11/93/2007/adgeo-11-93-2007.pdf
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spelling doaj-fcaac560f74343038dd8114d8e01ecf52020-11-24T23:33:16ZengCopernicus PublicationsAdvances in Geosciences1680-73401680-73592007-06-01119399Impacts of global change on water-related sectors and society in a trans-boundary central European river basin – Part 2: from eco-hydrology to water demand managementF. WechsungF. F. HattermannM. HentschelM. KaltofenT. ConradtThis second part of the paper presents the details of the eco-hydrological model SWIM simulating the natural water supply and its coupling to WBalMo, a water management model. <br><br> Based on the climate scenarios of the STAR model, SWIM simulates the natural water and matter fluxes for the entire Elbe River area. All relevant processes are modelled for hydrotopes and the resulting discharges are accumulated in subbasins. The output data are input for the water management model WBalMo and the quality models Moneris and QSim. <br><br> WBalMo takes storage management, inputs and withdrawals into account and analyses how demands by industry, power plants and households will be met at changing natural supply conditions. Some of the first results shall be presented here. http://www.adv-geosci.net/11/93/2007/adgeo-11-93-2007.pdf
collection DOAJ
language English
format Article
sources DOAJ
author F. Wechsung
F. F. Hattermann
M. Hentschel
M. Kaltofen
T. Conradt
spellingShingle F. Wechsung
F. F. Hattermann
M. Hentschel
M. Kaltofen
T. Conradt
Impacts of global change on water-related sectors and society in a trans-boundary central European river basin – Part 2: from eco-hydrology to water demand management
Advances in Geosciences
author_facet F. Wechsung
F. F. Hattermann
M. Hentschel
M. Kaltofen
T. Conradt
author_sort F. Wechsung
title Impacts of global change on water-related sectors and society in a trans-boundary central European river basin – Part 2: from eco-hydrology to water demand management
title_short Impacts of global change on water-related sectors and society in a trans-boundary central European river basin – Part 2: from eco-hydrology to water demand management
title_full Impacts of global change on water-related sectors and society in a trans-boundary central European river basin – Part 2: from eco-hydrology to water demand management
title_fullStr Impacts of global change on water-related sectors and society in a trans-boundary central European river basin – Part 2: from eco-hydrology to water demand management
title_full_unstemmed Impacts of global change on water-related sectors and society in a trans-boundary central European river basin – Part 2: from eco-hydrology to water demand management
title_sort impacts of global change on water-related sectors and society in a trans-boundary central european river basin – part 2: from eco-hydrology to water demand management
publisher Copernicus Publications
series Advances in Geosciences
issn 1680-7340
1680-7359
publishDate 2007-06-01
description This second part of the paper presents the details of the eco-hydrological model SWIM simulating the natural water supply and its coupling to WBalMo, a water management model. <br><br> Based on the climate scenarios of the STAR model, SWIM simulates the natural water and matter fluxes for the entire Elbe River area. All relevant processes are modelled for hydrotopes and the resulting discharges are accumulated in subbasins. The output data are input for the water management model WBalMo and the quality models Moneris and QSim. <br><br> WBalMo takes storage management, inputs and withdrawals into account and analyses how demands by industry, power plants and households will be met at changing natural supply conditions. Some of the first results shall be presented here.
url http://www.adv-geosci.net/11/93/2007/adgeo-11-93-2007.pdf
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