An Inexact Inventory Theory-Based Water Resources Distribution Model for Yuecheng Reservoir, China

An Inexact Inventory Theory-Based Water Resources Distribution Model for Yuecheng Reservoir, China

In this study, an inexact inventory theory-based water resources distribution (IIWRD) method is advanced and applied for solving the problem of water resources distribution from Yuecheng Reservoir to agricultural activities, in the Zhanghe River Basin, China. In the IIWRD model, the techniques of in...

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Main Authors: Meiqin Suo, Fuhui Du, Yongping Li, Tengteng Kong, Jing Zhang
Format: Article
Language:English
Published: Hindawi Limited 2020-01-01
Series:Mathematical Problems in Engineering
Online Access:http://dx.doi.org/10.1155/2020/6273513
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spelling doaj-9918944270c54d8e9b13e3ab1758fb322020-11-25T04:09:50ZengHindawi LimitedMathematical Problems in Engineering1563-51472020-01-01202010.1155/2020/62735136273513An Inexact Inventory Theory-Based Water Resources Distribution Model for Yuecheng Reservoir, ChinaMeiqin Suo0Fuhui Du1Yongping Li2Tengteng Kong3Jing Zhang4School of Water Conservancy and Hydroelectric PowerSchool of Water Conservancy and Hydroelectric PowerSchool of EnvironmentSchool of Water Conservancy and Hydroelectric PowerSchool of Water Conservancy and Hydroelectric PowerIn this study, an inexact inventory theory-based water resources distribution (IIWRD) method is advanced and applied for solving the problem of water resources distribution from Yuecheng Reservoir to agricultural activities, in the Zhanghe River Basin, China. In the IIWRD model, the techniques of inventory model, inexact two-stage stochastic programming, and interval-fuzzy mathematics programming are integrated. The water diversion problem of Yuecheng Reservoir is handled under multiple uncertainties. Decision alternatives for water resources allocation under different inflow levels with a maximized system benefit and satisfaction degree are provided for water resources management in Yuecheng Reservoir. The results show that the IIWRD model can afford an effective scheme for solving water distribution problems and facilitate specific water diversion of a reservoir for managers under multiple uncertainties and a series of policy scenarios.http://dx.doi.org/10.1155/2020/6273513
collection DOAJ
language English
format Article
sources DOAJ
author Meiqin Suo
Fuhui Du
Yongping Li
Tengteng Kong
Jing Zhang
spellingShingle Meiqin Suo
Fuhui Du
Yongping Li
Tengteng Kong
Jing Zhang
An Inexact Inventory Theory-Based Water Resources Distribution Model for Yuecheng Reservoir, China
Mathematical Problems in Engineering
author_facet Meiqin Suo
Fuhui Du
Yongping Li
Tengteng Kong
Jing Zhang
author_sort Meiqin Suo
title An Inexact Inventory Theory-Based Water Resources Distribution Model for Yuecheng Reservoir, China
title_short An Inexact Inventory Theory-Based Water Resources Distribution Model for Yuecheng Reservoir, China
title_full An Inexact Inventory Theory-Based Water Resources Distribution Model for Yuecheng Reservoir, China
title_fullStr An Inexact Inventory Theory-Based Water Resources Distribution Model for Yuecheng Reservoir, China
title_full_unstemmed An Inexact Inventory Theory-Based Water Resources Distribution Model for Yuecheng Reservoir, China
title_sort inexact inventory theory-based water resources distribution model for yuecheng reservoir, china
publisher Hindawi Limited
series Mathematical Problems in Engineering
issn 1563-5147
publishDate 2020-01-01
description In this study, an inexact inventory theory-based water resources distribution (IIWRD) method is advanced and applied for solving the problem of water resources distribution from Yuecheng Reservoir to agricultural activities, in the Zhanghe River Basin, China. In the IIWRD model, the techniques of inventory model, inexact two-stage stochastic programming, and interval-fuzzy mathematics programming are integrated. The water diversion problem of Yuecheng Reservoir is handled under multiple uncertainties. Decision alternatives for water resources allocation under different inflow levels with a maximized system benefit and satisfaction degree are provided for water resources management in Yuecheng Reservoir. The results show that the IIWRD model can afford an effective scheme for solving water distribution problems and facilitate specific water diversion of a reservoir for managers under multiple uncertainties and a series of policy scenarios.
url http://dx.doi.org/10.1155/2020/6273513
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