Optimum socio-environmental flows approach for reservoir operation strategy using many-objectives evolutionary optimization algorithm

Water resource system complexity, high-dimension modelling difficulty and computational efficiency challenges often limit decision makers' strategies to combine environmental flow objectives (e.g. water quality, ecosystem) with social flow objectives (e.g. hydropower, water supply and agricultu...

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Vydané v:The Science of the total environment Ročník 651; číslo Pt 2; s. 1877 - 1891
Hlavní autori: Al-Jawad, Jafar Y., Alsaffar, Hassan M., Bertram, Douglas, Kalin, Robert M.
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: Netherlands Elsevier B.V 15.02.2019
Predmet:
algorithms
Auto-adaptive constraints
basins
Borg MOEA
decision making
decision support systems
Diyala River basin
ecosystems
Environmental flows regime
financial economics
income
Iraq
issues and policy
land use
water power
water quality
Water resources management
water supply
watersheds
ε-DSEA
Iraq
ε-DSEA
Water resources management
Borg MOEA
Auto-adaptive constraints
Diyala River basin
Environmental flows regime
ISSN:0048-9697, 1879-1026, 1879-1026
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Abstract Water resource system complexity, high-dimension modelling difficulty and computational efficiency challenges often limit decision makers' strategies to combine environmental flow objectives (e.g. water quality, ecosystem) with social flow objectives (e.g. hydropower, water supply and agriculture). Hence, a novel Optimum Social-Environmental Flows (OSEF) with Auto-Adaptive Constraints (AAC) approach introduced as a river basin management decision support tool. The OSEF-AAC approach integrates Socio-Environmental (SE) objectives with convergence booster support to soften any computational challenges. Nine SE objectives and 396 decision variables modelled for Iraq's Diyala river basin. The approach's effectiveness evaluated using two non-environmental models and two inflows' scenarios. The advantage of OSEF-AAC approved, and other decision support alternatives highlighted that could enhance river basin SE sectors' revenues, as river basin economic benefits will improve as well. However, advanced land use and water exploitation policy would need adoption to secure the basin's SE sectors. [Display omitted] •Decision makers rarely considered environmental flows regime in their strategy•Novel optimum socio-environmental flows (OSEF-AAC) approach was developed•The approach evaluated by a case study using nine objectives with two optimizers•The robustness of OSEF-AAC is endorsed by improving river basin environments and revenues
AbstractList Water resource system complexity, high-dimension modelling difficulty and computational efficiency challenges often limit decision makers' strategies to combine environmental flow objectives (e.g. water quality, ecosystem) with social flow objectives (e.g. hydropower, water supply and agriculture). Hence, a novel Optimum Social-Environmental Flows (OSEF) with Auto-Adaptive Constraints (AAC) approach introduced as a river basin management decision support tool. The OSEF-AAC approach integrates Socio-Environmental (SE) objectives with convergence booster support to soften any computational challenges. Nine SE objectives and 396 decision variables modelled for Iraq's Diyala river basin. The approach's effectiveness evaluated using two non-environmental models and two inflows' scenarios. The advantage of OSEF-AAC approved, and other decision support alternatives highlighted that could enhance river basin SE sectors' revenues, as river basin economic benefits will improve as well. However, advanced land use and water exploitation policy would need adoption to secure the basin's SE sectors.
Water resource system complexity, high-dimension modelling difficulty and computational efficiency challenges often limit decision makers' strategies to combine environmental flow objectives (e.g. water quality, ecosystem) with social flow objectives (e.g. hydropower, water supply and agriculture). Hence, a novel Optimum Social-Environmental Flows (OSEF) with Auto-Adaptive Constraints (AAC) approach introduced as a river basin management decision support tool. The OSEF-AAC approach integrates Socio-Environmental (SE) objectives with convergence booster support to soften any computational challenges. Nine SE objectives and 396 decision variables modelled for Iraq's Diyala river basin. The approach's effectiveness evaluated using two non-environmental models and two inflows' scenarios. The advantage of OSEF-AAC approved, and other decision support alternatives highlighted that could enhance river basin SE sectors' revenues, as river basin economic benefits will improve as well. However, advanced land use and water exploitation policy would need adoption to secure the basin's SE sectors.Water resource system complexity, high-dimension modelling difficulty and computational efficiency challenges often limit decision makers' strategies to combine environmental flow objectives (e.g. water quality, ecosystem) with social flow objectives (e.g. hydropower, water supply and agriculture). Hence, a novel Optimum Social-Environmental Flows (OSEF) with Auto-Adaptive Constraints (AAC) approach introduced as a river basin management decision support tool. The OSEF-AAC approach integrates Socio-Environmental (SE) objectives with convergence booster support to soften any computational challenges. Nine SE objectives and 396 decision variables modelled for Iraq's Diyala river basin. The approach's effectiveness evaluated using two non-environmental models and two inflows' scenarios. The advantage of OSEF-AAC approved, and other decision support alternatives highlighted that could enhance river basin SE sectors' revenues, as river basin economic benefits will improve as well. However, advanced land use and water exploitation policy would need adoption to secure the basin's SE sectors.
Water resource system complexity, high-dimension modelling difficulty and computational efficiency challenges often limit decision makers' strategies to combine environmental flow objectives (e.g. water quality, ecosystem) with social flow objectives (e.g. hydropower, water supply and agriculture). Hence, a novel Optimum Social-Environmental Flows (OSEF) with Auto-Adaptive Constraints (AAC) approach introduced as a river basin management decision support tool. The OSEF-AAC approach integrates Socio-Environmental (SE) objectives with convergence booster support to soften any computational challenges. Nine SE objectives and 396 decision variables modelled for Iraq's Diyala river basin. The approach's effectiveness evaluated using two non-environmental models and two inflows' scenarios. The advantage of OSEF-AAC approved, and other decision support alternatives highlighted that could enhance river basin SE sectors' revenues, as river basin economic benefits will improve as well. However, advanced land use and water exploitation policy would need adoption to secure the basin's SE sectors. [Display omitted] •Decision makers rarely considered environmental flows regime in their strategy•Novel optimum socio-environmental flows (OSEF-AAC) approach was developed•The approach evaluated by a case study using nine objectives with two optimizers•The robustness of OSEF-AAC is endorsed by improving river basin environments and revenues
Author Alsaffar, Hassan M.
Kalin, Robert M.
Bertram, Douglas
Al-Jawad, Jafar Y.
Author_xml – sequence: 1
  givenname: Jafar Y.
  orcidid: 0000-0003-1819-8599
  surname: Al-Jawad
  fullname: Al-Jawad, Jafar Y.
  email: jafar.al-jawad@strath.ac.uk
  organization: Department of Civil and Environmental Engineering, University of Strathclyde Glasgow 75 Montrose St, Glasgow G1 1XJ, United Kingdom of Great Britain and Northern Ireland
– sequence: 2
  givenname: Hassan M.
  surname: Alsaffar
  fullname: Alsaffar, Hassan M.
  organization: National Center for Water Resources Management, Ministry of Water Resources, Baghdad, Iraq
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  givenname: Douglas
  surname: Bertram
  fullname: Bertram, Douglas
  email: douglas.bertram@strath.ac.uk
  organization: Department of Civil and Environmental Engineering, University of Strathclyde Glasgow 75 Montrose St, Glasgow G1 1XJ, United Kingdom of Great Britain and Northern Ireland
– sequence: 4
  givenname: Robert M.
  surname: Kalin
  fullname: Kalin, Robert M.
  email: robert.kalin@strath.ac.uk
  organization: Department of Civil and Environmental Engineering, University of Strathclyde Glasgow 75 Montrose St, Glasgow G1 1XJ, United Kingdom of Great Britain and Northern Ireland
BackLink https://www.ncbi.nlm.nih.gov/pubmed/30317175$$D View this record in MEDLINE/PubMed
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Issue Pt 2
Keywords ε-DSEA
Water resources management
Borg MOEA
Auto-adaptive constraints
Diyala River basin
Environmental flows regime
Language English
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Snippet Water resource system complexity, high-dimension modelling difficulty and computational efficiency challenges often limit decision makers' strategies to...
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SubjectTerms algorithms
Auto-adaptive constraints
basins
Borg MOEA
decision making
decision support systems
Diyala River basin
ecosystems
Environmental flows regime
financial economics
income
Iraq
issues and policy
land use
water power
water quality
Water resources management
water supply
watersheds
ε-DSEA
Title Optimum socio-environmental flows approach for reservoir operation strategy using many-objectives evolutionary optimization algorithm
URI https://dx.doi.org/10.1016/j.scitotenv.2018.10.063
https://www.ncbi.nlm.nih.gov/pubmed/30317175
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Volume 651
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