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    Optimizing Reservoir-Stream-Aquifer Interactions for Conjunctive Use and Hydropower Production

    New search for: Hala Fayad
    New search for: Richard C. Peralta
    New search for: Ali Forghani

    Conjunctive management of water resources involves coordinating use of surface water and groundwater resources. Very few simulation/optimization (S-O) models for stream-aquifer system management have included detailed interactions between groundwater, streams, and reservoir storage. This paper presents an S-O model doing that via artificial neural network simulators and genetic algorithm optimizer for multiobjective conjunctive water use problems. The model simultaneously addresses all significant flows including reservoir-stream-diversion-aquifer interactions in a more detailed manner than previous models. The model simultaneously maximizes total water provided and hydropower production. A penalty function implicitly poses constraints on state variables. The model effectively finds feasible optimal solutions and the Pareto optimum. Illustrated is application for planning water resource and minihydropower system development.

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    Optimizing Reservoir-Stream-Aquifer Interactions for Conjunctive Use and Hydropower Production

    New search for: Hala Fayad
    New search for: Richard C. Peralta
    New search for: Ali Forghani

    Conjunctive management of water resources involves coordinating use of surface water and groundwater resources. Very few simulation/optimization (S-O) models for stream-aquifer system management have included detailed interactions between groundwater, streams, and reservoir storage. This paper presents an S-O model doing that via artificial neural network simulators and genetic algorithm optimizer for multiobjective conjunctive water use problems. The model simultaneously addresses all significant flows including reservoir-stream-diversion-aquifer interactions in a more detailed manner than previous models. The model simultaneously maximizes total water provided and hydropower production. A penalty function implicitly poses constraints on state variables. The model effectively finds feasible optimal solutions and the Pareto optimum. Illustrated is application for planning water resource and minihydropower system development.

    Access

    Download

    Optimizing Reservoir-Stream-Aquifer Interactions for Conjunctive Use and Hydropower Production

    New search for: Hala Fayad
    New search for: Richard C. Peralta
    New search for: Ali Forghani

    Conjunctive management of water resources involves coordinating use of surface water and groundwater resources. Very few simulation/optimization (S-O) models for stream-aquifer system management have included detailed interactions between groundwater, streams, and reservoir storage. This paper presents an S-O model doing that via artificial neural network simulators and genetic algorithm optimizer for multiobjective conjunctive water use problems. The model simultaneously addresses all significant flows including reservoir-stream-diversion-aquifer interactions in a more detailed manner than previous models. The model simultaneously maximizes total water provided and hydropower production. A penalty function implicitly poses constraints on state variables. The model effectively finds feasible optimal solutions and the Pareto optimum. Illustrated is application for planning water resource and minihydropower system development.

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    Download

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    Document information
    Title:

    Optimizing Reservoir-Stream-Aquifer Interactions for Conjunctive Use and Hydropower Production

    Contributors:

    Hala Fayad (author) / Richard C. Peralta (author) / Ali Forghani (author)

    Published in:

    Advances in Civil Engineering, Vol 2012 (2012)

    Publication date:

    2012

    ISSN:

    1687-8086 , 1687-8094

    DOI:

    https://doi.org/10.1155/2012/910203

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Engineering (General). Civil engineering (General) , TA1-2040

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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