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    Direct load control by distributed imperialist competitive algorithm

    New search for: Fengji Luo
    New search for: Junhua Zhao
    New search for: Haiming Wang
    New search for: Xiaojiao Tong
    New search for: Yingying Chen
    New search for: Zhao Yang Dong

    Demand side management techniques have drawn significant attentions along with the development of smart grid. This paper proposes a new direct load control (DLC) model for scheduling interruptible air conditioner loads. The model is coordinated with the unit commitment and economic dispatch to minimize the total operation cost over the whole dispatch horizon. The network constraints are also considered in the model. To ensure the thermal comfort of the occupants, we are among the first to incorporate the advanced two-parameter thermal inertia dynamical model of customer houses into the DLC model to calculate the indoor temperature variation. This paper also proposes a distributed imperialist competitive algorithm to effectively solve the model. The simulation studies prove the efficiency of the proposed methodology.

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    Direct load control by distributed imperialist competitive algorithm

    New search for: Fengji Luo
    New search for: Junhua Zhao
    New search for: Haiming Wang
    New search for: Xiaojiao Tong
    New search for: Yingying Chen
    New search for: Zhao Yang Dong

    Demand side management techniques have drawn significant attentions along with the development of smart grid. This paper proposes a new direct load control (DLC) model for scheduling interruptible air conditioner loads. The model is coordinated with the unit commitment and economic dispatch to minimize the total operation cost over the whole dispatch horizon. The network constraints are also considered in the model. To ensure the thermal comfort of the occupants, we are among the first to incorporate the advanced two-parameter thermal inertia dynamical model of customer houses into the DLC model to calculate the indoor temperature variation. This paper also proposes a distributed imperialist competitive algorithm to effectively solve the model. The simulation studies prove the efficiency of the proposed methodology.

    Access

    Download

    Direct load control by distributed imperialist competitive algorithm

    New search for: Fengji Luo
    New search for: Junhua Zhao
    New search for: Haiming Wang
    New search for: Xiaojiao Tong
    New search for: Yingying Chen
    New search for: Zhao Yang Dong

    Demand side management techniques have drawn significant attentions along with the development of smart grid. This paper proposes a new direct load control (DLC) model for scheduling interruptible air conditioner loads. The model is coordinated with the unit commitment and economic dispatch to minimize the total operation cost over the whole dispatch horizon. The network constraints are also considered in the model. To ensure the thermal comfort of the occupants, we are among the first to incorporate the advanced two-parameter thermal inertia dynamical model of customer houses into the DLC model to calculate the indoor temperature variation. This paper also proposes a distributed imperialist competitive algorithm to effectively solve the model. The simulation studies prove the efficiency of the proposed methodology.

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    Download

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    Download

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    Document information
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    Document information
    Title:

    Direct load control by distributed imperialist competitive algorithm

    Contributors:

    Fengji Luo (author) / Junhua Zhao (author) / Haiming Wang (author) / Xiaojiao Tong (author) / Yingying Chen (author) / Zhao Yang Dong (author)

    Published in:

    Journal of Modern Power Systems and Clean Energy, Vol 2, Iss 4, Pp 385-395 (2014)

    Publication date:

    2014

    ISSN:

    2196-5420

    DOI:

    https://doi.org/10.1007/s40565-014-0075-x

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Direct load control , Imperialist competitive algorithm , Demand side management , Production of electric energy or power. Powerplants. Central stations , TK1001-1841 , Renewable energy sources , TJ807-830

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

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