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Distributed real-time demand response based on Lagrangian multiplier optimal selection approach

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  • Wang, Jianxiao
  • Zhong, Haiwang
  • Lai, Xiaowen
  • Xia, Qing
  • Shu, Chang
  • Kang, Chongqing

Abstract

In this paper, a real-time demand response (DR) framework and model for a smart distribution grid is formulated. The model is optimized in a distributed manner with the Lagrangian relaxation (LR) method. Consumers adjust their own hourly load level in response to real-time prices (RTP) of electricity to maximize their utility. Because the convergence performance of existing distributed algorithms highly relies on the selection of the iteration step size and search direction, a novel approach termed Lagrangian multiplier optimal selection (LMOS) is proposed to overcome this difficulty. Via sensitivity analysis, the energy demand elasticity of consumers can be effectively estimated. Then the LMOS model can be established to optimize the Lagrangian multipliers in a relatively small linearized neighborhood. The salient feature of LMOS is its capability to optimally determine the Lagrangian multipliers during each iteration, which greatly improves the convergence performance of the distributed algorithm. Case studies based on a distribution grid with the number of consumers ranging from 10 to 100 and a real-world distribution grid demonstrate that the proposed method greatly outperforms the prevalent approaches, in terms of both efficiency and robustness.

Suggested Citation

  • Wang, Jianxiao & Zhong, Haiwang & Lai, Xiaowen & Xia, Qing & Shu, Chang & Kang, Chongqing, 2017. "Distributed real-time demand response based on Lagrangian multiplier optimal selection approach," Applied Energy, Elsevier, vol. 190(C), pages 949-959.
    • Handle: RePEc:eee:appene:v:190:y:2017:i:c:p:949-959
    DOI: 10.1016/j.apenergy.2016.12.147
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    References listed on IDEAS

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    Cited by:

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    8. Gan, Wei & Yan, Mingyu & Yao, Wei & Guo, Jianbo & Ai, Xiaomeng & Fang, Jiakun & Wen, Jinyu, 2021. "Decentralized computation method for robust operation of multi-area joint regional-district integrated energy systems with uncertain wind power," Applied Energy, Elsevier, vol. 298(C).
    9. Ruan, Guangchun & Zhong, Haiwang & Wang, Jianxiao & Xia, Qing & Kang, Chongqing, 2020. "Neural-network-based Lagrange multiplier selection for distributed demand response in smart grid," Applied Energy, Elsevier, vol. 264(C).
    10. Imani, Mahmood Hosseini & Ghadi, M. Jabbari & Ghavidel, Sahand & Li, Li, 2018. "Demand Response Modeling in Microgrid Operation: a Review and Application for Incentive-Based and Time-Based Programs," Renewable and Sustainable Energy Reviews, Elsevier, vol. 94(C), pages 486-499.
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