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A Multi-Stage Coordinated Volt-Var Optimization for Integrated and Unbalanced Radial Distribution Networks

Author

Listed:
  • Xiangjing Su

    (School of Electrical Engineering, Shanghai University of Electric Power, Shanghai 200090, China)

  • Jining Liu

    (School of Electrical Engineering, Shanghai University of Electric Power, Shanghai 200090, China)

  • Shuxin Tian

    (School of Electrical Engineering, Shanghai University of Electric Power, Shanghai 200090, China)

  • Ping Ling

    (Electric Power Research Institute of State Grid Shanghai Municipal Electric Power Company, Shanghai 200437, China)

  • Yang Fu

    (School of Electrical Engineering, Shanghai University of Electric Power, Shanghai 200090, China)

  • Shurong Wei

    (School of Electrical Engineering, Shanghai University of Electric Power, Shanghai 200090, China)

  • Chao SiMa

    (School of Electrical Engineering, Shanghai University of Electric Power, Shanghai 200090, China)

Abstract

The growing penetrations of rooftop photovoltaics (PVs) into low-voltage (LV) distribution networks are challenging voltage regulation. Developing an effective volt-var (VV) control has been the focus of many researchers with various approaches proposed so far. However, assuming a single voltage level and balanced network model, widely adopted in existing literatures, tends to cause inaccurate and even infeasible control solutions. Besides, existing distribution VV control studies are usually based on the day-ahead predictions of PV generations and loads, introducing inevitable and non-negligible errors. To address the challenges above, this paper proposes a VV co-optimization across unbalanced medium-voltage (MV) and LV networks, by traditional and emerging techniques, to ensure the network operation with the required power quality. Specifically, the operation of MV delta-connected switched capacitors and LV distributed PV inverters is coordinated, under a three-stage strategy that suits integrated and unbalanced radial distribution networks. The proposal aims to simultaneously improve voltage magnitude and balance profiles while reducing network power loss, at the least controlling cost. To effectively solve the proposed VV optimization problem, a joint solver of the modified particle swarm optimization and the improved direct load flow is employed. Finally, the proposal is evaluated by simulations on real Australian distribution networks over 24 h.

Suggested Citation

  • Xiangjing Su & Jining Liu & Shuxin Tian & Ping Ling & Yang Fu & Shurong Wei & Chao SiMa, 2020. "A Multi-Stage Coordinated Volt-Var Optimization for Integrated and Unbalanced Radial Distribution Networks," Energies, MDPI, vol. 13(18), pages 1-19, September.
    • Handle: RePEc:gam:jeners:v:13:y:2020:i:18:p:4877-:d:415125
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    Citations

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    Cited by:

    1. Jarosław Korpikiewicz & Mostefa Mohamed-Seghir, 2022. "Static Analysis and Optimization of Voltage and Reactive Power Regulation Systems in the HV/MV Substation with Electronic Transformer Tap-Changers," Energies, MDPI, vol. 15(13), pages 1-26, June.
    2. Mohammed Alshehri & Jin Yang, 2024. "Voltage Optimization in Active Distribution Networks—Utilizing Analytical and Computational Approaches in High Renewable Energy Penetration Environments," Energies, MDPI, vol. 17(5), pages 1-33, March.
    3. Yih-Der Lee & Wei-Chen Lin & Jheng-Lun Jiang & Jia-Hao Cai & Wei-Tzer Huang & Kai-Chao Yao, 2021. "Optimal Individual Phase Voltage Regulation Strategies in Active Distribution Networks with High PV Penetration Using the Sparrow Search Algorithm," Energies, MDPI, vol. 14(24), pages 1-22, December.

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