Coordinated Voltage Control Strategy of Active Distribution Networks with Consideration of Power to Hydrogen

2022 12th International Conference on Power and Energy Systems (ICPES) Pub Date : 2022-12-23 DOI:10.1109/ICPES56491.2022.10072883

Y. Zhang, Jian Chen, Leiqi Zhang, Qiliang Wu

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Abstract

The connection of high penetration of distributed renewable energy sources, e.g. photovoltaic (PV), will bring great challenges to the voltage control of active distribution network (ADN). To better solve the problem of voltage violation caused by massive connection of PV, this paper explores the voltage regulation potential of power to hydrogen (P2H) devices and proposes a coordinated voltage control strategy of ADN with P2H. Firstly, the models of PV, on-load tap changer (OLTC), capacitor bank (CB), energy storage systems (ESS) and other traditional equipment in ADN are established. Secondly, P2H is modeled with consideration of start-stop constraints, output constraints, power constraints, etc. Finally, a voltage coordination control strategy of ADN with P2H is proposed considering both the voltage control effect and regulation cost. The proposed strategy is tested on the improved IEEE33 distribution network, and the simulation results verify its effectiveness in reducing voltage deviation and regulating cost.

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考虑向氢供电的有功配电网电压协调控制策略

光伏(PV)等分布式可再生能源的高渗透率并网，将给有源配电网(ADN)的电压控制带来巨大挑战。为了更好地解决光伏大规模接入带来的电压违和问题，本文探讨了P2H (power To hydrogen)器件的电压调节潜力，提出了ADN与P2H的协同电压控制策略。首先，建立了ADN中PV、有载分接开关(OLTC)、电容器组(CB)、储能系统(ESS)等传统设备的模型;其次，建立了考虑启停约束、输出约束、功率约束等因素的P2H模型;最后，综合考虑电压控制效果和调节成本，提出了一种带P2H的ADN电压协调控制策略。在改进的IEEE33配电网上进行了测试，仿真结果验证了该策略在降低电压偏差和调节成本方面的有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 12th International Conference on Power and Energy Systems (ICPES)

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