A Robust Joint Planning Method for Soft Open Points and Energy Storage Systems in AC/DC Hybrid Distribution Networks Considering Electric Vehicle Demand Response

doi:10.11930/j.issn.1004-9649.202507034

Abstract

Abstract:

To meet the new demands of high-quality development of distribution networks and enhance their capacity to accommodate large-scale distributed generation and electric vehicle (EV) loads, this paper proposes a robust joint planning method for soft open points (SOP) and distributed energy storage systems (DESS) in AC/DC hybrid distribution networks, with consideration of EV demand response. Firstly, to address source-load uncertainty, typical and extreme daily operation scenarios are extracted using K-means clustering, and a scenario probability uncertainty set is constructed with l₁-norm and infinity-norm constraints to adjust the model’s conservativeness. And then, the response behaviors of EV users to real-time price are characterized by a demand price elasticity coefficient. A two-stage robust optimization model is formulated to minimize the annual total cost, and the second-order cone relaxation and McCormick envelopes are used to convexify the model. Scenario probability variables are expanded in binary form to enable worst-case scenario search within the uncertainty set. Candidate SOP locations are extended based on network partitioning. The model is solved efficiently by applying duality theory and the inexact column-and-constraint generation (i-C&CG) algorithm. Finally, the effectiveness of the proposed model in supporting voltage, ensuring renewable energy accommodation, and reducing losses is verified in a 69-bus system.

Key words: AC/DC hybrid distribution network, electric vehicle, soft open point, energy storage system, two-stage robust optimization

LIAO Jian, ZHANG Yao, ZHANG Beixi, DONG Haomiao, LI Jiaxing, SUN Qianhao. A Robust Joint Planning Method for Soft Open Points and Energy Storage Systems in AC/DC Hybrid Distribution Networks Considering Electric Vehicle Demand Response[J]. Electric Power, 2025, 58(10): 82-96.

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URL: https://www.electricpower.com.cn/EN/10.11930/j.issn.1004-9649.202507034

https://www.electricpower.com.cn/EN/Y2025/V58/I10/82

Figures/Tables 16

References 31

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安装设备	安装位置	安装容量/kW
风电机组	34, 35, 67	1000, 1000, 800
光伏机组	32, 45, 46, 65	1200, 1000, 1200, 1000
电动汽车充电站	15, 25, 27, 63	150, 500, 900, 900

安装设备	安装位置	安装容量/kW
风电机组	34, 35, 67	1000, 1000, 800
光伏机组	32, 45, 46, 65	1200, 1000, 1200, 1000
电动汽车充电站	15, 25, 27, 63	150, 500, 900, 900

方案	年综合收益	售电收入	安装投资成本	运维成本	购电费用	切负荷费用	弃风弃光费用	损耗费用
1	1583.05	2387.25	0	0	409.29	329.50	2.07	63.33
2	2030.52	2507.94	11.41	12.26	426.59	0	3.18	23.98
3	1719.58	2432.58	65.60	13.30	347.02	220.15	0	66.93
4	2040.32	2507.94	63.86	21.32	355.63	0	0	26.82
5	2032.96	2516.48	61.81	20.96	372.29	0	0	28.45

方案	年综合收益	售电收入	安装投资成本	运维成本	购电费用	切负荷费用	弃风弃光费用	损耗费用
1	1583.05	2387.25	0	0	409.29	329.50	2.07	63.33
2	2030.52	2507.94	11.41	12.26	426.59	0	3.18	23.98
3	1719.58	2432.58	65.60	13.30	347.02	220.15	0	66.93
4	2040.32	2507.94	63.86	21.32	355.63	0	0	26.82
5	2032.96	2516.48	61.81	20.96	372.29	0	0	28.45

方案	DESS安装结果			SOP安装结果
方案	安装节点位置	安装容量/ (MW·h)	安装功率/ MW	安装线路位置	安装容量/ (MV·A)
2				(2, 19) (35, 61) (46, 60)	0.32, 0.64, 0.16
3	2, 3, 20, 46, 64, 65	2.7, 2.4, 0.3, 2.7, 0.9, 0.3	0.5, 0.5, 0.2, 0.5, 0.25, 0.1
4	2, 46, 64	2.7, 2.7, 2.4	0.5, 0.5, 0.5	(46, 19), (35, 61)	0.32, 0.64
5	2, 46, 65	2.7, 2.7, 2.1	0.5, 0.5, 0.45	(46, 19), (35, 61)	0.32, 0.64