《电力自动化设备》

引用本文:	马天祥,贾伯岩,卢志刚,程肖,王代远.基于主从博弈理论的能源互联配电网多能互补协调故障恢复方法[J].电力自动化设备,2020,40(5):
	MA Tianxiang,JIA Boyan,LU Zhigang,CHENG Xiao,WANG Daiyuan.Multi-energy complement and coordinated post-contingency recovery method of distribution energy networks based on master-slave game theory[J].Electric Power Automation Equipment,2020,40(5):

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基于主从博弈理论的能源互联配电网多能互补协调故障恢复方法
马天祥¹, 贾伯岩¹, 卢志刚², 程肖³, 王代远⁴
1.国网河北省电力有限公司电力科学研究院，河北石家庄 050021;2.燕山大学河北省电力电子节能与传动控制重点实验室，河北秦皇岛 066004;3.河北省送变电有限公司，河北石家庄 050051;4.国网河北省电力有限公司石家庄供电分公司，河北石家庄 050000

摘要:

针对能源互联配电网故障恢复的问题，采用主从博弈理论进行建模，所建立的能源互联配电网故障恢复模型计及了多个能源子网之间的多能互补协调。以发生故障后电能子网开关状态为主体博弈者的策略，以能源互联配电网故障恢复后系统的失电负荷量最小为主体博弈者的支付；以包括电能子网、热能子网、气能子网以及交通子网在内的各能源子网优化运行计划调整为从体博弈者的策略，以系统在故障期间综合运行成本最小为从体博弈者的支付，并计及各能源子网运行的必要约束。主体博弈者在提供故障发生后开关状态的同时从体博弈者对能源互联配电网的优化运行计划进行调整。仿真算例表明，能源互联配电网相比于传统配电网，系统在故障恢复之后的运行经济性以及可靠性均更高。

关键词: 能源互联配电网故障恢复主从博弈多能互补协调失电负荷指标

DOI：10.16081/j.epae.202004020

分类号:TM73

基金项目:国家自然科学基金资助项目(61873225)；河北省自然科学基金京津冀合作专项项目(F2016203507)；国网河北省电力有限公司资助项目(kj2019-068)

Multi-energy complement and coordinated post-contingency recovery method of distribution energy networks based on master-slave game theory

MA Tianxiang¹, JIA Boyan¹, LU Zhigang², CHENG Xiao³, WANG Daiyuan⁴

1.State Grid Hebei Electric Power Research Institute, Shijiazhuang 050021, China;2.Key Laboratory of Power Electronics for Energy Conservation and Motor Drive of Hebei Province, Yanshan University, Qinhuangdao 066004, China;3.Hebei Electricity Transmission & Transformation Facilities Company, Shijiazhuang 050051, China;4.Shijiazhuang Power Supply Branch, State Grid Hebei Electric Power Corporation, Shijiazhuang 050000, China

Abstract:

To solve the post-contingency recovery problem of distribution energy networks, a master-slave game theory-based approach is developed. The post-contingency recovery method of distribution energy networks considers multi-energy complementary and coordination. The strategy of the master problem is to adjust the post-contingency switch state of distribution network, which aims at minimizing the electricity shedding after the recovery of distribution energy networks. The operation strategies of subenergy networks including electricity, heat, natural gas, and transportation sub energy networks are adjusted in the slave problem. This problem minimizes the post-contingency total operation cost of multi-energy networks, and the necessary operational constraints of each sub energy network are considered. Hence, the master player adjusts the post-contingency switch state, while the slave player adjusts the operation strategy of distribution energy networks. Simulative results show that the distribution energy network provides more economic and reliable post-contingency operations in comparison with the traditional distribution network.

Key words: distribution energy networks post-contingency recovery master-slave game theory multi-energy complementary and coordination demand shedding index

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