基于可靠性和气象因素的配电网短期维修决策方法

熊小伏<sup>1</sup>; 李磊<sup>1</sup>; 方丽华<sup>2</sup>; 彭嵩<sup>2</sup>; 方嵩<sup>2</sup>; 沈智健<sup>1</sup>

引用本文:	熊小伏,李磊,方丽华,等.基于可靠性和气象因素的配电网短期维修决策方法[J].电力系统保护与控制,2013,41(20):61-66.[点击复制]
	XIONG Xiao-fu,LI Lei,FANG Li-hua,et al.A decision method of short-term distribution network maintenance schedule based on reliability and meteorological factors[J].Power System Protection and Control,2013,41(20):61-66[点击复制]

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基于可靠性和气象因素的配电网短期维修决策方法
熊小伏¹,李磊¹,方丽华²,彭嵩²,方嵩²,沈智健¹
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(1.重庆大学输配电装备及系统安全与新技术国家重点实验室，重庆 400030;2.广东电网公司中山供电局，广东中山 528400)

摘要:

配电系统可靠性受气象因素的影响很大，为提高配电网在整个维修期间的可靠性，同时综合考虑被维修设备和其他设备所在的气象条件对维修风险带来的影响，提出一种计及可靠性和气象因素的配电网短期维修决策方法。与传统的配电网维修计划优化相比，该方法建立了不同气象条件下配电设备故障率及其修复时间计算模型。在计及维修规程约束、维修能力约束和电网结构约束的前提下，以可靠性指标损失最小为优化目标，建立了反映配电网期望停电持续时间和期望缺电量的系统风险综合指标。采用遗传优化算法，搜寻整个维修周期内系统综合风险指标最小的最佳维修计划。

关键词: 配电网气象因素可靠性维修计划遗传算法

DOI：10.7667/j.issn.1674-3415.2013.20.010

基金项目:重庆大学输配电装备及系统安全与新技术国家重点实验室资助项目(2007DA10512708203)

A decision method of short-term distribution network maintenance schedule based on reliability and meteorological factors

XIONG Xiao-fu¹,LI Lei¹,FANG Li-hua²,PENG Song²,FANG Song²,SHEN Zhi-jian¹

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Abstract:

The meteorological factors have an effect on reliability of distribution system. In order to improve the reliability of the distribution network throughout the maintenance period, considering the effects of weather conditions of the maintenance equipment and the other equipment on the maintenance risk, a decision method of maintenance schedule for distribution system is proposed by considering reliability and meteorological factors. Compared with the traditional optimization of distribution network maintenance schedule, the calculation models for failure rate and repair time of distribution equipments under different meteorological conditions are established. At the same time, under the premise of considering the constraints of maintenance procedures, maintenance capacity and grid structure, with minimal loss of reliability index as the target of optimization, the system risk aggregative indicator that intensively reflects the system average interruption duration index and the expected energy not supplied is defined. The optimal maintenance schedule with the smallest system comprehensive risk index is searched by using genetic optimization algorithm.

Key words: distribution network meteorological factors reliability maintenance schedule genetic algorithm

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