配电网防风抗灾加固措施优化决策方法

doi:10.12096/j.2096-4528.pgt.20126

摘要/Abstract

摘要：

台风是常见的自然灾害之一，会严重影响配电网基础设施的正常运行。通过加固系统元件（如导线和电杆）提升其抗灾强度，是降低由极端天气事件所造成损失的一种有效方法。为此，提出了考虑经济性约束的配电网基础设施灾前加固策略。首先对极端天气自然灾害发生、元件脆弱性、灾害对配电网影响进行建模，并利用蒙特卡罗仿真方法评估配电网的抗灾能力。然后，将配电网加固策略问题作为优化问题，综合考虑总加固预算约束、负荷的重要度和配电网元件脆弱性，并通过粒子群优化算法求解最优加固策略。最后，将所提出策略应用于改进的18节点配电系统以验证其有效性。

关键词: 台风, 配电网, 抗灾能力评估, 基础设施加固

Abstract:

Typhoon is one of the common natural disasters, which will seriously affect the normal operation of the distribution network infrastructure. Reinforcing system infrastructure (such as wires and poles) to improve their disaster resilience is an effective way to reduce losses caused by extreme weather events. Therefore, this paper proposes a pre-disaster reinforcement strategy for the distribution network infrastructure considering economic constraints. Firstly, the models of occurrence of extreme weather, component fragility and the disaster response process were created. Then, the disaster resilience of distribution network was evaluated via Monte Carlo simulation. The reinforcement strategy was further optimized through the particle swarm optimization algorithm, considering the total reinforcement budget, the load importance and the component fragility. Finally, the proposed strategy was applied to an improved 18-bus distribution system to verify its effectiveness.

Key words: typhoon, distribution network, disaster resilience evaluation, infrastructure reinforcement

中图分类号:

TK01
TM715

高鑫, 唐飞, 张童彦, 李宇. 配电网防风抗灾加固措施优化决策方法[J]. 发电技术, 2021, 42(1): 78-85.

Xin GAO, Fei TANG, Tongyan ZHANG, Yu LI. Optimal Decision-making Method of Wind-proof and Disaster-resistant Reinforcement Measures for Distribution Network[J]. Power Generation Technology, 2021, 42(1): 78-85.

图/表 8

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加固措施	成本/元
替换相同等级的混凝土杆	800
替换更高等级的混凝土杆	1 300
替换相同等级的木杆	500
替换更高等级的木杆	700
加固电杆	400
植被修剪管理	300

加固措施	成本/元
替换相同等级的混凝土杆	800
替换更高等级的混凝土杆	1 300
替换相同等级的木杆	500
替换更高等级的木杆	700
加固电杆	400
植被修剪管理	300

项目	方案1	方案2	方案3
VoLL/万元	148.4	88.9	59.5
平均停电时间/h	137.8	126.2	104.3
平均电杆损坏数/根	21	17	11
加固成本/万元	0	9.35	9.88
加固的支路数	—	11	8

项目	方案1	方案2	方案3
VoLL/万元	148.4	88.9	59.5
平均停电时间/h	137.8	126.2	104.3
平均电杆损坏数/根	21	17	11
加固成本/万元	0	9.35	9.88
加固的支路数	—	11	8

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