摘要
针对平均风险指标无法区分高损失-低概率事件及低损失-高概率事件的缺点,提出了电力系统的分割多目标风险分析框架。该框架将电力系统的风险状态细分为低损失、中等损失和高损失3个风险范围,并提出3个损失范围条件风险函数和条件风险概率的概念。采用经典的容量停运表模型,建立了这些条件期望指标的计算方法。对IEEE-RTS及TH-RTS2000系统进行了分割多目标风险评估,研究不同负荷水平下系统风险在3个损失范围的分布及转移情况,并分析损失分割点对系统风险的影响。通过分割多目标风险分析,风险分析者和决策者可以权衡系统的平均风险以及高、中、低损失范围的条件期望风险,从而对系统的风险状况有一个全面和深入的了解。
The average risk indices, such as the loss of load expectation (LOLE) and expected demand not supplied (EDNS), have been widely used in risk assessment of power systems. However, the average indices can't distinguish between the events of low probability but high damage and the events of high probability but low damage. In order to ov+rcome these shortcomings, this paper proposes an extended risk analysis framework for the power system based on the partitioned multi-objective risk method (PMRM).
出处
《中国电机工程学报》
EI
CSCD
北大核心
2011年第34期I0005-I0005,7,共1页
Proceedings of the CSEE
基金
教育部博士点基金资助项目(20100201110022)
关键词
英文摘要
内容介绍
编辑工作
期刊
power systems
reliability assessment
partitioned multi-objective risk method
conditional risk
risk distribution
probabilistic reliability evaluation
capacity outage table
