Optimal Generation Rescheduling for Security Operation of Power Systems Using Optimal Control Theory

J. Q. Sun, K. W. Chan, D. Z. Fang, Hong Kong Sar
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引用次数: 0

Abstract

An approach of optimal generation rescheduling for security operation of power systems is proposed with a heuristic constraint of transient stability by setting the maximum generator angle difference less than a threshold value in a designated post-fault duration. With this constraint, a concept called stability performance index is introduced in the approach for developing optimal control model. Rules for evaluating the stability performance index are presented. A technique of inverse integration is utilized to evaluate the rescheduling actions by using the gradient of the index. This approach has the advantage that it is applicable to systems represented by complex detailed models. Case studies on the 10-machine New England test power system are given to show the effectiveness and efficiency of the approach. The results suggest that this approach is able to ensure the system operation security in avoiding any potential transient instability.
基于最优控制理论的电力系统安全运行最优发电重调度
提出了一种基于暂态稳定启发式约束的电力系统安全运行最优调度方法,该方法通过在指定的故障后持续时间内设置最大发电机组角度差小于阈值。在此约束条件下,在建立最优控制模型的方法中引入了稳定性能指标的概念。给出了稳定性能指标的评定规则。利用指数梯度,利用逆积分技术对重调度行为进行评价。这种方法的优点是它适用于由复杂的详细模型表示的系统。最后以10机新英格兰试验电力系统为例,验证了该方法的有效性和有效性。结果表明,该方法能够保证系统运行安全,避免潜在的暂态不稳定。
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