Management of Congestion Costs Utilizing FACTS Controllers in a Bilateral Electricity Market Environment

2007 IEEE Lausanne Power Tech Pub Date : 2007-07-01 DOI:10.1109/PCT.2007.4538494

Xiao-Ping Zhang, B. Chong, Keith R. Godfrey, Liangzhong Yao, M. Bazargan, L. Schmitt

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引用次数: 23

Abstract

Due to the increased number of electricity market transactions and the high penetration of renewable power particularly wind power with intermittence nature on transmission networks, effective means for congestion management of transmission networks has become an increasingly important issue, particularly for transmission system operators (TSOs). Installations of FACTS controllers on transmission networks have been recognized as one of the cost-effective solutions for network congestion management. In this paper, a general two-step optimization methodology is first presented, which is capable of determining the optimal rating of a FACTS controller while relieving transmission system congestion via effective control of the flow of active and reactive power. Then a general sensitivity based three-step optimization methodology is further developed to include sensitivity analysis, which is capable of determining both the optimal location and rating of a FACTS controller effectively, for the congestion management of transmission networks under a bilateral electricity market environment. The proposed methods are illustrated with a 4-bus system and a modified IEEE 30-bus system.

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双边电力市场环境下利用FACTS控制器的拥堵成本管理

随着电力市场交易量的增加和可再生能源特别是具有间歇性的风电在输电网络中的高度渗透，有效的输电网络拥塞管理手段已经成为一个越来越重要的问题，特别是对于输电系统运营商(tso)来说。在传输网络上安装FACTS控制器已被认为是网络拥塞管理的经济有效的解决方案之一。本文首先提出了一种通用的两步优化方法，该方法能够通过有效控制有功功率和无功功率的流动来确定FACTS控制器的最佳额定值，同时缓解输电系统的拥塞。然后，进一步发展了一种包含灵敏度分析的基于一般灵敏度的三步优化方法，该方法能够有效地确定双边电力市场环境下输电网络拥塞管理中FACTS控制器的最优位置和最优等级。以一个4总线系统和一个改进的IEEE 30总线系统为例说明了所提出的方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2007 IEEE Lausanne Power Tech

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