Supporting services for real time wheeling transactions requests

2011 16th International Conference on Intelligent System Applications to Power Systems Pub Date : 2011-11-18 DOI:10.1109/ISAP.2011.6082171

A. Vlachos, P. Biskas

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Abstract

As electricity markets emerge, power exchanges and wheeling transactions become a common operating practice in most power systems. This paper considers an interim system which transfers power between two neighboring systems and presents a methodology to estimate the maximum secure wheeling transaction that the interim system is capable to support. By reactive or active power rescheduling actions, the interim system can significantly increase the size of transfer capability, thus offer support services to accommodate the wheeling transaction. The method utilizes an Optimal Power Flow algorithm, in order to calculate the maximum active power that can be transferred, subject to security constraints, as well as the support services provided by the host system. An AC-OPF model is used and a variety of formulations are examined to model the host system actions. The method is intended for application in real time procedures, utilizing the intra-day electricity market processes. An illustrative study case of the methodology is presented for a 26-bus power system supporting wheeling transaction between two neighboring systems.

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支持实时轮询事务请求的服务

随着电力市场的出现，电力交换和轮转交易成为大多数电力系统中常见的操作方式。本文考虑了一个在两个相邻系统之间传输电力的过渡系统，提出了一种估计过渡系统所能支持的最大安全轮询事务的方法。通过无功或有功重调度，过渡系统可以显著增加传输能力的规模，从而为适应轮转交易提供支持服务。该方法利用最优潮流算法，在安全约束和主机系统提供的支持服务的前提下，计算可传输的最大有功功率。使用了AC-OPF模型，并检查了各种公式来模拟宿主系统的动作。该方法旨在应用于实时程序，利用日内电力市场过程。以一个支持相邻系统轮转交易的26总线电力系统为例，给出了该方法的实例研究。

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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2011 16th International Conference on Intelligent System Applications to Power Systems

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