Optimal power flow with time-related constraints by a nonlinear interior point method

2000 IEEE Power Engineering Society Winter Meeting. Conference Proceedings (Cat. No.00CH37077) Pub Date : 2000-01-23 DOI:10.1109/PESW.2000.847617

K. Xie, Y. Song

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引用次数: 9

Abstract

The trend toward deregulation has posed more challenging requirements on the traditional scheduling models, e.g. incorporating transmission components in the dynamic economic dispatching (DED) and introducing time-related constraints in optimal power flow (OFF). In this paper, the authors describe an algorithm for the integrated DED/OPF problem. Both time-separated (including full AC network constraints: voltage, angle, reactive power and branch flow etc.) and time-related constraints are considered and combined in a single optimization problem which is solved by a direct nonlinear interior point method (IPM). A border blocked system is derived and further decomposed into time-separated sub-matrices whose sizes merely rely on network sizes and 4*4 block structure is the same as the node admittance matrices. Hence, the Newton OPF techniques can be fully utilized. The numerical examples that range from 30 to 118 bus system with up to 24 hour periods have shown the proposed method is a very promising optimization tool for the emerging power market.

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具有时间约束的非线性内点法最优潮流

放松管制的趋势对传统的调度模型提出了更大的挑战，例如在动态经济调度(DED)中加入输电组件，在最优潮流(OFF)中引入时间相关约束。本文描述了一种求解DED/OPF集成问题的算法。将时间分离约束(包括全交流网络约束:电压、角度、无功功率和支路流等)和时间相关约束合并为一个优化问题，并采用直接非线性内点法求解。导出了边界阻塞系统，并将其进一步分解为大小仅依赖于网络大小的时间分离子矩阵，且4*4块结构与节点导纳矩阵相同。因此，牛顿OPF技术可以充分利用。以30 ~ 118个母线系统为例，以24小时为周期的数值算例表明，该方法在新兴电力市场中是一种很有前途的优化工具。

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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2000 IEEE Power Engineering Society Winter Meeting. Conference Proceedings (Cat. No.00CH37077)

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