具有新颖数据结构的最优潮流问题的内点非线性规划

Proceedings of the 20th International Conference on Power Industry Computer Applications Pub Date : 1997-05-11 DOI:10.1109/PICA.1997.599388

Hua Wei, H. Sasaki, J. Kubokawa, R. Yokoyama

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引用次数: 381

摘要

基于最优潮流问题的扰动KKT条件，提出了求解最优潮流问题的一种新的内点非线性规划算法。通过中心方向的概念，将该算法推广到经典潮流问题和近似潮流问题。对于后者，可以大大减少CPU时间。为了有效地处理函数不等式约束，导出了一个简化的修正方程，其大小取决于等式约束的大小。提出了一种新的数据结构，该结构通过重新排列修正方程来实现。与Newton OPF的传统数据结构相比，在大规模系统中，该方案的填充次数大约减少了一半，CPU时间减少了约15%。该算法包括四种目标函数和两种不同的数据结构。在规模从14到1047总线的测试系统上进行的大量数值模拟表明，由于该方法具有鲁棒性和快速的执行时间，因此非常有希望大规模应用。

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An interior point nonlinear programming for optimal power flow problems with a novel data structure

This paper presents a new interior point nonlinear programming algorithm for optimal power flow problems (OPF) based on the perturbed KKT conditions of the primal problem. Through the concept of the centering direction, we extend this algorithm to classical power flow (PF) and approximate OPF problems. For the latter, CPU time can be reduced substantially. To efficiently handle functional inequality constraints, a reduced correction equation is derived, the size of which depends on that of equality constraints. A novel data structure is proposed which has been realized by rearranging the correction equation. Compared with the conventional data structure of Newton OPF, the number of fill-ins of the proposed scheme is roughly halved and CPU time is reduced by about 15% for large scale systems. The proposed algorithm includes four kinds of objective functions and two different data structures. Extensive numerical simulations on test systems that range in size from 14 to 1047 buses, have shown that the proposed method is very promising for large scale application due to its robustness and fast execution time.

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Proceedings of the 20th International Conference on Power Industry Computer Applications

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