Improved Sequential Quadratic Programming approach for optimal Distribution Generation sizing in distribution networks

CCECE 2010 Pub Date : 2010-05-02 DOI:10.1109/CCECE.2010.5575191

M. F. AlHajri, M. AlRashidi, M. El-Hawary

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引用次数: 12

Abstract

Integrating Distribution Generation sources (DGs) into an electric power system has an overall positive impact on the system. This impact can be enhanced via optimal DG placement and sizing. In this paper the location issue is investigated through an All Possible Combinations (APC) search approach of the distribution network. The DG rating, on the other hand, is formulated as a nonlinear optimization problem subject to highly nonlinear equality and inequality constraints. Sizing the DG optimally is performed using a conventional Sequential Quadratic Programming (SQP) method and a Fast SQP (FSQP) method. The FSQP is an improved version of the conventional SQP method that incorporates the Fast and Flexible Radial Power Flow (FFRPF) routine, which was developed by the authors in an earlier paper, to satisfy the power flow requirements. The results of this hybrid method are compared with those obtained using the conventional SQP technique, and the comparison results favor the proposed technique. This approach is designed to handle optimal single and multiple DG sizing. A 33-bus distribution network is used to investigate the performance of the proposed approach.

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配电网配电网发电规模优化的改进序贯二次规划方法

将配电电源(dg)集成到电力系统中对整个系统具有积极的影响。这种影响可以通过优化DG的位置和尺寸来增强。本文利用配电网的全可能组合(APC)搜索方法研究配电网的选址问题。另一方面，DG评级被表述为一个受高度非线性等式和不等式约束的非线性优化问题。采用传统的顺序二次规划(SQP)方法和快速二次规划(FSQP)方法对DG进行最优分级。FSQP是传统SQP方法的改进版本，它结合了作者在之前的论文中开发的快速灵活径向潮流(FFRPF)例程，以满足潮流要求。将该混合方法的结果与传统的SQP方法进行了比较，结果表明该混合方法更有利。这种方法旨在处理最佳的单一和多个DG尺寸。以一个33总线的配电网络为例，研究了该方法的性能。

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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CCECE 2010

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