基于第三版文化算法(CA3)的联合环境经济调度非凸优化

A. Goudarzi, A. Swanson, F. Tooryan, A. Ahmadi
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引用次数: 10

摘要

经济负荷调度通常被定义为在运行的发电机组之间分配发电量的过程,以满足需求并使燃料成本最小化。由于环境法规的增加,排放限制被添加到重新定义传统的ELD问题。在满足负荷需求的同时,最大限度地降低运行燃料成本和排放水平;这一过程被称为环境经济联合调度(CEED)。由此产生的CEED成为一个具有挑战性的非凸优化问题,难以用传统的lambda迭代法和梯度法求解。为了解决这一障碍,该研究提出了一种新的启发式搜索技术,该技术基于文化算法(CA3)的改进版本来解决CEED问题,同时考虑到传输线损耗和发电机组的几个物理约束。为了验证本研究的目的,所提出的方法已在两个不同的测试系统中应用;5个发电机组和20个发电机组系统。仿真结果表明,与其他研究方法相比,所提出的方法为CEED问题提供了较低的生成成本,并且随着系统复杂性的增加,CA3的收敛速度仍然相当快。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Non-convex optimization of combined enviromental economic dispatch through the third version of the cultural algorithm (CA3)
Economic load dispatch (ELD) is conventionally defined as the process of allocating generation among the running generating units such that the demand is satisfied and the fuel cost is minimized. Due to increased environmental regulation, emission constraints are being added to redefine the conventional ELD problem. It is important to minimize both the operating fuel cost and emission levels simultaneously while satisfying the load demand; this process is known as combined environmental economic dispatch (CEED). The resultant CEED becomes a challenging non-convex optimization problem, which is difficult to solve using the traditional methods such as lambda iteration and gradient method. To tackle this barrier the study has proposed a novel heuristic search technique based on a modified version of the cultural algorithm (CA3) to solve the CEED problem whilst considering transmission line losses and several physical constraints of generating units. In order to validate the aims of this study, the proposed approach has been applied in two different test systems; 5 generating units and 20 generating units systems. The results of the simulations show that the proposed method of the study provides a lower generation cost for the CEED problem in comparison to the other studied techniques, it is also observed that the convergence of the CA3 remains considerably fast as the system complexity increases.
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