遗传算法在长期发电扩展规划中的应用

2006 IEEE/PES Transmission & Distribution Conference and Exposition: Latin America Pub Date : 2006-08-01 DOI:10.1109/TDCLA.2006.311386

A. Marcato, I. Chaves S, P. Garcia, A. Mendes, A. M. Iung, J. Pereira, E. J. Oliveira

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引用次数: 5

摘要

扩大热液发电系统的基础是通过增加现有发电厂和/或提高在该国几个地区之间转移能源的能力来满足未来能源市场的能力。要执行的最优投资是新机组发电能力的函数，该函数根据发电能力、新互联造成的影响和能源供应标准进行量纲化。因此，本工作旨在通过新一代机组的建设角度获得现有电厂的最佳规划，以可靠和经济的方式满足市场。然而，该问题涉及多个热电厂和水电厂的进入方案以及与水电厂方案相对应的几个综合系列，使其成为一个组合问题。为了做到这一点，本文将使用遗传算法，该算法具有特定的遗传结构，并结合系统规划器使用的规则，独立搜索最佳扩展策略

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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Genetic Algorithm Approach Applied to Long Term Generation Expansion Planning

The hydrothermal generation systems expansion is based on the ability of meeting the future energy market through increasing the existing power plants and/or the increase of the ability in transferring energy among the several regions in the country. The optimal investment to be performed is a function of generating ability of new units which are dimensioned according to the energy generation ability, to the impact caused by new interconnections and to the energy supply criterion. Thus, this work aims at obtaining the optimal planning of the existing power plants through the building perspective of new generation units in order to meet the market in a trustful and economic manner. However, the problem involves several entry programs of thermal and hydro plants and several synthetic series corresponding to the hydro scenarios, giving the problem a combinatorial problem. In order to do so, herein we will use a genetic algorithm, which presents a particular genetic structure and incorporate rules used by the system planner, to search for the best expansion strategy independently

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2006 IEEE/PES Transmission & Distribution Conference and Exposition: Latin America

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