水库多目标调度的自适应元启发式优化技术

IF 2.1 4区 环境科学与生态学 Q2 ENGINEERING, CIVIL
Vijendra Kumar, Kul Vaibhav Sharma, S. Yadav, Arpan Deshmukh
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引用次数: 0

摘要

多目标水库运行提出了一些必须克服的关键挑战,以实现水资源的有效管理。满足灌溉需求和最大化水力发电等几个目标之间的内在矛盾是主要问题之一。必须仔细考虑权衡和妥协,以平衡这些目标。为解决这一问题,以灌溉亏缺最小和水力发电量最大为主要目标,开展了多目标水库优化调度研究。本文采用自适应多种群多目标Jaya算法(SAMP-MOJA),即Jaya算法的改进版本,利用先验方法构建最优Pareto Front。将SAMP-MOJA算法与多目标粒子群优化、多目标入侵杂草优化、多目标Jaya算法等算法进行性能比较。研究结果表明,所建模型的水力发电量超过实际发电量的80%。这项研究的发现将有助于设计最有效的帕累托前线。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Self-adaptive metaheuristic optimization technique for multi-objective reservoir operation
Multi-objective reservoir operation presents a number of critical challenges that must be overcome for efficient management of water resources. The inherent contradiction between several goals, such as satisfying irrigation demand and maximizing hydropower generation, is one of the major issues. Trade-offs and compromises must be carefully considered to balance these objectives. To solve this problem, a study was carried out to optimize the operation of multi-objective reservoirs with two primary goals: minimizing irrigation deficits and maximizing hydropower generation. This study employs the self-adaptive multipopulation multi-objective Jaya algorithm (SAMP-MOJA), an improved version of the Jaya algorithm, to construct an optimal Pareto Front utilizing an a priori approach. The performance of SAMP-MOJA is compared to that of other algorithms such as multi-objective particle swarm optimization, multi-objective invasive weed optimization, and multi-objective Jaya algorithm. The results of this study demonstrate that the hydropower generated by the developed model surpasses 80% of the actual generation. The study's findings will aid in designing the most effective Pareto front possible.
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来源期刊
CiteScore
4.10
自引率
21.10%
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