Distributed generation aggregators considering low-carbon credits optimize dispatch strategies

IF 0.8 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC

International Journal of Emerging Electric Power Systems Pub Date : 2024-03-06 DOI:10.1515/ijeeps-2023-0147

Ruohan Wang, Hongwei Xing, Yunlong Chen, Jianhui Zhang, Entang Li, Jing Li

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Abstract

Against the backdrop of China’s implementation of the “dual carbon” target and carbon emissions trading policies, renewable energy generation technologies have matured and received support from related policies. Distributed power sources have played a crucial role in the power system, and aggregators have integrated a large number of distributed power sources with diverse characteristics, shielding the complex characteristics of the underlying distributed power sources from grid scheduling. This article introduces the revenue optimization of low-carbon integration to optimize the aggregator’s scheduling model, designs distributed renewable energy generation units, and studies the solution strategy based on quantum genetic algorithms for large-scale optimization scheduling problems. The aggregator’s optimization variables divide the entire optimization problem and consider low-carbon integration to achieve distributed management of green energy parks, providing a feasible theoretical framework for the further development of distributed power sources. It has important practical significance in energy conservation, emissions reduction, and ecological environmental protection.

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考虑到低碳信用额度的分布式发电聚合器优化调度策略

在中国实施 "双碳 "目标和碳排放交易政策的背景下，可再生能源发电技术日趋成熟，并得到了相关政策的支持。分布式电源在电力系统中发挥了至关重要的作用，聚合器整合了大量特性各异的分布式电源，屏蔽了分布式电源底层复杂特性对电网调度的影响。本文引入低碳一体化的收益优化来优化聚合器的调度模型，设计分布式可再生能源发电单元，研究基于量子遗传算法的大规模优化调度问题的求解策略。聚合器的优化变量划分了整个优化问题，并考虑了低碳整合，实现了绿色能源园区的分布式管理，为分布式电源的进一步发展提供了可行的理论框架。在节能减排和生态环境保护方面具有重要的现实意义。

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来源期刊

International Journal of Emerging Electric Power Systems ENGINEERING, ELECTRICAL & ELECTRONIC-

CiteScore

3.00

自引率

10.00%

发文量

期刊介绍： International Journal of Emerging Electric Power Systems (IJEEPS) publishes significant research and scholarship related to latest and up-and-coming developments in power systems. The mandate of the journal is to assemble high quality papers from the recent research and development efforts in new technologies and techniques for generation, transmission, distribution and utilization of electric power. Topics The range of topics includes: electric power generation sources integration of unconventional sources into existing power systems generation planning and control new technologies and techniques for power transmission, distribution, protection, control and measurement power system analysis, economics, operation and stability deregulated power systems power system communication metering technologies demand-side management industrial electric power distribution and utilization systems.

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