Study on low-carbon service mode of park-level integrated energy system with flexible supply and demand balance

Hua Pan, Yanji Li, Rong Liu, Huimin Zhu
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Abstract

Against the backdrop of “carbon peaking and carbon neutrality” goals in China, the park-level integrated energy system is a significant approach to meeting the energy consumption demand of users and improving the utilization rate of new energy. To take into account both the interests of integrated energy services (IES) providers and the current power market rules in China, targeting at low-carbon energy consumption, a balancing service mode for integrated energy services providers is created herein based on the idea of balancing multiple interests of regional integrated energy services providers. It aims to break down the market barriers and address the tricky problem that the integrated energy services industry fails to establish a sophisticated industrial system under the original mode. Combining the integrated energy services with the auxiliary market of power balance, the paper analyzes the characteristics of energy flow within the system, and puts forward the optimization scheme of regional integrated energy balancing services under the low-carbon background. The objective is solved by Mayfly algorithm and compared for analysis, and the results show that the optimal daily operating cost is 2632.59 yuan and the daily carbon emission is 3869.90 kg under the typical industrial scenario. The examples provided here show that the optimization plan for integrated energy balancing services can reduce carbon emissions from the park-level integrated energy system and boost the revenue for integrated energy service providers. It provides theoretical support for the green transformation of energy enterprises and promotes the healthy development of the global integrated energy industry.
灵活供需平衡的园区级综合能源系统低碳服务模式研究
在我国提出 "碳调峰、碳中和 "目标的背景下,园区级综合能源系统是满足用户用能需求、提高新能源利用率的重要途径。为了兼顾综合能源服务商的利益和中国现行的电力市场规则,以低碳能源消费为目标,本文基于平衡区域综合能源服务商多方利益的理念,创建了综合能源服务商平衡服务模式。它旨在打破市场壁垒,解决原有模式下综合能源服务产业无法建立成熟产业体系的棘手问题。本文将综合能源服务与电力平衡辅助市场相结合,分析了系统内能源流动的特点,提出了低碳背景下区域综合能源平衡服务的优化方案。采用蜉蝣算法对目标进行求解并对比分析,结果表明,在典型工业场景下,最优日运行成本为2632.59元,日碳排放量为3869.90千克。本文提供的实例表明,综合能源平衡服务优化方案可以减少园区级综合能源系统的碳排放,提高综合能源服务提供商的收益。它为能源企业的绿色转型提供了理论支持,促进了全球综合能源产业的健康发展。
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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