Institute of Engineering Thermophysics,Chinese Academy of Sciences;
[Objective]The energy storage policy system is relatively complex and a scientific and comprehensiveevaluation is an effective means to promote the development of the energy storage industry. [Methods]This paper usesthe entropy weight and Topsis method along with the analytic hierarchy process to conduct comprehensive evaluations ofenergy storage policies under various provinces and reflect the level of promotion of energy storage projects by policies.Firstly, considering the effectiveness of policy implementation and combined with the actual application scenarios of energystorage power plants, a comprehensive evaluation system of seven indicators covering economic, technical andenvironmental indicators has been established. Then, the representative policies from Qinghai, Zhejiang, Inner Mongolia,and Henan provinces are selecting and the results of multi-index scenario analysis based on policy content has beenevaluated with entropy weight and Topsis method. Besides, the Analytic Hierarchy Process is used to comprehensivelyevaluate energy storage policies under thinking of different focuses of multiple objectives. [Results]The results indicatethat the entropy weight and Topsis method has the optimal energy storage policy in Zhejiang Province, reflecting therelative maximization of operational efficiency of energy storage power stations under the policy support of ZhejiangProvince. Under the subjective intentions of considering economic, technical, and environmental goals separately, theenergy storage policies in Zhejiang, Henan, and Zhejiang are the most optimal which reflects the level of support fordifferent goals in the three provinces, [Conclusion] indicating the demand to establish a priority order for subjectiveevaluation of policies.
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Basic Information:
DOI:10.19944/j.eptep.1674-8069.2025.02.006
China Classification Code:TK02;TM615;F426.61
Citation Information:
[1]沈昊天,张华良,徐玉杰等.基于多元目标的储能政策综合评估[J].电力科技与环保,2025,41(02):229-239.DOI:10.19944/j.eptep.1674-8069.2025.02.006.
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江苏省碳达峰碳中和科技创新专项重大创新载体建设项目(BM2022001); 中国科学院国际合作局对外合作重点项目资助(117GJHZ2023009MI); 南京市新型研发机构联合技术攻关项目(202304008)