基于需求侧博弈的区域综合能源服务商最优运营策略

李 娜; 王 维; 杨家辉; 刘 怀; 王 琦

引用本文:	李娜,王维,杨家辉,等.基于需求侧博弈的区域综合能源服务商最优运营策略[J].电力系统保护与控制,2023,51(2):112-120.[点击复制]
	LI Na,WANG Wei,YANG Jiahui,et al.Optimal operation strategy of regional comprehensive energy serviceproviders based on a demand-side game[J].Power System Protection and Control,2023,51(2):112-120[点击复制]

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基于需求侧博弈的区域综合能源服务商最优运营策略
李娜,王维,杨家辉,刘怀,王琦
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(南京师范大学电气与自动化工程学院，江苏南京 210046)

摘要:

为了提高综合能源服务商运营服务的高效性、清洁性和经济性，提出了一种基于需求侧博弈的综合能源服务商最优运营策略。通过对综合能源服务商模型的分析，以用户能源消耗量确定系统碳排放量，建立了区域综合能源服务商碳排放模型，确定了园区的碳排放量。在此基础上，考虑了用户对用能成本波动的可承受能力和服务商应对用户用能变化的风险成本，分别以综合能源服务商全天利润最大、用户用能成本最小为目标函数，建立了综合能源服务商-多用户博弈优化模型。采用迭代搜索法得到纳什均衡解，从而确定服务商最优运营策略。最后以典型工业园区为例对所提策略进行仿真验证。结果表明，所研究的服务商运营策略有效降低了系统碳排放量，提高了综合能源服务商的经济效益和用户满意度。

关键词: 综合能源服务商碳排放模型风险成本用户可承受度需求侧博弈

DOI：10.19783/j.cnki.pspc.220498

投稿时间：2022-04-09修订日期：2022-06-10

基金项目:江苏省自然科学基金项目资助(BK20190710)；江苏省研究生科研与实践创新计划项目资助(SJCX22_0574)

Optimal operation strategy of regional comprehensive energy serviceproviders based on a demand-side game

LI Na,WANG Wei,YANG Jiahui,LIU Huai,WANG Qi

(College of Electrical and Automation Engineering, Nanjing Normal University, Nanjing 210046, China)

Abstract:

To improve the efficiency, cleanliness and economy of integrated energy service providers, an optimal operation strategy of integrated energy service providers based on a demand side game is proposed. Through the analysis of an integrated energy service provider model, the system carbon emission is determined by the user's energy consumption, and the carbon emission model is established to determine the park carbon emission. Considering the user's ability to bear the fluctuation of energy consumption cost and the service provider's risk cost to cope with the change of energy consumption, a comprehensive energy service provider-multi-user game optimization model is established. This is achieved by taking the maximum profit of the integrated energy service provider and the minimum energy cost of users as the objective function. Through an iterative search method, the Nash equilibrium solution is obtained, and then the optimal operation strategy of the service provider is obtained. Finally, a typical industrial park is taken as an example to verify the proposed strategy. The results show that the proposed strategy can effectively reduce the carbon emissions of the system, and improve the economic benefits and user satisfaction of the integrated energy service providers. This work is supported by the Natural Science Foundation of Jiangsu Province (No. BK20190710).

Key words: integrated energy service provider carbon emission model risk cost affordability of users demand-side game

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