《电力自动化设备》

引用本文:	张鹏飞,王顺超,张志勇,何肇,黎岚,曹阳,李星运,张宁.燃气内燃机耦合煤电机组发电参与电能量-调频市场的联合优化方法[J].电力自动化设备,2025,45(5):10-18.
	ZHANG Pengfei,WANG Shunchao,ZHANG Zhiyong,HE Zhao,LI Lan,CAO Yang,LI Xingyun,ZHANG Ning.Joint optimization method of gas-fired internal combustion engine coupled with coal-fired power unit participating in electric energy and frequency regulation markets[J].Electric Power Automation Equipment,2025,45(5):10-18.

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燃气内燃机耦合煤电机组发电参与电能量-调频市场的联合优化方法
张鹏飞¹, 王顺超¹, 张志勇², 何肇¹, 黎岚¹, 曹阳¹, 李星运³, 张宁⁴
1.电力规划设计总院，北京 100120;2.华能太仓发电有限责任公司，江苏太仓 215400;3.龙源电力集团股份有限公司，北京 100034;4.清华大学电机系，北京 100084

摘要:

为满足高比例可再生能源电力系统的灵活性需求，提升发电侧在电力现货市场的参与度并获得高收益，提出利用燃气内燃机耦合煤电机组发电的方案，并通过耦合机组在电能量-调频服务市场的联合优化运行最大化市场收益。研究了耦合发电方案及耦合效果，基于高维分区线性化方法建立了余热耦合功率模型；通过概率分布描述调频信号的不确定性，给出基于概率分布的调频辅助服务收益模型；以收益最大化为目标，构建耦合机组参与电能量-调频市场联合优化运行的混合整数线性模型并给出求解方法。算例分析表明，耦合方案能够在提升发电侧灵活性的同时保证高能效，同时，通过联合优化运行可使耦合机组合理跟踪电力市场价格波动，在电能量-调频服务市场中获得最大收益。

关键词: 电力系统灵活性燃气内燃机耦合发电电能量市场调频市场联合优化

DOI：10.16081/j.epae.202501009

分类号:TM73

基金项目:中国博士后科学基金资助项目(2022M710599)；华能集团科技项目(HNKJJ22-HF17)

Joint optimization method of gas-fired internal combustion engine coupled with coal-fired power unit participating in electric energy and frequency regulation markets

ZHANG Pengfei¹, WANG Shunchao¹, ZHANG Zhiyong², HE Zhao¹, LI Lan¹, CAO Yang¹, LI Xingyun³, ZHANG Ning⁴

1.Electric Power Planning & Engineering Institute, Beijing 100120, China;2.Huaneng Taicang Power Plant Co.,Ltd.,Taicang 215400, China;3.China Longyuan Power Group Corporation Limited, Beijing 100034, China;4.Department of Electrical Engineering, Tsinghua University, Beijing 100084, China

Abstract:

In order to meet the flexibility demand of the power system with a high proportion of renewable energy, and enhance the participation and revenue of the generation side in the spot market, it is proposed to couple gas-fired internal combustion engine(ICE) with coal-fired unit to generate power, and maximize market revenue through the joint optimization operation of coupled units in the electric energy and frequency regulation markets. The coupling power generation scheme and coupling effect are analyzed, and a power coupling model of exhaust heat is established based on the multi-dimensional piecewise linearization method. The uncertainty of frequency regulation signal is described using probability distribution, and a probabilistic model for frequency regulation auxiliary service is proposed. With the goal of maximizing revenue, a mixed-integer linear model is constructed for the coupled units to participate in the joint optimal operation of electric energy and frequency regulation markets. A corresponding solution method is proposed. Case studies demonstrate that the coupling scheme can improve the flexibility of the generation side while ensuring high energy efficiency. In addition, through joint optimization, the coupled units can effectively track electricity price fluctuation and get the maximum revenue in the electric energy and frequency regulation markets.

Key words: power system flexibility gas-fired internal combustion engine coupling generation electric energy market frequency regulation market joint optimization

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