《电力自动化设备》

引用本文:	崔杨,邓贵波,王铮,王茂春,赵钰婷.计及碳交易的光热电站与风电系统低碳经济调度策略[J].电力自动化设备,2021,41(9):
	CUI Yang,DENG Guibo,WANG Zheng,WANG Maochun,ZHAO Yuting.Low-carbon economic scheduling strategy for power system with concentrated solar power plant and wind power considering carbon trading[J].Electric Power Automation Equipment,2021,41(9):

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计及碳交易的光热电站与风电系统低碳经济调度策略
崔杨¹, 邓贵波¹, 王铮², 王茂春³, 赵钰婷¹
1.东北电力大学现代电力系统仿真控制与绿色电能新技术教育部重点实验室，吉林吉林 132012;2.国网甘肃省电力公司调度控制中心，甘肃兰州 730030;3.国网青海省电力公司调度控制中心，青海西宁 810008

摘要:

为保证系统在低碳环保的前提下兼顾风电消纳与经济运行，提出一种考虑碳交易机制的光热电站与风电系统低碳经济调度策略。从低碳技术与低碳政策2个角度出发，将低碳手段与市场机制相结合，搭建考虑碳交易的光热电站与风电系统运行框架，并分析其运行机理；以火电出力承担基荷，建立以综合成本最低为目标的低碳经济调度模型，统筹系统低碳性与经济性；采用西北电网实测数据并在改进的IEEE 30节点系统中进行仿真验证，仿真结果验证了所提策略可有效降低碳排量，提高风电消纳率并降低系统的综合成本。

关键词: 低碳风电消纳旋转备用碳交易机制光热发电

DOI：10.16081/j.epae.202107011

分类号:TM73

基金项目:国家自然科学基金资助项目(51777027)

Low-carbon economic scheduling strategy for power system with concentrated solar power plant and wind power considering carbon trading

CUI Yang¹, DENG Guibo¹, WANG Zheng², WANG Maochun³, ZHAO Yuting¹

1.Key Laboratory of Modern Power System Simulation and Control & Renewable Energy Technology, Ministry of Education, Northeast Electric Power University, Jilin 132012, China;2.Dispatching and Control Center, State Grid Gansu Electric Power Company, Lanzhou 730030, China;3.Dispatching and Control Center, State Grid Qinghai Electric Power Company, Xining 810008, China

Abstract:

To ensure that the low-carbon operation of power system can take the wind power accommodation and economic operation into account, a low-carbon economic scheduling strategy for power system with concentrated solar power plant and wind power considering carbon trading is proposed. From the perspectives of low-carbon technology and low-carbon policy, combined the low-carbon technology with market trading mechanism, the operation framework of power system with concentrated solar power plant and wind power that considers carbon trading mechanism is developed, and its operation mechanism is analyzed in detail. The base load is supplied by thermal power units, and a low-carbon scheduling model that minimizes the total operating cost is established to balance the low-carbon objective and the economic performance. The practical data of Northwest Power Grid of China is applied in the modified IEEE 30-bus system, and simulative results show that the proposed strategy effectively reduces carbon emissions and improves the wind power accommodation rate. In addition, the comprehensive operating cost of power system is reduced.

Key words: low-carbon wind power accommodation spinning reserve carbon trading mechanism concentrated solar power

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