现代电子技术2025,Vol.48Issue(18):125-133,9.DOI:10.16652/j.issn.1004-373x.2025.18.020
计及氢-氨高效利用和碳捕集-MR-CHP联合运行的综合能源系统优化调度
IES optimized scheduling considering efficient utilization of hydrogen-ammonia and joint operation of carbon capture-MR-CHP
摘要
Abstract
In allusion to the problems of difficulty in new energy consumption and poor flexibility when the new energy with high proportion is connected to the integrated energy system(IES),an IES optimal scheduling strategy is proposed by combining the efficient utilization of hydrogen-ammonia and the joint operation of carbon capture-MR-CHP.Considering the ability to promote the absorption of new energy,the efficient utilization models of hydrogen energy including wind power hydrogen production,gas hydrogen blending,hydrogen to thermal power,etc.are established in sequence,as well as the efficient utilization models of ammonia energy for ammonia production equipment and ammonia blending combustion in thermal power plants.The flexibility of carbon capture power plant(CCPP)and combined heat and power(CHP)units was improved by introducing liquid storage tank,Kalina cycle and electric boiler respectively,and a carbon capture-MR-CHP integrated operation structure was established by taking methane reactor(MR)as a bridge.In order to ensure the low carbon and economic efficiency of the system,the single-objective function that minimizes the sum of each cost is established to solve the IES optimal scheduling model.According to the example results,the proposed model can significantly promote the absorption of clean energy and realize the low-carbon,economic,efficient and flexible operation of the IES.关键词
氢-氨高效利用/碳捕集-MR-CHP/综合能源系统/优化调度策略/新能源消纳/Kalina循环/碳捕集电厂Key words
efficient utilization of hydrogen-ammonia/carbon capture-MR-CHP/integrated energy system/optimized scheduling strategy/new energy consumption/Kalina cycle/carbon capture power plant分类
信息技术与安全科学引用本文复制引用
赵国,饶章展鹏,田爱娜,邹杰丞,廖新宇,任祁源..计及氢-氨高效利用和碳捕集-MR-CHP联合运行的综合能源系统优化调度[J].现代电子技术,2025,48(18):125-133,9.基金项目
国家自然科学基金项目(52207233) (52207233)
