含光热MRH和燃气掺氢的综合能源系统优化运行

doi:10.16088/j.issn.1001-6600.2023042407

Abstract

Abstract: In the context of promoting the low carbon transition of Integrated Energy Systems (IES), a model is proposed in which Photothermal Methane Reforming to Hydrogen (PMRH) and Gas Doping with Liquid Carbon Capture Storage (LCCS) operate together. The optimal scheduling model of the system is proposed. A model of the PMRH plant and the electrolyser is developed first, followed by a model of the hydrogen-doped gas units and the carbon capture plant to address the carbon emission issue. Based on this, the IES low carbon optimization model is constructed with the objective of minimizing economic and environmental costs, taking into account constraints such as power and hydrogen doping ratios. The analysis of different scenarios of the constructed model shows that the total cost of the system is reduced by 27.9% and the carbon emissions are reduced by 28.2%, which verifies the advantages of the proposed model in terms of economy and low carbon.

Key words: integrated energy system, methane reforming to hydrogen, hydrogen doping, CCS, carbon tax

CLC Number: TM73;TK01

NI Zhi, WEN Zhong, WANG Can, ZHANG Yewei, YANG Shengpeng, WANG Zhenyu. Optimal Operation of Integrated Energy System with Photothermal MRH and Gas Doping[J].Journal of Guangxi Normal University(Natural Science Edition), 2024, 42(1): 54-66.

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Optimal Operation of Integrated Energy System with Photothermal MRH and Gas Doping

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