火电设备管理与碳排放控制的最佳实践研究  

Best Practice Research on Thermal Power Equipment Management and Carbon Emission Control

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作  者:陆耀飞 LU Yaofei(Sanxia Material Tendering Management Co.,Ltd.,Chengdu 610000,Sichuan,China)

机构地区:[1]三峡物资招标管理有限公司,四川成都610000

出  处:《能源与节能》2024年第5期43-46,共4页Energy and Energy Conservation

摘  要:探讨了火电设备管理与碳排放控制的最佳实践,特别是火力发电CCUS(Carbon Capture,Utilization and Storage,碳捕集、利用与封存)技术改造的经济可行性。研究提出问题:如何在控制碳排放的同时保持火电行业的经济效益?通过分析数据,发现CCUS技术改造可能会显著增加电价。因此,研究分析了CO_(2)转化为甲醇的路径,以提高CCUS项目的经济效益。结果显示,此路径的总成本为846.04元/t CO_(2),潜在收益可达2661.73元/t CO_(2)。结合政府补助,2030年的改造方案经济效益最显著。研究为火电行业提供了控制碳排放的经济可行方案,助力实现脱碳目标。This paper explored the best practices for thermal power equipment management and carbon emission control,especially the economic feasibility of CCUS(Carbon Capture,Utilization and Storage)technology transformation in thermal power generation.Research raised the question:How to maintain the economic benefits of the thermal power industry while controlling carbon emissions?By analyzing the data,it was found that CCUS technology upgrades may significantly increase electricity prices.Therefore,it analyzed the pathway of CO_(2) conversion to methanol to improve the economic benefits of CCUS project.The results show that the total cost of this path is 846.04 yuan/t CO_(2),and the potential benefits can reach 2661.73 yuan/t CO_(2).Combined with government subsidies,the economic benefits of the renovation plan in 2030 are the most significant.The study provides economically feasible solutions for controlling carbon emissions in the thermal power industry,helping to achieve decarbonization goals.

关 键 词:火电设备 碳排放 碳中和 CCUS 

分 类 号:TM621[电气工程—电力系统及自动化] TK227.1[动力工程及工程热物理—动力机械及工程]

 

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