Design Optimization of Boiler Tail Flue in Supercritical Carbon Dioxide Power Generation System  

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作  者:Wenli YE Jinliang XU Guanglin LIU 

机构地区:[1]Beijing Key Laboratory of Multiphase Flow and Heat Transfer for Low Grade Energy Utilization,North China Electric Power University,Beijing,China [2]Key Laboratory of Power Station Energy Transfer Conversion and System,North China Electric Power University,Ministry of Education,Beijing,China

出  处:《Mechanical Engineering Science》2021年第2期9-16,共8页机械工程(英文)

基  金:This work is supported by Beijing Nova Program(Z211100002121158).The authors are most grateful to Ms.Chao Liu at the North China Electric Power University for her help and advice during the preparation of this paper.

摘  要:The S-CO_(2) top-bottom combined cycle based on overlap energy utilization can lead to excessive heating area,due to the small temperature difference and the large thermal load for the heating surface at the tail of the boiler.Therefore,reasonable optimization indexes are needed for design optimization.Common optimization indexes include heating area and working medium pressure drop,but lower working medium pressure drop usually leads to large heating area,for example,with the increase of tube inner diameter or boiler width,the pressure drop decreases but the heating area increases.Thus,if both are used as optimization indexes,it will be difficult to choose the optimum tube inner diameter and boiler width.In this paper,exergy loss analysis is used,in combination with economic analysis,the optimization index is unified to the cost per unit heat transfer of the heating surface.The thermal calculation and pressure drop calculation models are established for the heating surface at the tail of the boiler.The optimized heating surface can greatly improve the economic benefit.

关 键 词:S-CO_(2)cycle calculation model exergy loss analysis optimization of the boiler 

分 类 号:TG1[金属学及工艺—金属学]

 

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