期刊文献+

一种煤基多联产碳循环系统的设计及评价

Design and evaluation of a coal-based polygeneration system with carbon cycle
下载PDF
导出
摘要 将高密度三塔式循环流化床(TBCFB)应用于串并联综合型多联产系统,提出一种基于碳循环的流程与参数共优化的煤基多联产系统,促进低阶煤资源的高质高效转化。碳循环体现在两方面,一是系统以热解煤气循环作为热解气氛,提高了焦油产率,实现低阶煤高质化转化;二是在TBCFB使用富氧燃烧,提高了烟气中二氧化碳浓度,将烟气替代氮气直接用于燃气轮机发电工质,减少了氮气消耗。利用Aspen Plus对全系统进行模拟,对多联产系统进行物料、能量和㶲衡算,研究未反应合成气循环比和烟气注入量对过程的影响;以能量利用效率为优化目标,对煤基多联产碳循环系统的操作条件寻优。结果表明,动力单元注入气体使用烟气时,煤基多联产碳循环系统的能量利用效率达49.7%,高于用氮气作为热解气氛的传统煤基多联产系统,相比传统的单产系统,煤基多联产系统的能量可节约13%,对于年处理30万吨煤的系统,折合减少二氧化碳排放量为14.9万吨/年。 By applying the high-density triple bed circulating fluidized bed(TBCFB)to a series-parallel integrated polygeneration system,a coal-based polygeneration system based on carbon cycle process and parameters co-optimization is proposed,which can promote the high-quality and high-efficiency conversion of low-rank coal resources.The carbon cycle is embodied in two aspects.First,this system uses a pyrolysis gas cycle as the pyrolysis atmosphere,which can increase the tar yield and realize the high-quality conversion of low-rank coal.The second is the use of oxygen-enriched combustion in TBCFB,which can increase the concentration of carbon dioxide in the flue gas.While,using the flue gas instead of nitrogen directly as a working fluid for gas turbine power generation also reduces nitrogen consumption.The Aspen Plus is used here to investigate the influence of unreacted syngas circulation ratio and flue gas injection rate on the process via performing material,energy and exergy balance calculations for polygeneration systems.In addition,with energy efficiency as the optimization goal,suitable operating conditions are further found for the coal-based polygeneration system with carbon cycle.The results show that when the flue gas is used for gas injection in the power unit,the energy utilization efficiency of the coal-based polygeneration system with carbon cycle reaches 49.7%,which is higher than that of the traditional system using nitrogen as the pyrolysis atmosphere.Compared with the traditional unit production system,the coal-based polygeneration system can save 13%of energy,which is equivalent to reducing carbon dioxide emissions by 14.9×104 tons per year for a system with an annual capacity of 30×104 tons of coal.
作者 侯起旺 文兆伦 张忠林 刘叶刚 杨景轩 陈东良 郝晓刚 官国清 HOU Qiwang;WEN Zhaolun;ZHANG Zhonglin;LIU Yegang;YANG Jingxuan;CHEN Dongliang;HAO Xiaogang;GUAN Guoqing(College of Chemistry and Chemical Engineering,Taiyuan University of Technology,Taiyuan 030024,Shanxi,China;Shanghai Electric Guokong Global Engineering Corporation,Taiyuan 030001,Shanxi,China;Institute of Regional Innovation,Hirosaki University,Aomori 030-0813,Japan)
出处 《化工学报》 EI CAS CSCD 北大核心 2022年第5期2073-2082,共10页 CIESC Journal
基金 国家自然科学基金项目(U1710101)。
关键词 碳循环 煤基多联产 能量分析 计算机模拟 集成 优化设计 carbon cycle coal-based polygeneration system energy analysis computer simulation integration optimization design
  • 相关文献

参考文献12

二级参考文献125

共引文献75

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部