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真空变压吸附氢气纯化的参数研究 被引量:5

Parameter Study on Pressure Swing Adsorption Cycles for Hydrogen Purification
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摘要 本文首先建立了多孔介质传热传质与吸附模型,模拟了多组分气(N2:CO:CO2:CH4:H2=0.007:0.012:0.23:0.021:0.73和N2:CO:CO2:CH4:H2=0.007:0.012:0.17:0.021:0.79)在AC5-KS活性炭吸附床中的穿透曲线和真空变压吸附循环。将实验数据与模拟值进行对比验证后,分析了压力、进气流率对穿透曲线的影响,并研究了压力、进气流率、循环步数、循环操作时间条件对真空变压吸附氢气纯化的影响。结果发现,增大吸附压力,减小进气流率,减少循环步数和吸附时间,增加冲洗和升压时间都会导致产品氢气纯度上升,氢气产率和回收率下降,并且在一般情况下氢气的纯度变化趋势与氢气产率和回收率变化趋势相反。 The heat and mass transfer model with porous media adsorption is established,the breakthrough curve and the vacuum pressure swing adsorption cycle for the multicomponent gas(N2:CO:C02:CH4:H2=0.007:0.012:0.23:0.021:0.73 and N2:CO:CO2:CH4:H2=0.007:0.012:0.17:0.021:0.79)in activated carbon AC5-KS adsorption bed are simulated.After comparing the experimental data with the simulated values,the effects of pressure,feed flow rate on breakthrough curves are analyzed.Then the effects of pressure,feed flow rate,number of cycles,and cycle operating time on vacuum pressure swing adsorption for hydrogen purification are analyzed.The results show that increasing adsorption pressure,reducing feed flow rate,decreasing the number of cycle steps and adsorption time,increasing purging and pressing time will lead to the raise of hydrogen purity,and decline of the productivity and the recovery.Besides,in the general,the trend of hydrogen purity is opposite to that of the hydrogen productivity and hydrogen recovery.
作者 陶薇 肖金生 赵抒豪 皮埃尔·贝纳德 理查德·夏因 TAO Wei;XIAO Jin-Sheng;ZHAO Shu-Hao;BENARD PierreCHAHINE Richard(Hubei Key Laboratory of Advanced Technology for Automotive Components and Hubei Collaborative Innovation Center for Automotive Components Technology,School of Automotive Engineering,Wuhan University of Technology,Hubei 430070,China;Hydrogen Research Institute,Universite du Quebec a Trois-Rivieres,QC G9A 5H7,Canada)
机构地区 武汉理工大学汽车工程学院湖北省现代汽车零部件技术重点实验室湖北省汽车零部件技术协同创新中心 加拿大三河城魁北克大学氢能研究所
出处 《工程热物理学报》 EI CAS CSCD 北大核心 2020年第2期487-497,共11页 Journal of Engineering Thermophysics
基金 国家自然科学基金资助项目(No.51476120)
关键词 氢气纯化 变压吸附 循环 传热传质 热效应 hydrogen purification pressure swing adsorption cycle heat and mass transfer thermal effect
分类号 TK91 [动力工程及工程热物理]
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  • 10彭育志,明越,肖金生,BNARD Pierre,CHAHINE Richard.活性炭/沸石层状床氢气纯化穿透曲线热效应[J].工程热物理学报,2016,37(7):1511-1518. 被引量:6

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工程热物理学报
2020年 第2期

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