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CO_2/H_2膜分离工艺参数模拟研究 被引量:3

Parametric modeling study of CO_2/H_2 membrane gas separation process
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摘要 介绍了变换气中CO2脱除的方法,认为气体膜分离技术是未来传统脱碳工艺的潜在替代技术。通过采用PROII模拟软件进行模拟,详细描述了变换气脱碳一级膜过程的质量平衡。研究了气源条件如进气CO2摩尔分数、压力,膜材料性质如渗透性、选择性,以及膜面积等因素对膜分离性能如净化气中CO2摩尔分数和H2回收率的影响。结果表明:膜材料本身的性能如渗透性、选择性、膜面积对脱除CO2具有决定性的影响;操作条件中,压比的增大有助于气体净化,然而造成H2回收率下降和额外的能量消耗,适宜的渗透气压力为101 kPa,压比大于10;进气CO2摩尔分数增大不利于CO2的脱除,却可以提高H2的回收率。 The technologies for removing CO: from shift gas are presented, and membrane gas separation technique is considered as the substitute for traditional technologies. Through the simulation by PROII software, the mass balances in a simulated single stage membrane process are described in detail. The effects of source gas conditions such as molar fraction of COz and pressure, membrane properties such as permeability, selectivity and membrane area on the membrane separating performance of molar fraction of CO2 in pu- rified gas and recovery of H2 are studied. The results show that the membrane properties have crucial effects on removing CO2. Increasing pressure ratio is conducive to decrease molar fraction of CO2, but lead to decrease recovery of H2 and increase the energy consumption. The optimum pressure of permeating gas is 101 kPa, pressure ratio is more than 10. Increasing the molar fraction of CO2 in feed gas is bad for removing CO2, but can increase the recovery of H2.
机构地区 南化集团研究院
出处 《化学工业与工程技术》 CAS 2014年第1期25-30,共6页 Journal of Chemical Industry & Engineering
基金 企业博士科技开发项目(编号:HX-KC13F001302)
关键词 气体膜分离 脱碳 变换气 PROII模拟 membrane gas separation CO2 removal shift gas PROII simulation
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参考文献19

  • 1LI L,ZHAO N,WEI W,et al.A review of research progress on CO2 capture,storage,and utilization in Chinese Academy of Sciences[J].Fuel,2013,108:112-130.
  • 2FIGUEROA J D,FOUT T,PLASYNSKI S,et al.Advances in CO2 capture technology-The U.S.Department of Energy's carbon sequestration program[J].International Journal of Greenhouse Gas Control,2008,2(1):9-20.
  • 3PIRES J C M,MARTINS F G,ALVIM-FERRAZ M C M,et al.Recent developments on carbon capture and storage:An overview[J].Chemical Engineering Research and Design,2011,89(9):1446-1460.
  • 4Hongqun Yang,Zhenghe Xu,Maohong Fan,Rajender Gupta,Rachid B Slimane,Alan E Bland,Ian Wright.Progress in carbon dioxide separation and capture: A review[J].Journal of Environmental Sciences,2008,20(1):14-27. 被引量:100
  • 5DRIOLI E,ROMANO M.Progress and new perspectives on integrated membrane operation for sustainable industrial growth[J].Industrial & Engineering Chemistry Research,2001,40(5):1277-1300.
  • 6LIE J A,VASSBOTN T,HhGG M B,et al.Optimization of a membrane process for CO2 capture in the steelmaking industry[J].International Journal of Greenhouse Gas Control,2007,1(3):309-317.
  • 7SHAO L,LOW B T,CHUNG T S,et al.Polymeric membranes for the hydrogen economy:Contemporary approaches and prospects for the future[J].Journal of Membrane Science,2009,327(1/2):18-31.
  • 8RAMASUBRAMANIAN K,ZHAO Y N,WINSTON HO W S.CO2 capture and H2 purification:Prospects for CO2-selective membrane process[J].AIChE Journal,2013,59(4):1033-1045.
  • 9ZOU J,WINSTON HOW S.CO2-selective polymetric membranes containing amines in crosslinked poly (vinyl alcohol)[J].Journal of Membrane Science,2006,286(1/2):310-321.
  • 10QUINN R.,APPLEBY J B,PEZ G P.New facilitated transport membranes for the separation of carbon dioxide from hydrogen and methane[J].Journal of Membrane Science,1995,104(1/2):139-146.

二级参考文献88

  • 1Abanades J C,Rubin E S,Anthony E J,2004.Sorbent Cost and Performance in CO2 Capture Systems.Industrial & Engineering Chemistry Research,43(13):3462-3466.
  • 2Abidi N,Sivadea A,Bourret D,Larbot A,Boutevin B,Guida-Pietrasanta F,Ratsimihety A,2006.Surface modification of mesoporous membranes by fluoro-silane coupling reagent for CO2 Separation.Journal Of Membrane Science,270:101-107.
  • 3Aboudheir A,Tontiwachwuthikul P,Idem R,2006.Rigorous model for predicting the behavior of CO2 absorption into AMP in packed-bed absorption columns.Industrial & Engineering Chemistry Research,45(8):2553-2557.
  • 4Aguilar-Vega M,Paul D R,1993.Gas transport properties of polycarbonates and polysulfones with aromatic substitutions on the bisphenol connector group.Journal of Polymer Science Part B:Polymer Physics,31(11):1599-1610.
  • 5Aguilar-Vega M,Paul D R,1993.Gas transport properties of polyphenylene ethers.Journal of Polymer Science Part B:Polymer Physics.31(11):1577-1589.
  • 6Aitken C L,Koros W J,Paul D R,1992.Effect of structural symmetry on gas transport properties of polysulfones.Macromolecules,25(13):3424-3434.
  • 7Al-Juaied M,Rochelle G T,2006.Absorption of CO2 in aqueous diglycolamine.Industrial & Engineering Chemistry Research,45(8):2473-2482.
  • 8Anson M,Marchese J,Garis E,Ochoa N,Pagliero C,2004.ABS copolymer-activated carbon mixed matrix membranes for CO2/CH4 separation.Journal of Membrane Science,243:19-28.
  • 9Aoki K,Kusakabe K,Morooka S,2000.Separation of gases with an A-type zeolite membrane.Industrial & Engineering Chemistry Research,39:2245-2251.
  • 10Apichatachutapan W,Moore R B,Mauritz K A,1996.Asymmetric nafion/(zirconium oxide) hybrid membranes via in ditu dol-gel vhemistry.Journal of Applied Polymer Science,62(2):417-426.

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