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Separation Science and Technology Volume 52, 2017 - Issue 13
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Membrane

Removal of hydrogen sulfide from methane using PEO-segmented copolymer-based multilayer composite membrane

Hoda GholizadehPolymer Engineering and Color Technology Department, Amir Kabir University, Tehran, IranView further author information
&
A. Aref AzarPolymer Engineering and Color Technology Department, Amir Kabir University, Tehran, Iran;Nano and Smart Polymers Centre of Excellence, Amir Kabir University, Tehran, IranCorrespondence[email protected]
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Pages 2190-2198 | Received 30 Jun 2016, Accepted 21 Apr 2017, Published online: 10 Jul 2017

References

  • Du., N.; Park., H.B.; Dal-Cin., M.M.; Guiver., M.D. (2012) Advances in high permeability polymeric membrane materials for CO2 separations. Energy & Environmental Sciences, 5: 7306–7322.
  • Sanders, D.; Smith, Z.P.; Guo, R.; Robeson, L.M.; McGrath, J.E.; Paul, D.R.; Freeman, B.D. (2013) Energy-efficient polymeric gas separation membranes for a sustainable future: A review. Polymer, 54: 4729–4761.
  • Yampolskii, Y.;. (2012) Polymeric Gas Separation Membranes. Macromolecules, 45: 3298.
  • Merkel, T.C.; Zhou, M.; Baker, R.W. (2012) Carbon dioxide capture with membranes at an IGCC power plant. Journal of Membrane Science, 389: 441–450.
  • Hao, J.; Rice, P.A.; Stern, S.A. (2008) Upgrading low-quality natural gas with H2S- and CO2-selective polymer membranes: Part II. Process design, economics, and sensitivity study of membrane stages with recycle streams. Journal of Membrane Science, 320: 108–122.
  • Baker, R.W.; Lokhandwala, K. (2008) Natural gas processing with membranes: An overview. Industrial Engineering Chemical Researcher, 47: 2109−2121.
  • Wijmans, J.G.; Baker, R.W. (1995) The solution diffusion model: A review. Journal of Membrane Sciences, 107: 1–21.
  • Henis, J.M.S.; Tripodi, M.K. Multicomponent membranes for gas separations. US Patent, 4,230,463, 1980.
  • Peter, J.; Peinemann, K.-V. (2009) Multilayer composite membranes for gas separation based on crosslinked PTMSP gutter layer and partially crosslinked Matrimid® 5218 selective layer. Journal of Membrane Science, 340: 62–72.
  • Lundy, K.A.; Cabasso, I. (1989) Analysis and construction of multilayer composite membranes for the separation of gas mixtures. Industrial Engineering Chemical Researcher, 28: 742–756.
  • Chung, T.S.; Kafchinski, E.R.; Kohn, R.S.; Foley, P.; Straff, R.S. (1994) Fabrication of composite hollow fibers for air separation. Journal of Applied Polymer Science, 53: 701–709.
  • Baker, R.W.; Low, B.T. (2014) Gas separation membrane materials: A perspective. Macromolecules, 47: 6999–7013.
  • Stern, S.A.; Bhide, B. (1989) Permeability of silicone polymers to ammonia and hydrogen sulfide. Journal of Applied Polymer Science, 38: 2131.
  • Chatterjee, G.; Houde, A.A.; Stern, S.A. (1997) Poly (ether urethane) and poly(ether urethane urea) membrane with high H2S/CH4 selectivity. Journal Membrane Sciences, 135: 99.
  • Grabczyk, A.W. (2006) Effect of the hard segment domains on the permeation and separation ability of the polyurethane-based membranes in benzene/cyclohexane separation by pervaporation. Journal of Membrane Sciences, 282: 225.
  • Queiroz, D.P.; Norberta De Pinho, M. (2005) Structural characteristics and gas permeation properties of polydimethylsiloxane/poly(propylene oxide) urethane/urea bi-soft segment membranes. Polymer, 46: 2346.
  • Lin. Liub, S.; Shaoa, L.; Chuab, M.L. (2013) Recent progress in the design of advanced PEO-containing membranes for CO2 removal. Progress in Polymer Sciences, 38: 1089.
  • Lin, H.; Freeman, B.D. (2004) Gas solubility, diffusivity and permeability in poly(ethylene oxide). Journal of Membrane Sciences, 239: 105.
  • Reijerkerk, S.R.; Ijzer, A.C.; Nijmeijer, K. (2010) Subambient temperature CO2 and light gas permeation through segmented block copolymers with tailored soft phase. Applied Materials & Interfaces, 2: 551.
  • Amani, M.; Amjad-Iranagh, S.; Modarress, H. (2014) Study of nanostructure characterizations and gas separation properties of poly(urethane–urea)s membranes by molecular dynamics simulation. Journal of Membrane Sciences, 462: 28.
  • UOP. (1985) Hydrogen sulfide in gases by Tutwiler method (UOP Method), 9–85.
  • Sadeghi, M.; Semsarzadeh, M.A.; Barikani, M. (2010) The effect of urethane and urea content on the gas permeation properties of poly(urethane-urea) membranes. Journal of Memory Sciences, 354: 40.
  • Li, H.; Freeman, B.D.; Ekiner, O.M. (2011) Gas permeation properties of poly(urethane-urea)s containing different polyethers. Journal Membrane Sciences, 369: 49.
  • Yang, J.H.; Chun, B.C.; Chung, Y.C.; Cho, J.H. (2003) Comparison of thermal/mechanical properties and shape memory effect of polyurethane block-copolymers with planar or bent shape of hard segment. Polymer, 44: 3251.
  • Santerre, J.P.; Brash, J.L. (1994) Microstructure of polyurethane ionomers derivatized with dodecylamine and polyethylene oxide in the hard segment. Journal of Applications Polymer Sciences, 52: 515.
  • Yoshino, M.; Ito, K.; Kita, H. (2000) Effects of hard-segment polymers on CO2/N2 gas-separation properties of poly(ethylene oxide)-segmented copolymers. Journal of Polymer Science B: Polymer Physical, 38: 1707.
  • Esfahani, A.P.; Ghalaei, B. (2016) Polyurethane gas separation membranes with ethereal bonds in the hard segments. Journal Membrane Sciences, 513: 58.
  • Grabczyk, A.W.; Jankowski, A. (2007) Gas transport properties of segmented polyurethanes varying in the kind of soft segments. Separation and Purification Technology, 57: 413.
  • Ghosal, K.; Freeman, B.D. (1994) Gas separation using polymer membranes: An overview. Polymer Advancement Technology, 5: 673.
  • Lin, H.Q.; VanWagner, E.; Freeman, B.D. (2006) Transport and structural characteristics of crosslinkedpoly(ethylene oxide) rubbers. Journal of Membrane Sciences, 276: 145.
  • Wu, F.; Lei, L.; Zhihong, X. (2006) Transport study of pure and mixed gases through PDMS membrane. Chemical Engineering Journal, 117: 51–59.
  • Saeidi, M.; Moghadam, M.T.; Mahdyarfar, M.; Mohammadi, T. (2009) Gas permeation properties of Seragel membrane, Asia-Pac. Journal of Chemical Engineering, doi: 10.1002/apj.
  • De Sales, J.A.; Machado, J.C.; Windmoller, D. (2008) Systematic investigation of the effects of temperature and pressure on gas transport through polyurethane/poly(methylmethacrylate) phase-separated blends. Journal of Membrane Sciences, 310: 129.
  • Talakesh, M.M.; Sadeghi, M.; Chenar, M.P. (2008) Gas separation properties of poly(ethylene glycol)/poly(tetramethylene glycol) based polyurethane membranes. Journal of Membrane Sciences, 415: 469.
  • Mohammadi, T.; Moghadam, M.T.; Saeidi, M.; Mahdyarfar, M. (2008) Acid gas permeation behavior through poly(ester urethane urea) membrane. Industrial Engineering Chemical Researcher, 47: 7361.
  • Villaluenga, J.P.G.; Tabe-Mohammadi, A. (2003) Effects of pressure ratio and pressure difference on the gas permeation properties of rubbery and glassy membranes. Journal of Polymer Engineering, 23 (3), 209–223.
  • Bos, A.; Pue`Nt, I.G.M.; Wessling, M.; Strathmann, H. (1999) CO2-induced plasticization phenomena in glassy polymers. Journal Membrane Sciences, 155: 67–78.
  • Wilks, B.; Rezac, M.E. (2002) Properties of rubbery polymers for the recovery of hydrogen sulfide from gasification gases. Journal of Applications Polymer Sciences, 85: 2436–2444.
  • Semsarzadeh, M.A.; Sadeghi, M.; Barikani, M. (2008) The effect of chain extender length on the gas permeation properties of polyurethanes. Iranian Polymer Journal, 17: 431.

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