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Article Navigation >  Green Energy&Environment  > 2016  >  1(3): 201-210
Luca Olivieri, Alberto Tena, Maria Grazia De Angelis, Antonio Hernández Giménez, Angel E. Lozano, Giulio Cesare Sarti. The effect of humidity on the CO2/N2 separation performance of copolymers based on hard polyimide segments and soft polyether chains: Experimental and modeling. Green Energy&Environment, 2016, 1(3): 201-210. doi: 10.1016/j.gee.2016.09.002
Citation: Luca Olivieri, Alberto Tena, Maria Grazia De Angelis, Antonio Hernández Giménez, Angel E. Lozano, Giulio Cesare Sarti. The effect of humidity on the CO2/N2 separation performance of copolymers based on hard polyimide segments and soft polyether chains: Experimental and modeling. Green Energy&Environment, 2016, 1(3): 201-210. doi: 10.1016/j.gee.2016.09.002
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The effect of humidity on the CO2/N2 separation performance of copolymers based on hard polyimide segments and soft polyether chains: Experimental and modeling

doi: 10.1016/j.gee.2016.09.002
  • a.

    Dipartimento di Ingegneria Civile Chimica Ambientale e dei Materiali, Alma Mater Studiorum-Università di Bologna, Via Terracini 28, Bologna, Italy

  • b.

    SMAP UA UVA-CSIC, Universidad de Valladolid, Facultad de Ciencias, Real de Burgos s/n, 47071 Valladolid, Spain

  • c.

    Instituto de Ciencia y Tecnología de Polímeros, CSIC, Juan de la Cierva 3, 28006 Madrid, Spain

More Information
  • Corresponding author: E-mail address: grazia.deangelis@unibo.it (Maria Grazia De Angelis)
  • Received date 26 July 2016, Accepted date 18 September 2016, RevRecd date 14 September 2016, Available online 30 September 2016, Publish date 31 October 2016,
    Abstract
  • In this work, we studied two copolymers formed by segments of a rubbery polyether (PPO or PEO) and of a glassy polyimide (BPDA-ODA or BKDA-ODA) suitable for gas separation and CO2 capture. Firstly, we assessed the absorption of water vapor in the materials, as a function of relative humidity (R.H.), finding that the humidity uptake of the copolymers lies between that of the corresponding pure homopolymers values. Furthermore, we studied the effect of humidity on CO2 and N2 permeability, as well as on CO2/N2 selectivity, up to R.H. of 75%. The permeability decreases with increasing humidity, while the ideal selectivity remains approximately constant in the entire range of water activity investigated. The humidity-induced decrease of permeability in the copolymers is much smaller than the one observed in polyimides such as Matrimid® confirming the positive effect of the polyether phase on the membrane performance. Finally, we modeled the humidity-induced decrease of gas solubility, diffusivity and, consequently, permeability, using a suitable approach that considers the free volume theory for diffusion and LF model for solubility. Such model allows estimating the extent of competition that the gases undergo with water during sorption in the membranes, as a function of the relative humidity, as well as the expected reduction of free volume by means of water molecules occupation and consequent reduction of diffusivity.

     

    • Present address: Helmholtz-Zentrum Geesthacht, Institute of Polymer Research, Max-Planck-Str.1, 21502 Geesthacht, Germany.
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