RT Journal Article
T1 Mixed gas separation study for the hydrogen recovery from H2/CO/N2/CO2 post combustion mixtures using a Matrimid membrane
A1 David, Oana Cristina
A1 Gorri, Daniel
A1 Urtiaga, Ana
A1 Ortiz, Inmaculada
AB In this work, the membrane separation of hydrogen from binary, ternary and quaternary mixtures of H2, N2, CO and CO2 is presented. Hydrogen permeability through a polyimide Matrimid 5218 membrane was experimentally obtained using the constant pressure technique. The influence of the feed gas composition, temperature (30-100°C), pressure range (up to 6bar), and flow rates was experimentally analyzed. As expected, the pure gas permeability of H2 was only slightly dependant on pressure and had an average value of 17.7×10-14m3(STP)mm-2s-1kPa-1 at 30°C. Hydrogen permeability was not affected by the presence of nitrogen and carbon monoxide, and as a result the mixed gas selectivities for the H2/N2/CO mixtures are very close to the selectivities calculated from pure gas permeation data. On the contrary, a strong dependency of the hydrogen permeability on CO2 concentration was observed even at low concentrations of CO2. A reduction of 42% of the hydrogen permeability coefficient was obtained when a mixture of 10/90vol.% H2/CO2 was used as feed gas. Accordingly H2/CO2 selectivity decayed from a value of 4.2 calculated from pure gas permeabilities to 2.7 when permeation data were obtained in mixed gas experiments. The preferential sorption of CO2 on the Langmuir sites of the excess free volume portion of the polymer allowed explaining and quantifying this phenomenon. The " dual-mode sorption, partial immobilization" model was used to describe H2 and CO2 permeation behavior of pure, binary, ternary and quaternary mixtures. The model sorption parameters for N2 and CO2 in the polymer Matrimid 5218 were obtained from the literature meanwhile those for H2 and for CO were unknown and resulted from the fitting of the experimental data to the proposed model. Satisfactory agreement between predicted permeability results and experimental data with a correlation coefficient (R) higher than 0.95 and mean squared relative error (MSRE) lower than 0.01 was attained. Thus, this work reports useful knowledge related to the intrinsic material properties, considering gas mixtures of industrial interest and essential when other membrane configurations like hollow fibers, mixed matrix membranes or polymer blends are proposed.
SN 0376-7388
YR 2011
FD 2011-08-15
LK https://hdl.handle.net/11556/3360
UL https://hdl.handle.net/11556/3360
LA eng
NO David , O C , Gorri , D , Urtiaga , A & Ortiz , I 2011 , ' Mixed gas separation study for the hydrogen recovery from H 2 /CO/N 2 /CO 2 post combustion mixtures using a Matrimid membrane ' , Journal of Membrane Science , vol. 378 , no. 1-2 , pp. 359-368 . https://doi.org/10.1016/j.memsci.2011.05.029
NO Financial support from the Spanish Ministry of Education and Science under the projects: ENE 2010-15585, CTQ 2008-00690/PPQ and CTM 2006-00317 is gratefully acknowledged. Oana C. David also thanks the Ministry of Education for a FPU postgraduate research grant.
DS TECNALIA Publications
RD 31 jul 2024