Application of Polymeric Membranes in Biohydrogen Purification and Storage
Z. Pientka, J. Peter, J. Zitka and P. Bakonyi
Affiliation: Institute of Macromolecular Chemistry AS CR, v.v.i., Heyrovsky Sq.2, Prague, Czech Republic.
Keywords: Biohydrogen, hydrogen, membrane, separation, storage.
Artificial separation membranes, as selective mass transport barriers allow different gases to permeate at different
rates. Many polymers exhibit great differences in the permeation rates and polymers, often in the form of non-porous
films, constitute the group of the most important materials for gas separation membranes. Feasibility and efficiency of
membrane technology – besides material selection – significantly depend on the separation circumstances such as feed
composition, pressures and flows. All these aspects are discussed in this study. Polymeric membranes are very suitable for
hydrogen recovery from biohydrogen. They can be employed under similar conditions of biohydrogen formation. Commercial
membranes and apparatus can be utilized. Some biohydrogen components – such as nitrogen – can be removed
easily, while others – e.g. carbon dioxide, moisture and hydrogen sulfide – likely require multi-stage or cascade processes
to be separated. In the recent decade, a range of new polymers, new membrane materials, novel membrane processes were
developed and have been proven in the laboratory scale. They brought higher separation efficiency with better economy.
Process utilizing polymer foams with closed pores combine membrane based separation and hydrogen absorption capacity.
Ionic liquid supported membranes utilize ionic liquids filled in the pores of polymer membranes and take advantage of
ionic liquids separation abilities. Integrated solutions seem most feasible for biohydrogen purification and storage.
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