Investigating the effect of hydrogen sulfide impurities on the separation of fermentatively produced hydrogen by PDMS membrane

•PDMS gas separation membrane for biohydrogen purification was evaluated.•Effects of feed gas mixture composition and recovery were tested.•Hydrogen sulfide impurities were shown to influence CO2/H2 separation.•The importance of minor contaminants present in biohydrogen mixture was demonstrated. Thi...

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Bibliographic Details
Published in:Separation and purification technology 2016-01, Vol.157, p.222-228
Main Authors: Bakonyi, P., Bogdán, F., Kocsi, V., Nemestóthy, N., Bélafi-Bakó, K., Buitrón, G.
Format: Article
Language:English
Subjects:
Biohydrogen
Carbon dioxide
Gas separation
Hydrogen
Hydrogen sulfide
Impurities
Membrane
Membranes
PDMS
Purification
Separation
Silicone resins
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Summary:•PDMS gas separation membrane for biohydrogen purification was evaluated.•Effects of feed gas mixture composition and recovery were tested.•Hydrogen sulfide impurities were shown to influence CO2/H2 separation.•The importance of minor contaminants present in biohydrogen mixture was demonstrated. This work reports on the separation of biohydrogen using a hollow-fiber PDMS membrane. The performance of the module was evaluated using binary CO2/H2 (35–65vol.% H2 content) and ternary CO2/H2/H2S mixtures (50vol.% H2, 50vol% CO2, 25–175ppm H2S) and the effect of recovery and gas composition (with special focus on hydrogen sulfide content) was revealed. H2S is a potential impurity of the raw gas coming from steady-state, dark fermentative hydrogen producing bioreactors. The results indicated that H2S could have a concentration-dependent impact on membrane behavior and affected the obtainable CO2/H2 selectivity. The outcomes were thoroughly compared to other relevant gas separation reports found in the literature. Evaluating the impacts of trace-level substances present in the gaseous mixture containing biohydrogen may help to design effective purification system based on membrane technology for the hydrogen economy.
ISSN:1383-5866
1873-3794
DOI:10.1016/j.seppur.2015.11.016