A Proposal of New Hydrogen Production Process Employing Equilibrium-shift Technology

A Proposal of New Hydrogen Production Process Employing Equilibrium-shift Technology

A hydrogen production process comprising a membrane reactor and a carbon dioxide separator for the steam reforming of methane at 500°C has been simulated without employing a sweep gas for hydrogen separation, while the one-pass conversion of methane with a membrane reactor is 35% or below. Recycling...

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Veröffentlicht in:Journal of the Japan Petroleum Institute 2003, Vol.46(3), pp.166-171
Hauptverfasser: MATSUMURA, Yasuyuki, URAGAMI, Masayuki, NAKAMORI, Toshie, MORIMOTO, Shinichirou
Format: Artikel
Sprache:eng
Schlagworte:
Alternative fuels. Production and utilization
Applied sciences
Carbon dioxide separation
Energy
Exact sciences and technology
Fuels
Hydrogen
Hydrogen production
Membrane reactor
Methane steam reforming
Process simulation
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Zusammenfassung:A hydrogen production process comprising a membrane reactor and a carbon dioxide separator for the steam reforming of methane at 500°C has been simulated without employing a sweep gas for hydrogen separation, while the one-pass conversion of methane with a membrane reactor is 35% or below. Recycling of the reaction gas increases the apparent conversion of methane, but the conversion is gradually saturated with increasing recycling ratio (molar ratio of recycled gas to feed gas) without carbon dioxide separation. Separation of carbon dioxide from the exit gas of the membrane reactor increases the apparent conversion of methane linearly with increasing recycling ratio and 100% conversion can be attained under conditions suitable for industrial operation.
ISSN:1346-8804
1349-273X
DOI:10.1627/jpi.46.166