In this research, application of chemical looping combustion (CLC) instead of furnace in a con
ventional steam reformer (CSR) assisted by Pd/Ag membranes for hydrogen production has been analyzed.
Ni and Febased oxygen carriers have been employed in CLC for carbon dioxide capture. A steady state one
dimensional heterogeneous catalytic reaction model is applied to analyze the performance and applicability
of proposed CLCSRM configuration via different oxygen carriers. Simulation results show that for all types
of used oxygen carriers combustion efficiency reaches to 1 in the fuel reactor (FR) part of CLCSRM. In
CLCSRM, methane conversion increases from 26% in CSR to 33.7% and 30.87 with employing Ni and
Fe based oxygen carriers respectively. In addition, hydrogen production increases from 3380 kmol h–1 in
CSR to 4258 and 3948 kmol h–1 in CLCSRM with employing Ni and Febased oxygen carriers respectively.
Increasing FR feed temperature in CLCSRM via all types of oxygen carriers shows enhancement of meth
ane conversion and hydrogen production in the SR side. By increasing FR feed temperature from 800–
1000 K, hydrogen production can increases 41.36 and 33.08% by using Ni and Fe based oxygen carriers in
comparison with CSR respectively.