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International Journal of Hydrogen Energy, Vol.41, No.20, 8745-8754, 2016
Evaluation of dense Pd-Ag membrane reactor performance during methanol steam reforming in comparison with autothermal reforming, using CFD analysis
This study presents a 2D-axisymmetric computational fluid dynamic (CFD) model to investigate the performance of dense Pd-Ag MR during methanol steam reforming (MSR) in comparison with methanol autothermal reforming (MATR) reaction for hydrogen production. The proposed CFD model provided the local information of velocity, pressure and component concentration for the driving force analysis. After investigation of mesh independency of CFD model, the validation of dense Pd-Ag MR during MSR reaction was carried out by experimental data and a good agreement between modeling results and experimental data was achieved. In the MR model, a dense Pd-Ag membrane with 50 mu m thickness and also a commercial Cu/ZnO/Al2O3 catalyst in reaction zone were considered. The effects of the some important operating parameters (temperature, pressure and sweep gas ratio) on the performances of Pd-Ag MR were studied in terms of methanol conversion and hydrogen recovery. The CFD results showed that the Pd-Ag MR during MATR reaction presents higher performance in term of the methanol conversion and hydrogen recovery with respect to once obtained in the MSR reaction. In particular, in the best operating condition, hydrogen production rate in reaction zone show an enhancement around 11% in the MATR reaction over once achieved in the MSR reaction. (C) 2015 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.
Keywords:Pd-Ag membrane reactor;Hydrogen production;CFD modeling;Methanol steam reforming;Autothermal reforming of methanol