High-purity hydrogen production through sorption enhanced water gas shift reaction using K2CO3-promoted hydrotalcite

Abstract

Sorption enhanced water gas shift (SEWGS) reaction is a process concept, which simultaneously carries out the gas phase water gas shift (WGS) reaction (CO + H2O <-> CO2 + H-2) and selective chemisorption of the byproduct CO2 from the gas phase reaction zone for direct production of essentially pure H-2 in a single unit operation. A packed bed sorber-reactor containing an admixture of a WGS catalyst and a CO2 chermisorbent is used in the process. The concept circumvents the thermodynamic limitation of the WGS reaction and enhances the rate of reaction for H-2 production. In this study, the SEWGS reaction concept was successfully demonstrated by both experiment and numerical simulation using K2CO3-promoted hydrotalcite as the CO2 sorbent. Numerical model simulations were also carried out to investigate the effects of various operating conditions of SEWGS reaction on the process performance. In general, higher H2O/CO feed ratio, higher fraction of sorbent (chemisorbent ratio in the sorber-reactor), and lower operating temperature favor both H-2 productivity and CO conversion. Higher reaction pressure increases H-2 productivity but decreases CO conversion. (C) 2012 Elsevier Ltd. All rights reserved.