Abstract
The calcium looping process (CLP) is one of the clean coal technologies being developed for the production of hydrogen (H2) and electricity from coal-derived syngas. It integrates the water−gas shift reaction with in situ carbon dioxide (CO2), sulfur, and halide removal in a single-stage reactor. In the CLP, a regenerable calcium-based sorbent is used to react with and remove CO2, sulfur, and halide impurities from the synthesis gas during the production of H2. The removal of CO2 creates a favorable equilibrium and drives the water−gas shift reaction forward per Le Chatelier’s principle enabling the production of high-purity H2. In this investigation, the feasibility and optimum process conditions for the production of H2 in the absence of a water−gas shift catalyst have been described. Calcium oxide (CaO) sorbent has been found to enhance H2 yield to a large extent even in the absence of a water−gas shift catalyst. Specifically, at high pressures, high carbon monoxide (CO) conversion and H2 purity (>99%)...
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