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Abstract
A set of response surface experiments were designed to determine the optimum conditions for the production of high‐purity hydrogen from wet syngas of composition (44% CO, 23% steam, and 33% hydrogen) using 50 grams of a 1∶7 mass ratio of Fe2O3: CaO loaded into the fluidized bed reactor. Pressure was varied between 50 psi and 515 psi and temperature between 725°C and 800°C. Results indicated:
High purity hydrogen production is possible at reactor conditions of 725°C & 50 psi, as well as 725°C & 250 psi; | |||||
Optimum high purity hydrogen production (largest mass in 15 minutes with no COx) occurred near conditions of 725°C and 250 psi; | |||||
Mass of produced high‐purity hydrogen increased most significantly with pressure; | |||||
Methane production increased linearly with pressure due to the catalytic effect of the high nickel content of the reactor walls; | |||||
The chemical reaction rate is predicted to be a controlling factor in the percentage of CO and CO2 in the outlet at lower pressures. | |||||
Acknowledgement
The authors are pleased to acknowledge the U.S. Department of Energy (contracts DE‐FC26‐00FT40974 and DE‐FC26‐03NT41842) and General Electric for their financial support.