Applied Catalysis B: Environmental, Vol.105, No.1-2, 30-40, 2011
Kinetics of hydrogen iodide decomposition over activated carbon catalysts in pellets
Three commercial carbons in pellets have been tested as catalysts for HI decomposition reaction in the range of temperature 240-500 degrees C. A preliminary screening, conducted under identical conditions, permitted to correlate conversion values to carbons characterization data. The most active carbon was deeply investigated, showing no deactivation for the entire testing time (140h) and no secondary reaction with H2O (of the HI solution). Comparing the results obtained at different temperatures, contact times, feedings (Pure HI and liquid HI-H2O solution) and 12 impurities, it was possible to derive a new kinetic mechanism and find out reliable values for 12 and HI adsorption heats, as well as for the activation energy of the reaction: H2O adsorption resulted greater than HI's. The mechanism proposed entails that atomic iodine, once formed on the catalyst surface, behaves in an auto-catalytic way for the HI molecules decomposition. This translates into a particular dependence of the reaction rate on HI pressure: at rather low pressure and/or high temperatures, rate grows with pressure; when pressure is high and/or temperature is low, rate may decrease with pressure. (C) 2011 Elsevier B.V. All rights reserved.
Keywords:Hydrogen production;Iodine-sulfur thermochemical cycle;HI decomposition reaction;Carbon catalysts;Langmuir-Hinshelwood