Thermodynamic screening of suitable oxygen carriers for a three reactor chemical looping reforming system

Hydrogen (H-2) production by using a three reactor chemical looping reforming (TRCLR) technology is an innovative process which utilizes fossil fuels as feed stocks. This process occurs in three steps by employing an oxygen carrier (OC), which is generally a transition metal. As the OC plays an important role, its selection should be done after carefully considering the chemical and physical properties of the material. In this study, various candidate materials for use in a TRCLR process, with methane (CH4) as a fuel stock, were investigated. The results show that the iron (Fe)- and molybdenum (Mo)-based OCs oxidize CH4 completely in the FR at low temperatures. In terms of H-2 yield, tungsten (W) based OCs produce the highest yield, similar to 3.9 mol-H-2/mol-CH4. The equilibrium oxygen partial pressures and the solid circulation rates are the highest for Fe -based OCs. The oxygen carrying capacity of Fe -based OCs is relatively high while its price is low. Therefore, among the OCs investigated, Fe -based OCs were identified as the preferred OC option for a TRCLR process. (C) 2017 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.