Identification of operational regions in the Chemical-Looping with Oxygen Uncoupling (CLOU) process with a Cu-based oxygen carrier

Abstract: Chemical-Looping with Oxygen Uncoupling (CLOU) is an alternative chemical-looping process for the combustion of solid fuels with inherent CO 2 capture. The CLOU process demands a material as oxygen carrier with the ability to decompose with O 2 release at suitable temperatures for solid fuel combustion, e.g. copper oxide. This article presents an experimental method to determine the maximum oxygen generation rate of an oxygen carrier as well as to determine the minimum solid inventory that must be used in the … Show more

“…11) is lower than the solids inventory needed to reach a CO 2 capture higher than 95% without a carbon stripper (»600 kg/MW th ). This fact agree with previous results obtained from the analysis of the oxygen carrier reactivity [25] and results obtained in a CLOU unit [8,10]. It can be concluded that the kinetic parameters determined together with the simulation tool developed in this work, configure a useful instrument for the design and optimization of CLOU process.…”

“…Thus, the kinetic model here proposed properly prediced the reaction rates when the O 2 concentrations was close to the equilibrium, where previous literature models had failed [15]. This condition is required in the fuel reactor of a CLOU unit to avoid unconverted compounds exiting the fuel reactor [8,25].…”

“…Preliminary results showed that this material has adequate values of reactivity and oxygen transport capacity in fluidized-bed conditions [9,25]. High combustion rates with complete combustion to CO 2 and H 2 O were obtained with this material using a low solids inventory in the fuel reactor of a CLOU unit burning different types of coal and biomass [8,10].…”

“…Table 2 shows the main properties of this material, which were presented in previous works [2,[8][9][10][11]25].…”

“…This condition is reached when the oxygen concentration in Eq. (20) is considered to be zero, corresponding to the asymptotic limit in which all the O 2 released is consumed by the fuel and there is not an excess of O 2 in gases [25].…”

Kinetic analysis of a Cu-based oxygen carrier: Relevance of temperature and oxygen partial pressure on reduction and oxidation reactions rates in Chemical Looping with Oxygen Uncoupling (CLOU)

“…11) is lower than the solids inventory needed to reach a CO 2 capture higher than 95% without a carbon stripper (»600 kg/MW th ). This fact agree with previous results obtained from the analysis of the oxygen carrier reactivity [25] and results obtained in a CLOU unit [8,10]. It can be concluded that the kinetic parameters determined together with the simulation tool developed in this work, configure a useful instrument for the design and optimization of CLOU process.…”

“…Thus, the kinetic model here proposed properly prediced the reaction rates when the O 2 concentrations was close to the equilibrium, where previous literature models had failed [15]. This condition is required in the fuel reactor of a CLOU unit to avoid unconverted compounds exiting the fuel reactor [8,25].…”

“…Preliminary results showed that this material has adequate values of reactivity and oxygen transport capacity in fluidized-bed conditions [9,25]. High combustion rates with complete combustion to CO 2 and H 2 O were obtained with this material using a low solids inventory in the fuel reactor of a CLOU unit burning different types of coal and biomass [8,10].…”

“…Table 2 shows the main properties of this material, which were presented in previous works [2,[8][9][10][11]25].…”

“…This condition is reached when the oxygen concentration in Eq. (20) is considered to be zero, corresponding to the asymptotic limit in which all the O 2 released is consumed by the fuel and there is not an excess of O 2 in gases [25].…”

Kinetic analysis of a Cu-based oxygen carrier: Relevance of temperature and oxygen partial pressure on reduction and oxidation reactions rates in Chemical Looping with Oxygen Uncoupling (CLOU)

Chemical Looping with Oxygen Uncoupling ( CLOU ) Processes

Mixed Metal Oxide‐Based Oxygen Carriers for Chemical Looping Applications