2013
DOI: 10.1016/s1872-5813(13)60016-x
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Oxygen release kinetics and mechanism study on Cu-, Co-, Mn-based oxygen carrier

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Cited by 14 publications
(7 citation statements)
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“…Gaseous oxygen is released from the reduced oxygen carrier, and this process is also reversible. Two of the most frequently used models to describe this type of reaction are the shrinking core model (SCM) and nucleation model. ,, The shrinking core model (SCM) assumes that the reaction takes place on the surface of a shrinking core and that no reaction is taking place throughout the interior of the core. A layer of solid product (reduced metal oxide) is formed around an unreacted core.…”
Section: Resultsmentioning
confidence: 99%
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“…Gaseous oxygen is released from the reduced oxygen carrier, and this process is also reversible. Two of the most frequently used models to describe this type of reaction are the shrinking core model (SCM) and nucleation model. ,, The shrinking core model (SCM) assumes that the reaction takes place on the surface of a shrinking core and that no reaction is taking place throughout the interior of the core. A layer of solid product (reduced metal oxide) is formed around an unreacted core.…”
Section: Resultsmentioning
confidence: 99%
“…The activation energy of CuO oxygen uncoupling (reduction) versus the temperature range used in each study for kinetics available in the literature ,,,, and in this work.…”
Section: Resultsmentioning
confidence: 99%
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“…To attain the global apparent reaction kinetics, it is necessary to ensure that the test condition is mostly if not exactly the same as the actual reaction unit (because the apparent reaction kinetics is not universal and cannot be extrapolated), which, however, is usually not easy to be achieved in experiments. The testing methods used in reaction kinetics studies include the isothermal method ,, and the non-isothermal method. ,,, In the isothermal method, the reaction between the oxygen carrier and fuel gas can be easily triggered by switching the reaction atmosphere after a temperature rising period under the inert gas environment. This method holds the advantage of simplicity and accuracy in data processing and was adopted by most researchers.…”
Section: Microcosmic Reaction Mechanism and Redox Reaction Kineticsmentioning
confidence: 99%
“…5 Many OCs have been investigated in thermogravimetric analyzer (TGA), 6,7 batch fixed/fluidized bed reactors, 8,9 and interconnected fluidized bed reactors. 10−13 Some kinds of OC were synthetic oxides (like Ni-, 14 Fe-, 15,16 Cu-, 17−19 Co-, 20 Mn-based 21 oxides), and some were natural ores such as hematite, 22 ilmenite, 23 manganese ore, 24 copper ore, 25 and the mixture of iron ore and copper ore. 26 The experimental results in TGA or batch-operated reactors provided useful information about, e.g., reduction and oxidation kinetics, which are essential for the design and operation of a real CLC reactor. 27 To further test the reactivity behavior of OCs during the continuously long-term operation as well as the feasibility of CLC technology, several groups have already built lab-scaled interconnected fluidized bed reactors, where the OCs continuously circulate in the units.…”
Section: Introductionmentioning
confidence: 99%