2022
DOI: 10.1016/j.ijhydene.2022.06.170
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Hydrogen production using chemical looping technology: A review with emphasis on H2 yield of various oxygen carriers

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Cited by 65 publications
(6 citation statements)
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“…Current research on oxygen carriers mainly focuses on single-metal oxide and multi-metal oxide oxygen carriers. However, with the increase in temperature and with long-term cycles, the performance of oxygen carriers will be affected by sintering, reducing hydrogen production efficiency [35]. Therefore, the future research direction of chemicallooping hydrogen production should be to explore a large number of oxygen carriers with good performance and cheap sources, such as modifying some useful substances in steel industrial slag and mining waste to obtain the best oxygen carriers.…”
Section: Chemical-looping Hydrogen Productionmentioning
confidence: 99%
“…Current research on oxygen carriers mainly focuses on single-metal oxide and multi-metal oxide oxygen carriers. However, with the increase in temperature and with long-term cycles, the performance of oxygen carriers will be affected by sintering, reducing hydrogen production efficiency [35]. Therefore, the future research direction of chemicallooping hydrogen production should be to explore a large number of oxygen carriers with good performance and cheap sources, such as modifying some useful substances in steel industrial slag and mining waste to obtain the best oxygen carriers.…”
Section: Chemical-looping Hydrogen Productionmentioning
confidence: 99%
“…Previous research on chemical looping using WV as one of the agents focuses on hydrogen production via WGSR of gaseous fuel (CO and CH 4 ) 11,[16][17][18][19] or gasification of solid fuel (coal and biomass), [20][21][22][23] and the research on the attrition of OCs were studied without evaluating the potential effects of WV. [24][25][26] For instance, Kramp et al modeled the attrition of copper-based OC with CH 4 .…”
Section: The Authors Have Previously Reported On Developing Fe-basedmentioning
confidence: 99%
“…In 1983, Ritcher and Knoche proposed the concept of chemical looping to achieve in situ capture of carbon dioxide by transferring oxygen atoms between fuel and air via oxygen carriers, simplifying the capture process in the traditional fossil fuel conversion process and reducing the energy consumption of CCS. In the past few decades, chemical looping has evolved rapidly and has now expanded from the initial concept of chemical looping combustion (CLC) to chemical looping gasification (CLG), chemical looping hydrogen generation (CLHG), and chemical looping oxidative coupling of methane (CLOCM). Figure shows the development process of the chemical looping technology, which is divided into three main steps: oxygen carrier screening, reactor design, and process flow optimization. The oxygen carrier is central to the chemical looping process, with its redox properties critically influencing the selectivity and yield of the fuel.…”
Section: Introductionmentioning
confidence: 99%