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Development of stable oxygen carrier materials for chemical looping processes : a review

(2020) CATALYSTS. 10(8).
Author
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Abstract
This review aims to give more understanding of the selection and development of oxygen carrier materials for chemical looping. Chemical looping, a rising star in chemical technologies, is capable of low CO2 emissions with applications in the production of energy and chemicals. A key issue in the further development of chemical looping processes and its introduction to the industry is the selection and further development of an appropriate oxygen carrier (OC) material. This solid oxygen carrier material supplies the stoichiometric oxygen needed for the various chemical processes. Its reactivity, cost, toxicity, thermal stability, attrition resistance, and chemical stability are critical selection criteria for developing suitable oxygen carrier materials. To develop oxygen carriers with optimal properties and long-term stability, one must consider the employed reactor configuration and the aim of the chemical looping process, as well as the thermodynamic properties of the active phases, their interaction with the used support material, long-term stability, internal ionic migration, and the advantages and limits of the employed synthesis methods. This review, therefore, aims to give more understanding into all aforementioned aspects to facilitate further research and development of chemical looping technology.
Keywords
Physical and Theoretical Chemistry, Catalysis, chemical looping, oxygen carrier, mixed ionic–electronic conduction, hydrogen, CO2 utilization, metal oxide, carbon capture and storage, reforming, perovskites, fossil fuels, PEROVSKITE-TYPE OXIDES, SWITCHING COMBUSTION REACTOR, HYDROGEN-PRODUCTION PROCESS, HIGH-TEMPERATURE BEHAVIOR, METHANE PARTIAL OXIDATION, SUPPORTED NICKEL-OXIDE, FLUIDIZED-BED REACTOR, SHELL REDOX CATALYST, GAS SHIFT REACTION, IRON-OXIDE

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MLA
De Vos, Yoran, et al. “Development of Stable Oxygen Carrier Materials for Chemical Looping Processes : A Review.” CATALYSTS, vol. 10, no. 8, 2020, doi:10.3390/catal10080926.
APA
De Vos, Y., Jacobs, M., Van Der Voort, P., Van Driessche, I., Snijkers, F., & Verberckmoes, A. (2020). Development of stable oxygen carrier materials for chemical looping processes : a review. CATALYSTS, 10(8). https://doi.org/10.3390/catal10080926
Chicago author-date
De Vos, Yoran, Marijke Jacobs, Pascal Van Der Voort, Isabel Van Driessche, Frans Snijkers, and An Verberckmoes. 2020. “Development of Stable Oxygen Carrier Materials for Chemical Looping Processes : A Review.” CATALYSTS 10 (8). https://doi.org/10.3390/catal10080926.
Chicago author-date (all authors)
De Vos, Yoran, Marijke Jacobs, Pascal Van Der Voort, Isabel Van Driessche, Frans Snijkers, and An Verberckmoes. 2020. “Development of Stable Oxygen Carrier Materials for Chemical Looping Processes : A Review.” CATALYSTS 10 (8). doi:10.3390/catal10080926.
Vancouver
1.
De Vos Y, Jacobs M, Van Der Voort P, Van Driessche I, Snijkers F, Verberckmoes A. Development of stable oxygen carrier materials for chemical looping processes : a review. CATALYSTS. 2020;10(8).
IEEE
[1]
Y. De Vos, M. Jacobs, P. Van Der Voort, I. Van Driessche, F. Snijkers, and A. Verberckmoes, “Development of stable oxygen carrier materials for chemical looping processes : a review,” CATALYSTS, vol. 10, no. 8, 2020.
@article{8671693,
  abstract     = {This review aims to give more understanding of the selection and development of oxygen carrier materials for chemical looping. Chemical looping, a rising star in chemical technologies, is capable of low CO2 emissions with applications in the production of energy and chemicals. A key issue in the further development of chemical looping processes and its introduction to the industry is the selection and further development of an appropriate oxygen carrier (OC) material. This solid oxygen carrier material supplies the stoichiometric oxygen needed for the various chemical processes. Its reactivity, cost, toxicity, thermal stability, attrition resistance, and chemical stability are critical selection criteria for developing suitable oxygen carrier materials. To develop oxygen carriers with optimal properties and long-term stability, one must consider the employed reactor configuration and the aim of the chemical looping process, as well as the thermodynamic properties of the active phases, their interaction with the used support material, long-term stability, internal ionic migration, and the advantages and limits of the employed synthesis methods. This review, therefore, aims to give more understanding into all aforementioned aspects to facilitate further research and development of chemical looping technology.},
  articleno    = {926},
  author       = {De Vos, Yoran and Jacobs, Marijke and Van Der Voort, Pascal and Van Driessche, Isabel and Snijkers, Frans and Verberckmoes, An},
  issn         = {2073-4344},
  journal      = {CATALYSTS},
  keywords     = {Physical and Theoretical Chemistry,Catalysis,chemical looping,oxygen carrier,mixed ionic–electronic conduction,hydrogen,CO2 utilization,metal oxide,carbon capture and storage,reforming,perovskites,fossil fuels,PEROVSKITE-TYPE OXIDES,SWITCHING COMBUSTION REACTOR,HYDROGEN-PRODUCTION PROCESS,HIGH-TEMPERATURE BEHAVIOR,METHANE PARTIAL OXIDATION,SUPPORTED NICKEL-OXIDE,FLUIDIZED-BED REACTOR,SHELL REDOX CATALYST,GAS SHIFT REACTION,IRON-OXIDE},
  language     = {eng},
  number       = {8},
  pages        = {64},
  title        = {Development of stable oxygen carrier materials for chemical looping processes : a review},
  url          = {http://dx.doi.org/10.3390/catal10080926},
  volume       = {10},
  year         = {2020},
}

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