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CO production from CO2 via reverse water–gas shift reaction performed in a chemical looping mode : kinetics on modified iron oxide

Marcus Wenzel, Naga Venkata Ranga Aditya Dharanipragada, Vladimir Galvita UGent, Hilde Poelman UGent, Guy Marin UGent, Liisa Rihko-Struckmann and Kai Sundmacher (2017) JOURNAL OF CO2 UTILIZATION. 17. p.60-68
abstract
Carbon monoxide production from carbon dioxide via isothermal reverse water–gas shift chemical looping (RWGS-CL) is studied with a modified iron oxide oxygen carrier material (80 wt% Fe2O3– Ce0.5Zr0.5O2). The material is characterized by TEM, XRD and thermogravimetry at temperatures from 750 8C to 850 8C and gas mole fractions of H2 and CO2 from 0.05 to 0.75, respectively. High temperature and high reactant concentrations favor the oxidation and reduction of the material during repeated redox cycles. The reaction rate of reduction is always faster than that of oxidation applying the same gas concentration of H2 and CO2, respectively. The long term stability of the material is investigated with 500 redox cycles in a plug flow reactor. The material shows gradual deactivation lowering the CO yield during the first 100 redox cycles. After that, a steady state CO yield is reached for the next 400 redox cycles. Deactivation is attributed to surface sintering which results in slower reaction kinetics. TG data was used for a kinetic analysis applying the master plot method. The experimental data for oxidation and reduction indicated reaction mechanisms, which are well described by a reaction order and a geometrical contraction model. After parameter estimation, a good agreement between the model and the TG data was achieved with the reaction order and geometrical contraction model for oxidation and reduction, respectively. The RWGS-CL process can be used for sustainable CO production from CO2 if the energy for the process and for H2 production is supplied by renewable sources.
Please use this url to cite or link to this publication:
author
organization
year
type
journalArticle (original)
publication status
published
keyword
SOLAR FUEL PRODUCTION, THERMOCHEMICAL CYCLES, H2O, REDUCTION, HYDROGEN, CERIA, H-2, SR
journal title
JOURNAL OF CO2 UTILIZATION
volume
17
pages
60 - 68
Web of Science type
Article
Web of Science id
000393928500008
ISSN
2212-9820
DOI
10.1016/j.jcou.2016.10.015
language
English
UGent publication?
yes
classification
A1
id
8536438
handle
http://hdl.handle.net/1854/LU-8536438
date created
2017-11-07 13:19:28
date last changed
2017-11-09 08:08:31
@article{8536438,
  abstract     = {Carbon monoxide production from carbon dioxide via isothermal reverse water--gas shift chemical looping (RWGS-CL) is studied with a modified iron oxide oxygen carrier material (80 wt\% Fe2O3-- Ce0.5Zr0.5O2). The material is characterized by TEM, XRD and thermogravimetry at temperatures from 750 8C to 850 8C and gas mole fractions of H2 and CO2 from 0.05 to 0.75, respectively. High temperature and high reactant concentrations favor the oxidation and reduction of the material during repeated redox cycles. The reaction rate of reduction is always faster than that of oxidation applying the same gas concentration of H2 and CO2, respectively. The long term stability of the material is investigated with 500 redox cycles in a plug flow reactor. The material shows gradual deactivation lowering the CO yield
during the first 100 redox cycles. After that, a steady state CO yield is reached for the next 400 redox cycles. Deactivation is attributed to surface sintering which results in slower reaction kinetics. TG data was used for a kinetic analysis applying the master plot method. The experimental data for oxidation and reduction indicated reaction mechanisms, which are well described by a reaction order and a geometrical contraction model. After parameter estimation, a good agreement between the model and the TG data was achieved with the reaction order and geometrical contraction model for oxidation and reduction, respectively. The RWGS-CL process can be used for sustainable CO production from CO2 if the energy for the process and for H2 production is supplied by renewable sources.},
  author       = {Wenzel, Marcus and Dharanipragada, Naga Venkata Ranga Aditya and Galvita, Vladimir and Poelman, Hilde and Marin, Guy and Rihko-Struckmann, Liisa and Sundmacher , Kai},
  issn         = {2212-9820 },
  journal      = {JOURNAL OF CO2 UTILIZATION},
  keyword      = {SOLAR FUEL PRODUCTION,THERMOCHEMICAL CYCLES,H2O,REDUCTION,HYDROGEN,CERIA,H-2,SR},
  language     = {eng},
  pages        = {60--68},
  title        = {CO production from CO2 via reverse water--gas shift reaction performed in a chemical looping mode : kinetics on modified iron oxide},
  url          = {http://dx.doi.org/10.1016/j.jcou.2016.10.015},
  volume       = {17},
  year         = {2017},
}

Chicago
Wenzel, Marcus, Naga Venkata Ranga Aditya Dharanipragada, Vladimir Galvita, Hilde Poelman, Guy Marin, Liisa Rihko-Struckmann, and Kai Sundmacher . 2017. “CO Production from CO2 via Reverse Water–gas Shift Reaction Performed in a Chemical Looping Mode : Kinetics on Modified Iron Oxide.” JOURNAL OF CO2 UTILIZATION 17: 60–68.
APA
Wenzel, M., Dharanipragada, N. V. R. A., Galvita, V., Poelman, H., Marin, G., Rihko-Struckmann, L., & Sundmacher , K. (2017). CO production from CO2 via reverse water–gas shift reaction performed in a chemical looping mode : kinetics on modified iron oxide. JOURNAL OF CO2 UTILIZATION, 17, 60–68.
Vancouver
1.
Wenzel M, Dharanipragada NVRA, Galvita V, Poelman H, Marin G, Rihko-Struckmann L, et al. CO production from CO2 via reverse water–gas shift reaction performed in a chemical looping mode : kinetics on modified iron oxide. JOURNAL OF CO2 UTILIZATION. 2017;17:60–8.
MLA
Wenzel, Marcus, Naga Venkata Ranga Aditya Dharanipragada, Vladimir Galvita, et al. “CO Production from CO2 via Reverse Water–gas Shift Reaction Performed in a Chemical Looping Mode : Kinetics on Modified Iron Oxide.” JOURNAL OF CO2 UTILIZATION 17 (2017): 60–68. Print.