Mg-Fe-Al-O for advanced CO2 to CO conversion: carbon monoxide yield vs. oxygen storage capacity

被引:82
作者
Dharanipragada, N. V. R. Aditya [1 ]
Buelens, Lukas C. [1 ]
Poelman, Hilde [1 ]
De Grave, Eddy [2 ]
Galvita, Vladimir V. [1 ]
Marin, Guy B. [1 ]
机构
[1] Univ Ghent, Chem Technol Lab, B-9052 Ghent, Belgium
[2] Univ Ghent, Dept Phys & Astron, B-9000 Ghent, Belgium
关键词
CHEMICAL-LOOPING COMBUSTION; IRON-OXIDE MATERIALS; HYDROGEN-PRODUCTION; METAL-OXIDES; CARRIERS; WATER; CATALYST; CU; METHANE; PERFORMANCE;
D O I
10.1039/c5ta02289d
中图分类号
O64 [物理化学(理论化学)、化学物理学];
学科分类号
070304 ; 081704 ;
摘要
A detailed study of new oxygen carrier materials, Mg-Fe-Al-O, with various loadings of iron oxide (10-100 wt% Fe2O3) is carried out in order to investigate the relationship between material transformation, stability and CO yield from CO2 conversion. In situ XRD during H-2-TPR, CO2-TPO and isothermal chemical looping cycles as well as Mossbauer spectroscopy are employed. All samples show the formation of a spinel phase, MgFeAlOx. High loadings of iron oxide (50-90 wt%) lead to both spinel and Fe2O3 phases and show deactivation in cycling as a result of Fe2O3 particle sintering. During the reduction, reoxidation and cycling of the spinel MgFeAlOx phase, only limited sintering occurs. This is evidenced by the stable spinel crystallite sizes (similar to 15-20 nm) during isothermal cycling. The reduction of MgFe3+AlOx starts at 400 degrees C and proceeds via partial reduction to MgFe2+AlOx. Prolonged cycling and higher temperatures (>750 degrees C) lead to deeper reduction and segregation of Fe from the spinel structure. Very high stability and CO yield from CO2 conversion are found in Mg-Fe-Al-O materials with 10 wt% Fe2O3, i.e. the lowest oxygen storage capacity among the tested samples. Compared to 10 wt% Fe2O3 supported on Al2O3 or MgO, the CO yield of the 10 wt% Fe2O3-MgFeAlOx spinel is ten times higher.
引用
收藏
页码:16251 / 16262
页数:12
相关论文
共 52 条
[1]   Mapping of the range of operational conditions for Cu-, Fe-, and Ni-based oxygen carriers in chemical-looping combustion [J].
Abad, Alberto ;
Adanez, Juan ;
Garcia-Labiano, Francisco ;
de Diego, Luis F. ;
Gayan, Pilar ;
Celaya, Javier .
CHEMICAL ENGINEERING SCIENCE, 2007, 62 (1-2) :533-549
[2]   Progress in Chemical-Looping Combustion and Reforming technologies [J].
Adanez, Juan ;
Abad, Alberto ;
Garcia-Labiano, Francisco ;
Gayan, Pilar ;
de Diego, Luis F. .
PROGRESS IN ENERGY AND COMBUSTION SCIENCE, 2012, 38 (02) :215-282
[3]   Evaluation of a Spray-Dried CuO/MgAl2O4 Oxygen Carrier for the Chemical Looping with Oxygen Uncoupling Process [J].
Adanez-Rubio, Inaki ;
Gayan, Pilar ;
Abad, Alberto ;
de Diego, Luis F. ;
Garcia-Labiano, Francisco ;
Adanez, Juan .
ENERGY & FUELS, 2012, 26 (05) :3069-3081
[4]   The effect of thermodynamic properties of zirconia-supported Fe3O4 on water-gas shift activity [J].
Baldychev, Ivan ;
Vohs, John M. ;
Gorte, Raymond J. .
APPLIED CATALYSIS A-GENERAL, 2009, 356 (02) :225-230
[5]   Mechanisms of catalyst deactivation [J].
Bartholomew, CH .
APPLIED CATALYSIS A-GENERAL, 2001, 212 (1-2) :17-60
[6]   Chemical Looping Dry Reforming as Novel, Intensified Process for CO2 Activation [J].
Bhavsar, Saurabh ;
Najera, Michelle ;
Veser, Goetz .
CHEMICAL ENGINEERING & TECHNOLOGY, 2012, 35 (07) :1281-1290
[7]   Formation of nickel, cobalt, copper, and iron aluminates from α- and γ-alumina-supported oxides:: A comparative study [J].
Bolt, PH ;
Habraken, FHPM ;
Geus, JW .
JOURNAL OF SOLID STATE CHEMISTRY, 1998, 135 (01) :59-69
[8]   Performance of a highly reactive impregnated Fe2O3/Al2O3 oxygen carrier with CH4 and H2S in a 500 Wth CLC unit [J].
Cabello, A. ;
Dueso, C. ;
Garcia-Labiano, F. ;
Gayan, P. ;
Abad, A. ;
de Diego, L. F. ;
Adanez, J. .
FUEL, 2014, 121 :117-125
[9]   Contributions to accelerating atmospheric CO2 growth from economic activity, carbon intensity, and efficiency of natural sinks [J].
Canadell, Josep G. ;
Le Quéré, Corinne ;
Raupach, Michael R. ;
Field, Christopher B. ;
Buitenhuis, Erik T. ;
Ciais, Philippe ;
Conway, Thomas J. ;
Gillett, Nathan P. ;
Houghton, R. A. ;
Marland, Gregg .
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 2007, 104 (47) :18866-18870
[10]   Chemical Looping Process - A Novel Technology for Inherent CO2 Capture [J].
Chiu, Ping-Chin ;
Ku, Young .
AEROSOL AND AIR QUALITY RESEARCH, 2012, 12 (06) :1421-1432