A fluidized-bed combustion process with inherent CO2 separation; application of chemical-looping combustion A Lyngfelt, B Leckner, T Mattisson Chemical Engineering Science 56 (10), 3101-3113, 2001 | 1366 | 2001 |
Comparison of iron-, nickel-, copper-and manganese-based oxygen carriers for chemical-looping combustion P Cho, T Mattisson, A Lyngfelt Fuel 83 (9), 1215-1225, 2004 | 820 | 2004 |
Chemical-looping with oxygen uncoupling for combustion of solid fuels T Mattisson, A Lyngfelt, H Leion International journal of greenhouse gas control 3 (1), 11-19, 2009 | 811 | 2009 |
Thermal analysis of chemical-looping combustion E Jerndal, T Mattisson, A Lyngfelt Chemical Engineering Research and Design 84 (9), 795-806, 2006 | 556 | 2006 |
The use of iron oxide as an oxygen carrier in chemical-looping combustion of methane with inherent separation of CO2 T Mattisson, A Lyngfelt, P Cho Fuel 80 (13), 1953-1962, 2001 | 533 | 2001 |
Emerging CO2 capture systems JC Abanades, B Arias, A Lyngfelt, T Mattisson, DE Wiley, H Li, MT Ho, ... International Journal of Greenhouse Gas Control 40, 126-166, 2015 | 498 | 2015 |
The use of ilmenite as an oxygen carrier in chemical-looping combustion H Leion, A Lyngfelt, M Johansson, E Jerndal, T Mattisson Chemical engineering research and design 86 (9), 1017-1026, 2008 | 471 | 2008 |
Reactivity of some metal oxides supported on alumina with alternating methane and oxygen application for chemical-looping combustion T Mattisson, A Järdnäs, A Lyngfelt Energy & Fuels 17 (3), 643-651, 2003 | 471 | 2003 |
Solid fuels in chemical-looping combustion H Leion, T Mattisson, A Lyngfelt International journal of greenhouse gas control 2 (2), 180-193, 2008 | 441 | 2008 |
The use of iron oxide as oxygen carrier in a chemical-looping reactor A Abad, T Mattisson, A Lyngfelt, M Johansson Fuel 86 (7-8), 1021-1035, 2007 | 406 | 2007 |
The use of NiO as an oxygen carrier in chemical-looping combustion T Mattisson, M Johansson, A Lyngfelt Fuel 85 (5-6), 736-747, 2006 | 403 | 2006 |
The use of petroleum coke as fuel in chemical-looping combustion H Leion, T Mattisson, A Lyngfelt Fuel 86 (12-13), 1947-1958, 2007 | 387 | 2007 |
Multicycle reduction and oxidation of different types of iron oxide particles application to chemical-looping combustion T Mattisson, M Johansson, A Lyngfelt Energy & Fuels 18 (3), 628-637, 2004 | 384 | 2004 |
Chemical-looping combustion in a 300 W continuously operating reactor system using a manganese-based oxygen carrier A Abad, T Mattisson, A Lyngfelt, M Rydén Fuel 85 (9), 1174-1185, 2006 | 372 | 2006 |
Integrated Hydrogen and Power Production with CO2 Capture Using Chemical-Looping ReformingRedox Reactivity of Particles of CuO, Mn2O3, NiO, and Fe2O3 Using SiO … Q Zafar, T Mattisson, B Gevert Industrial & engineering chemistry research 44 (10), 3485-3496, 2005 | 354 | 2005 |
Synthesis gas generation by chemical-looping reforming in a continuously operating laboratory reactor M Rydén, A Lyngfelt, T Mattisson Fuel 85 (12-13), 1631-1641, 2006 | 350 | 2006 |
Redox Investigation of Some Oxides of Transition-State Metals Ni, Cu, Fe, and Mn Supported on SiO2 and MgAl2O4 Q Zafar, T Mattisson, B Gevert Energy & Fuels 20 (1), 34-44, 2006 | 332 | 2006 |
Novel oxygen-carrier materials for chemical-looping combustion and chemical-looping reforming; LaxSr1− xFeyCo1− yO3− δ perovskites and mixed-metal oxides of NiO, Fe2O3 and Mn3O4 M Rydén, A Lyngfelt, T Mattisson, D Chen, A Holmen, E Bjørgum International journal of greenhouse gas control 2 (1), 21-36, 2008 | 316 | 2008 |
Carbon formation on nickel and iron oxide-containing oxygen carriers for chemical-looping combustion P Cho, T Mattisson, A Lyngfelt Industrial & Engineering Chemistry Research 44 (4), 668-676, 2005 | 315 | 2005 |
Combined oxides as oxygen-carrier material for chemical-looping with oxygen uncoupling M Rydén, H Leion, T Mattisson, A Lyngfelt Applied Energy 113, 1924-1932, 2014 | 300 | 2014 |