Progress in Chemical-Looping Combustion and Reforming technologies

IPCC, 2007

IPCC, 2002

IPCC. Climate Change, 2001

Shine, 1990, Radiative forcing of climate, 41

Archer, 2005, Fate of fossil fuel CO2 in geologic time, J Geophys Res, 110, C09S05, 10.1029/2004JC002625

Tans P. Trends in carbon dioxide. NOAA/ESRL. Available in: http://www.esrl.noaa.gov/gmd/ccgg/trends/.

1998

Ipcc, 2005

International Energy Agency (IEA), 2007

International Energy Agency (IEA), 2006

International Energy Agency (IEA), 2008

Toftegaard, 2010, Oxy-fuel combustion of solid fuels, Prog Energ Combust Sci, 36, 581, 10.1016/j.pecs.2010.02.001

Thomas, 2005, vol. 1 and 2

Kerr, 2005, Capture and separation technology gaps and priority research needs, vol. 1

Ekström, 2009, Techno–economic evaluations and benchmarking of pre–combustion CO2 capture and oxy–fuel processes developed in the european ENCAP project, Energ Procedia, 1, 4233, 10.1016/j.egypro.2009.02.234

Petrakopoulou, 2010, Exergoeconomic and exergoenvironmental analyses of a combined cycle power plant with chemical looping technology, Int J Greenhouse Gas Control, 5, 475, 10.1016/j.ijggc.2010.06.008

Thambimuthu, 2005, Capture of CO2

Anthony, 2008, Solid looping cycles: a new technology for coal conversion, Ind Eng Chem Res, 47, 1747, 10.1021/ie071310u

Fan, 2010, Chemical Looping technology and its fossil energy conversion applications, Ind Eng Chem Res, 49, 10200, 10.1021/ie1005542

Fan, 2010

Mizia, 2009, One step decarbonization, vol. 3

Lewis, 1951, Gasification of carbon metal oxides in a fluidized power bed, Chem Eng Prog, 47, 251

Lewis WK, Gilliland ER. Production of pure carbon dioxide. Patent 2665972; 1954.

Richter, 1983, Reversibility of combustion process, vol. 235, 71

Ishida, 1987, Evaluation of a chemical-looping-combustion power-generation system by graphic exergy analysis, Energy, 12, 147, 10.1016/0360-5442(87)90119-8

Ishida, 1994, A new advanced power-generation system using chemical-looping combustion, Energy, 19, 415, 10.1016/0360-5442(94)90120-1

Ishida, 1994, A novel combustor based on chemical-looping reactions and its reaction kinetics, J Chem Eng Jpn, 27, 296, 10.1252/jcej.27.296

Hatanaka T, Matsuda S, Hatano H. A new-concept gas–solid combustion system "MERIT" for high combustion efficiency and low emissions. In: Proc of the 32nd Intersociety Energy Conversion Eng Conf (IECEC-97). Honolulu, Hawaii; 1997: 944–8.

Copeland RJ, Alptekin G, Cesario M, Gebhard S, Gershanovich Y. A novel CO2 separation system. In: Proc 8th Int Symp on Transport Phenomena and Dynamics of Rotating Machinery (ISROMAC-8). Honolulu, Hawaii; 2000.

Lyngfelt A, Kronberger B, Adánez J, Morin J-X, Hurst P. The Grace Project. Development of oxygen carrier particles for chemical-looping combustion, design and operation of a 10 kW chemical-looping combustor. In: Proc 7th Int Conf Greenhouse Gas Control Technology (GHGT-7). Vancouver, Canada; 2004.

Adánez, 2005, Development of oxygen carriers for chemical-looping combustion, vol. 1

Adánez, 2004, Selection of oxygen carriers for chemical-looping combustion, Energ Fuel, 18, 371, 10.1021/ef0301452

Lyngfelt, 2005, Construction and 100 h of operational experience of a 10-kW chemical-looping combustor, vol. 1

Morin, 2005, Chemical looping combustion of refinery fuel gas with CO2 capture, vol. 1

Mattisson T, García-Labiano F, Kronberger B, Lyngfelt A, Adánez J, Hofbauer H. CO2 capture from coal combustion using chemical-looping combustion. In: Proc 8th Int Conf Greenhouse Gas Control Technologies (GHGT-8). Trondheim, Norway; 2006.

Mattisson, 2007, Chemical-looping combustion using syngas as fuel, Int J Greenhouse Gas Control, 1, 158, 10.1016/S1750-5836(07)00023-0

Ryu HJ, Jin G-T, Yi C-K. Demonstration of inherent CO2 separation and no NOx emission in a 50 kW chemical-looping combustor: Continuous reduction and oxidation experiment. In: Proc 7th Int Conf Greenhouse Gas Control Technology (GHGT-7). Vancouver, Canada; 2004.

Ryu, 2004, Continuous operation of a 50 kWth chemical-looping combustor: long-term operation with Ni- and Co-based oxygen carrier particles, 221

Adánez, 2006, Chemical looping combustion in a 10 kW prototype using a CuO/Al2O3 oxygen carrier: effect of operating conditions on methane combustion, Ind Eng Chem Res, 45, 6075, 10.1021/ie060364l

de Diego, 2007, Operation of a 10 kWth chemical-looping combustor during 200 h with a CuO-Al2O3 oxygen carrier, Fuel, 86, 1036, 10.1016/j.fuel.2006.10.004

Eide, 2009, vol. 3

Pröll, 2009, Demonstration of chemical-looping combustion at relevant operating conditions, vol. 3

Linderholm, 2009, Chemical-looping combustion with natural gas using spray-dried NiO-based oxygen carriers, vol. 3

Adánez, 2009, NiO-based oxygen carriers impregnated on Al2O3-based materials for chemical-looping combustion, vol. 3

García-Labiano, 2009, Effect of fuel gas composition in chemical-looping combustion with Ni-based oxygen carriers. 1. Fate of sulphur, Ind Eng Chem Res, 48, 2499, 10.1021/ie801332z

Adánez, 2009, Effect of fuel gas composition in chemical-looping combustion with Ni-based oxygen carriers. 2. Fate of light hydrocarbons, Ind Eng Chem Res, 48, 2509, 10.1021/ie8013346

Li, 2010, Chemical looping gasification using gaseous fuels

Lyon, 2000, Unmixed combustion: an alternative to fire, Combust Flame, 121, 249, 10.1016/S0010-2180(99)00136-4

Beavis, 2009, Introduction to Cachet. A pre-combustion technology, development program, co-funded by the EU and CCP, vol. 3

Rydén, 2009, Developing chemical looping steam reforming and chemical looping autothermal reforming, vol. 3

Rydén, 2006, Using steam reforming to produce hydrogen with carbon dioxide capture by chemical-looping combustion, Int J Hydrogen Energ, 31, 1271, 10.1016/j.ijhydene.2005.12.003

Fang, 2009, Advancements in development of chemical looping combustion: a review, Int J of Chem Eng, 10.1155/2009/710515

Sanfilippo D, Mizia F, Malandrino A, Rossini S. Process for the production of hydrogen and the coproduction of carbon dioxide. Patent US2005/0232859.

Berguerand, 2008, Design and operation of a 10 kWth chemical-looping combustor for solid fuels - Testing with South African coal, Fuel, 87, 2713, 10.1016/j.fuel.2008.03.008

Berguerand, 2008, The use of petroleum coke as fuel in a 10 kW chemical-looping combustor, Int J Greenhouse Gas Control, 2, 169, 10.1016/j.ijggc.2007.12.004

Beal C, Epple B, Lyngfelt A, Adánez J, Larring Y, Guillemont A, Anheden M. Development of metal oxides chemical looping process for coal–fired power plants. In: Proc 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Mattisson, 2009, Chemical-looping with oxygen uncoupling for combustion of solid fuels, Int J Greenhouse Gas Control, 3, 11, 10.1016/j.ijggc.2008.06.002

Coal direct chemical looping retrofit to pulverized coal power plants for in-situ CO2 capture. Ohio State University. NETL project NT005289.

ALSTOM's chemical looping combustion prototype for CO2 capture from existing pulverized coal-fired power plants. Alstom Power. NETL project NT0005286.

Development of computational approaches for simulation and advanced controls for hybrid combustion-gasification chemical looping. Alstom Power. NETL project NT43095.

Neuschaefer CH, Lou X. Integrated controls design optimization. Alstom Technology Ltd. Patent WO 2009/114309; 2009.

Chiu JH, Andrus HE, Liljedahl GN, Thibeault PR. System for hot solids combustion and gasification. Alstom Technology Ltd. Patent WO 2010/014938; 2010.

Dennis J, Hayhurst A, Scott S. Solid fuel combustion method and apparatus. Cambridge Enterprise Limited. Patent WO 2007/107730; 2007.

Thomas TJ, Fan L, Gupta P, Velázquez-Vargas LG. Combustion looping using composite oxygen carriers. Patent US 2005/0175533; 2005.

Adánez J, de Diego LF, García-Labiano F, Gayán P, Abad A. NiO/Al2O3 oxygen carrier, method for obtaining same and use thereof. CSIC. Patent WO 2009/022046 ; 2009.

Adánez J, de Diego LF, García-Labiano F, Gayán P, Abad A. Solid NiO/Al2O3 oxygen carrier that is useful for methane reforming, method for producing same and applications thereof. CSIC. Patent WO 2009/101233; 2009.

Fan Z, Hack H, Robertson A, Seltzer A. Method of and a plant for combusting carbonaceous fuel by using a solid oxygen carrier. Foster Wheeler Energy Corporation. Patent WO 2009/013647; 2009.

Becue T, Marchand K, Lambert A, Lebas E. Redox active mass for a chemical looping combustion process. IFP. Patent US 2007/0049489; 2007.

Lambert A. Use of a redox mass having a spinel type structure for a looping redox process. IFP. Patent WO 2009/074729; 2009.

Forret A, Pelletant W, Hoteit A. Chemical-looping process for the combustion of heavy liquid hydrocarbon fractions. IFP. Patent WO 2009/138588; 2009.

Lambert A, Gauthier T. Oxidation-reduction active mass and chemical-loop combustion method. IFP. Patent WO 2009/138595; 2009.

Gauthier T, Hoteit A. Method and installation for chemical looping combustion with independent control of the circulation of solids. IFP. Patent WO 2011/007055; 2011.

Cichanowicz JE, Muzio LJ. Rotary regenerative chemical-looping combustion. Patent US 2009/0265978; 2009.

Dahl IM, Blom R. Chemical looping combustion. Sinvent AS. Patent WO 2008/044942; 2008.

Ishida M, Jin H. Chemical-looping combustion power generation plant system. Tokyo Electric Power Co. Patent US 5447024; 1995.

Pröll T, Kolbitsch P, Bolhàr-Nordenkampf J, Hofbauer H. Fluidized-bed reactor system. Technische Universität Wien. Patent WO 2009/021258; 2009.

Pröll T, Kolbitsch P. The present invention relates to a method for producing carbon dioxide and hydrogen from hydrocarbons using chemical looping reforming (CLR). Technische Universität Wien. Patent WO 2010/0099555; 2010.

Wolf J. CO2 mitigation in advanced power cycles – chemical looping combustion and steam-based gasification. PhD Thesis. Stockholm, Sweden: KTH - Royal Institute of technology; 2004.

Brandvoll Ø. Chemical looping combustion—fuel conversion with inherent CO2 capture. PhD thesis. Trondheim, Norway: Norwegian University of Science and Technology (NTNU); 2005.

Cho P. Development and characterization of oxygen-carrier materials for chemical-looping combustion. PhD Thesis. Göteborg, Sweden: Chalmers University of Technology; 2005.

Johansson E. Fluidized-Bed reactor systems for chemical-looping combustion with inherent separation of CO2. PhD Thesis. Göteborg, Sweden: Chalmers University of Technology; 2005.

Kronberger B. Modelling analysis of fluidised bed reactor systems for chemical-looping combustion. PhD Thesis. Vienna, Austria: Vienna University of Technology; 2005.

Luisser M. Chemical looping combustion – Simulation of the fuel oxidation reactor. PhD Thesis. Vienna, Austria: Vienna University of Technology; 2006.

Naqvi R. Analysis of natural gas-fired power cycles with chemical looping combustion for CO2 capture. PhD Thesis. Trondheim, Norway: Norwegian University of Science and Technology (NTNU); 2006.

Celaya J. Combustión de CH4 en lecho fluidizado con separación inherente de CO2 por medio de transportadores sólidos de oxígeno de base cobre. PhD Thesis. Zaragoza, Spain: Universidad de Zaragoza; 2007.

Johansson M. Screening of oxygen-carrier particles based on iron-, manganese- copper- and nickel oxides for use in chemical-looping technologies. PhD Thesis. Göteborg, Sweden: Chalmers University of Technology; 2007.

Zafar Q. Oxygen carrier materials for chemical-looping technologies. PhD Thesis. Göteborg, Sweden: Chalmers University of Technology; 2007.

Leion H. Capture of CO2 from solid fuels using chemical-looping combustion and chemical-looping with oxygen uncoupling. PhD Thesis. Göteborg, Sweden: Chalmers University of Technology; 2008.

Rydén M. Hydrogen production with fossil fuels with carbon dioxide capture, using chemical-looping technologies. PhD Thesis. Göteborg, Sweden: Chalmers University of Technology; 2008.

Bolhàr-Nordenkampf J. Chemical looping for synthesis gas and power generation with CO2 capture - pilot plant study and process modelling. PhD Thesis. Vienna, Austria: Vienna University of Technology; 2009.

Berguerand N. Design and operation of a 10 kWth chemical-looping combustor for solid fuels. PhD Thesis. Göteborg, Sweden: Chalmers University of Technology; 2009.

Kolbitsch P. Chemical looping combustion for 100% carbon capture - Design, operation and modelling of a 120 kW pilot rig. PhD Thesis, Vienna, Austria: Vienna University of Technology; 2009.

Jerndal E. Investigation of nickel- and iron-based oxygen carriers for chemical-looping combustion. PhD Thesis. Göteborg, Sweden: Chalmers University of Technology; 2010.

Dueso C. Chemical looping combustion of gaseous fuels with NiO-based oxygen carriers. PhD Thesis. Zaragoza, Spain: University of Zaragoza; 2011.

Forero CR. Combustión de gas con captura de CO2 mediante transportadores sólidos de oxígeno basados en CuO. PhD Thesis. Zaragoza, Spain: University of Zaragoza; 2011.

Ortiz M. Reformado de metano con transportadores sólidos de oxígeno. "Chemical looping reforming". PhD Thesis. Zaragoza, Spain: Universidad de Zaragoza; 2011.

Linderholm. CO2 capture using Chemical-Looping Combustion – Operational experience with gaseous and solid fuels. PhD Thesis. Göteborg, Sweden: Chalmers University of Technology; 2011.

Lyngfelt A, Johansson M, Mattisson T. Chemical-looping combustion- Status of development. In: Proc 9th Int Conf on circulating fluidized beds (CFB-9). Hamburg, Germany; 2008.

Hossain, 2008, Chemical-looping combustion (CLC) for inherent CO2 separations-a review, Chem Eng Sci, 63, 4433, 10.1016/j.ces.2008.05.028

Brandvoll, 2010

Lyngfelt, 2011, Oxygen carriers for chemical looping combustion - 4000 h of operational experience, Oil Gas Sci Technol, 66, 161, 10.2516/ogst/2010038

Lyngfelt, 2001, A fluidized-bed combustion process with inherent CO2 separation, application of chemical-looping combustion, Chem Eng Sci, 56, 3101, 10.1016/S0009-2509(01)00007-0

Kronberger, 2004, A two-compartment fluidized bed reactor for CO2 capture by chemical-looping combustion, Chem Eng Technol, 27, 1318, 10.1002/ceat.200402137

Kronberger, 2005, Design and fluid dynamic analysis of a bench-scale combustion system with CO2 separation-chemical-looping combustion, Ind Eng Chem Res, 44, 546, 10.1021/ie049670u

Kolbitsch, 2009, Design of a chemical looping combustor using a dual circulating fluidized bed reactor system, Chem Eng Technol, 32, 1, 10.1002/ceat.200800378

Johansson, 2003, Gas leakage measurements in a cold model of an interconnected fluidized bed for chemical-looping combustion, Powder Technol, 134, 210, 10.1016/S0032-5910(03)00125-6

Ryu H-J, Jo S-H, Park Y, Bae DH, Kim S. Long term operation experience in a 50 kWth chemical looping combustor using natural gas and syngas as fuels. In: Proc. 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Son, 2006, Chemical-looping combustion with NiO and Fe2O3 in a thermobalance and circulating fluidized bed reactor with double loops, Ind Eng Chem Res, 45, 2689, 10.1021/ie050919x

Shen, 2009, Chemical-looping combustion of biomass in a 10 kW reactor with iron oxide as an oxygen carrier, Energ Fuel, 23, 2498, 10.1021/ef900033n

Rifflart S, Hoteit A, Yazdanpanah M, Pelletant W, Surla K. Construction and operation of a 10kW CLC unit with circulation configuration enabling independent solid flow control. In: Proc. 10th Int Conf Greenhouse Gas Technology (GHGT-10). Amsterdam, Netherlands; 2010.

Bischi, 2011, Design study of a 150 kWth double loop circulating fluidized bed reactor system for chemical looping combustion with focus on industrial applicability and pressurization, Int J Greenhouse Gas Control, 5, 467, 10.1016/j.ijggc.2010.09.005

Li, 2008, Clean coal conversion processes-progress and challenges, Energ Environ Sci, 1, 248, 10.1039/b809218b

Schwebel GL, Wiedenmann F, Krumm W. Reduction performance of ilmenite and hematite oxygen carriers in the context of a new CLC reactor concept. In: Proc. 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Brandvoll, 2004, Inherent CO2 capture using chemical looping combustion in a natural gas fired power cycle, J Eng Gas Turbines Power - Trans ASME, 126, 316, 10.1115/1.1615251

Wolf J, Anheden M, Yan J. Performance analysis of combined cycles with chemical looping combustion for CO2 capture. In: Proc. 18th Annual Int Pittsburg Coal Conf. New Castle, New South Wales, Australia; 2001: 1122–1139.

Noorman, 2007, Packed bed reactor technology for chemical-looping combustion, Ind Eng Chem Res, 46, 4212, 10.1021/ie061178i

Noorman, 2010, Experimental validation of packed bed chemical-looping combustion, Chem Eng Sci, 65, 92, 10.1016/j.ces.2009.02.004

Scott, 2006, In situ gasification of a solid fuel and CO2 separation using chemical looping, AIChE J, 52, 3325, 10.1002/aic.10942

Brown, 2010, Gasification and chemical looping combustion of a lignite char in a fluidized bed of iron oxide, Energ Fuel, 24, 3034, 10.1021/ef100068m

Dahl, 2009, On the development of novel reactor concepts for chemical looping combustion, Energ Procedia, 1, 1513, 10.1016/j.egypro.2009.01.198

Hakonsem S, Dahl I, Stange M, Spejelkavik A, Blom R. On the development of novel reactor concepts for chemical looping combustion-part 2. In: Proc 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Jerndal, 2006, Thermal analysis of chemical-looping combustion, Chem Eng Res Des, 84, 795, 10.1205/cherd05020

Leion, 2009, Use of ores and industrial products as oxygen carriers in chemical-looping combustion, Energ Fuel, 23, 2307, 10.1021/ef8008629

Abad, 2007, Mapping of the range of operational conditions for Cu-, Fe- and Ni-based oxygen carriers in chemical-looping combustion, Chem Eng Sci, 62, 533, 10.1016/j.ces.2006.09.019

Wolf, 2005, Parametric study of chemical looping combustion for tri-generation of hydrogen, heat, and electrical power with CO2 capture, Int J Energ Res, 29, 739

García-Labiano, 2004, Reduction and oxidation kinetics of a copper-based oxygen carrier prepared by impregnation for chemical-looping combustion, Ind Eng Chem Res, 43, 8168, 10.1021/ie0493311

Kronberger, 2005, Simulation of mass and energy balances of a chemical-looping combustion system, Clean Air, 6, 1

Abad A, Adánez J, de Diego LF, Gayán P, García-Labiano F. Design of chemical–looping combustion systems using syngas — Application of Cu–, Fe– and Ni–based oxygen carriers’ reactivity. In: Proc. Int Conf on Coal Sci and Technol (ICCS&T). Nottingham, UK; 2007.

Kuusik, 2009, High temperature behaviour of NiO-based oxygen carriers for chemical looping combustion, Energ Procedia, 1, 3885, 10.1016/j.egypro.2009.02.191

Abad, 2006, Chemical-looping combustion in a 300 W continuously operating reactor system using a manganese-based oxygen carrier, Fuel, 85, 1174, 10.1016/j.fuel.2005.11.014

Abad, 2007, The use of iron oxide as oxygen carrier in a chemical-looping reactor, Fuel, 86, 1021, 10.1016/j.fuel.2006.09.021

Bolhàr-Nordenkampf, 2009, Comprehensive modeling tool for chemical looping based processes, Chem Eng Technol, 32, 410, 10.1002/ceat.200800568

de Diego, 2004, Development of Cu-based oxygen carriers for chemical-looping combustion, Fuel, 83, 1749, 10.1016/j.fuel.2004.03.003

Ishida, 1996, A novel chemical-looping combustor without NOx formation, Ind Eng Chem Res, 35, 2469, 10.1021/ie950680s

2010

García-Labiano, 2007, Solid waste management of a chemical-looping combustion plant using Cu-based oxygen carriers, Environ Sci Technol, 41, 5882, 10.1021/es070642n

1995

Gayán, 2011, Effect of support on the behaviour of Cu-based oxygen carriers during long-term CLC operation at temperatures above 1073 K, Energ Fuel, 25, 1316, 10.1021/ef101583w

Shulman, 2009, High reactivity and mechanical durability of NiO/NiAl2O4 and NiO/NiAl2O4/MgAl2O4 oxygen carrier particles used for over 1000 hours in a 10 kW CLC reactor, Ind Eng Chem Res, 48, 7400, 10.1021/ie900342f

Linderholm, 2008, 160 h of chemical-looping combustion in a 10 kW reactor system with a NiO-based oxygen-carrier, Int J Greenhouse Gas Control, 2, 520, 10.1016/j.ijggc.2008.02.006

Adánez, 2009, Methane combustion in a 500 Wth chemical-looping combustion system using an impregnated Ni-based oxygen carrier, Energ Fuel, 23, 130, 10.1021/ef8005146

Forero, 2011, CuO- High temperature behaviour of a CuO/γAl2O3 oxygen carrier for chemical-looping combustion, Int J Greenhouse Gas Control, 5, 659, 10.1016/j.ijggc.2011.03.005

Wu J, Shen L, Hao J, Gu H. Chemical looping combustion of coal in a 1 kWth reactor with iron ore as an oxygen carrier. In: Proc. 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Jin, 1998, Development of a novel chemical-looping combustion: synthesis of a looping material with a double metal oxide of CoO-NiO, Energ Fuel, 12, 1272, 10.1021/ef980080g

Adánez J, García-Labiano F, de Diego LF, Gayán P, Celaya J, Abad A. Characterization of oxygen carriers for chemical–looping combustion. In: Proc. 7th Int Conf Greenhouse Gas Control Technology (GHGT-7). Vancouver, Canada; 2004.

Adánez, 2006, Nickel-copper oxygen carriers to reach zero CO and H2 emissions in chemical-looping combustion, Ind Eng Chem Res, 45, 2617, 10.1021/ie050558l

Mattisson, 2006, The use of NiO as an oxygen carrier in chemical-looping combustion, Fuel, 85, 736, 10.1016/j.fuel.2005.07.021

Mattisson, 2008, The reaction of NiO/NiAl2O4 particles with alternating methane and oxygen, Can J Chem Eng, 86, 756, 10.1002/cjce.20083

Jerndal, 2009, Investigation of different NiO/NiAl2O4 particles as oxygen carriers for chemical-looping combustion, Energ Fuel, 23, 665, 10.1021/ef8006596

Gayán, 2008, Effect of support on reactivity and selectivity of Ni-based oxygen carriers for chemical-looping combustion, Fuel, 87, 2641, 10.1016/j.fuel.2008.02.016

Gayán, 2009, NiO/Al2O3 oxygen carriers for chemical-looping combustion prepared by impregnation and deposition-precipitation methods, Fuel, 88, 1016, 10.1016/j.fuel.2008.12.007

Jin, 1999, Development of a novel chemical-looping combustion: synthesis of a solid looping material of NiO/NiAl2O4, Ind Eng Chem Res, 38, 126, 10.1021/ie9803265

Ryu, 2003, Effect of temperature on reduction reactivity of oxygen carrier particles in a fixed bed chemical-looping combustor, Korean J Chem Eng, 20, 960, 10.1007/BF02697306

Cho, 2005, Carbon formation on nickel and iron oxide-containing oxygen carriers for chemical-looping combustion, Ind Eng Chem Res, 44, 668, 10.1021/ie049420d

Corbella, 2005, Characterization study and five-cycle tests in a fixed-bed reactor of titania supported nickel oxide as oxygen carriers for the chemical-looping combustion of methane, Environ Sci Technol, 39, 5796, 10.1021/es048015a

Corbella, 2006, Performance in a fixed-bed reactor of titania-supported nickel oxide as oxygen Carriers for the chemical-looping combustion of methane in multicycle tests, Ind Eng Chem Res, 45, 157, 10.1021/ie050756c

Johansson, 2008, Using continuous and pulse experiments to compare two promising nickel-based oxygen carriers for use in chemical-looping technologies, Fuel, 87, 988, 10.1016/j.fuel.2007.08.010

Rydén, 2008, 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, Int J Greenhouse Gas Control, 2, 21, 10.1016/S1750-5836(07)00107-7

Ishida, 1998, Kinetic behaviour of solid particle in chemical-looping combustion: suppressing carbon deposition in reduction, Energ Fuel, 12, 223, 10.1021/ef970041p

Jin, 2002, Reactivity study on natural-gas-fueled chemical-looping combustion by a fixed-bed reactor, Ind Eng Chem Res, 41, 4004, 10.1021/ie020184l

Hoteit, 2009, Nickel- and copper-based oxygen carriers for chemical looping combustion, Chem Eng Technol, 32, 443, 10.1002/ceat.200800322

Chandel, 2009, Experimental investigation of some metal oxides for chemical looping combustion in a fluidized bed reactor, Fuel, 88, 898, 10.1016/j.fuel.2008.12.006

Chiron F-X, Patience GS, Rifflart S. Kinetic mechanism derived through dosing reactants over NiO, Ni and Ni-C. In: Proc. 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Iliuta, 2010, Chemical–looping combustion process: kinetics and mathematical modeling, AIChE J, 56, 1063, 10.1002/aic.11967

Ryu, 2003, Carbon deposition characteristics and regenerative ability of oxygen carrier particles for chemical-looping combustion, Korean J Chem Eng, 20, 157, 10.1007/BF02697202

de Diego, 2005, Impregnated CuO/Al2O3 oxygen carriers for chemical-looping combustion: avoiding fluidized bed agglomeration, Energ Fuel, 19, 1850, 10.1021/ef050052f

Kolbitsch, 2009, Comparison of two Ni-based oxygen carriers for chemical looping combustion of natural gas in 140 kW continuous looping operation, Ind Eng Chem Res, 48, 5542, 10.1021/ie900123v

Linderholm, 2009, Long-term integrity testing of spray-dried particles in a 10 kW chemical-looping combustor using natural gas as fuel, Fuel, 88, 2083, 10.1016/j.fuel.2008.12.018

Dueso, 2009, Syngas combustion in a chemical-looping combustion system using an impregnated Ni-based oxygen carrier, Fuel, 88, 2357, 10.1016/j.fuel.2008.11.026

de Diego, 2009, Hydrogen production by chemical-looping reforming in a circulating fluidized bed reactor using Ni-based oxygen Carriers, J Power Sources, 192, 27, 10.1016/j.jpowsour.2008.11.038

Cho, 2006, Defluidization conditions for a fluidized bed of iron oxide-, nickel oxide-, and manganese oxide-containing oxygen carriers for chemical-looping combustion, Ind Eng Chem Res, 45, 968, 10.1021/ie050484d

Johansson, 2006, Comparison of oxygen carriers for chemical-looping combustion, Thermal Sci, 10, 93, 10.2298/TSCI0603093J

Mattisson, 2004, Multicycle reduction and oxidation of different types of iron oxide particles- Application to chemical-looping combustion, Energ Fuel, 18, 628, 10.1021/ef0301405

Leion, 2008, The use of ilmenite as an oxygen carrier in chemical-looping combustion, Chem Eng Res Des, 86, 1017, 10.1016/j.cherd.2008.03.019

Cuadrat A, Abad A, Adánez J, de Diego LF, García-Labiano F, Gayán P. Behaviour of ilmenite as oxygen carrier in chemical–looping combustion. In: Proc. 4th Int Conf on Clean Coal Technologies (CCT2009). Dresden, Germany; 2009.

Mattisson, 2003, Reactivity of some metal oxides supported on alumina with alternating methane and oxygen - application for chemical-looping combustion, Energ Fuel, 17, 643, 10.1021/ef020151i

Copeland, 2002, Sorbent energy transfer system (SETS) for CO2 separation with high efficiency, vol. 2, 719

Cho, 2004, Comparison of iron-, nickel-, copper- and manganese-based oxygen carriers for chemical-looping combustion, Fuel, 83, 1215, 10.1016/j.fuel.2003.11.013

Chuang, 2008, Development and performance of Cu-based oxygen carriers for chemical-looping combustion, Combust Flame, 154, 109, 10.1016/j.combustflame.2007.10.005

Chuang, 2009, Kinetics of the chemical looping oxidation of CO by a co-precipitated mixture of CuO and Al2O3, Proc Combust Inst, 32, 2633, 10.1016/j.proci.2008.06.112

Jerndal, 2010, Investigation of NiO/NiAl2O4 oxygen carriers for chemical-looping combustion produced by spray-drying, Int J Greenhouse Gas Control, 4, 23, 10.1016/j.ijggc.2009.09.007

Rydén, 2008, Chemical-looping combustion and chemical-looping reforming in a circulating fluidized-bed reactor using Ni-based oxygen carriers, Energ Fuel, 22, 2585, 10.1021/ef800065m

Linderholm, 2010, Investigation of NiO-based mixed oxides in a 300-W chemical-looping combustor, Chem Eng Res Des, 88, 661, 10.1016/j.cherd.2009.11.004

Shen, 2010, Sulfur behavior in chemical looping combustion with NiO/Al2O3 oxygen carrier, Combust Flame, 157, 853, 10.1016/j.combustflame.2009.11.015

Shen, 2010, Characterization of chemical looping combustion of coal in a 1 kWth reactor with a nickel-based oxygen carrier, Combust Flame, 157, 934, 10.1016/j.combustflame.2009.10.009

Shen, 2009, Reactivity deterioration of NiO/Al2O3 oxygen carrier for chemical looping combustion of coal in a 10 kWth reactor, Combust Flame, 156, 1377, 10.1016/j.combustflame.2009.02.005

Shen, 2009, Experiments on chemical looping combustion of coal with a NiO based oxygen carrier, Combust Flame, 156, 721, 10.1016/j.combustflame.2008.08.004

Johansson, 2006, Combustion of syngas and natural gas in a 300 W chemical-looping combustor, Chem Eng Res Des, 84, 819, 10.1205/cherd05024

Johansson, 2006, Use of NiO/NiAl2O4 particles in a 10 kW chemical-looping combustor, Ind Eng Chem Res, 45, 5911, 10.1021/ie060232s

Ishida, 2002, Experimental results of chemical-looping combustion with NiO/NiAl2O4 particle circulation at 1200 °C, Energ Convers Manage, 43, 1469, 10.1016/S0196-8904(02)00029-8

Kolbitsch, 2010, Operating experience with chemical looping combustion in a 120 kW dual circulating fluidized bed (DCFB) unit, Int J Greenhouse Gas Control, 4, 180, 10.1016/j.ijggc.2009.09.014

Kolbitsch, 2009, Characterization of chemical looping pilot plant performance via experimental determination of solid conversion, Energ Fuel, 23, 1450, 10.1021/ef8008184

Bolhàr-Nordenkampf, 2009, Performance of a NiO-based oxygen carrier for chemical looping combustion and reforming in a 120 kW unit, Energ Procedia, 1, 19, 10.1016/j.egypro.2009.01.005

Pröll, 2009, A novel dual circulating fluidized bed system for chemical looping processes, AIChE J, 55, 3255, 10.1002/aic.11934

Pröll, 2010, Syngas and a separate nitrogen/argon stream via chemical looping reforming- a 140 kW pilot plant study, Fuel, 89, 1249, 10.1016/j.fuel.2009.09.033

Johansson, 2006, 300 W laboratory reactor system for chemical-looping combustion with particle circulation, Fuel, 85, 1428, 10.1016/j.fuel.2006.01.010

Rydén, 2006, Synthesis gas generation by chemical-looping reforming in a continuously operating laboratory reactor, Fuel, 85, 1631, 10.1016/j.fuel.2006.02.004

Rydén, 2009, NiO supported on Mg-ZrO2 as oxygen carrier for chemical-looping combustion and chemical-looping reforming, Energ Environ Sci, 2, 970, 10.1039/b904370e

Ryu H-J, Park J, Lee S-Y, Park M-H. Effect of CO2 concentration on reduction reactivity of oxygen carriers. In: Proc 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Abad, 2010, Modeling of the chemical-looping combustion of methane using a Cu-based oxygen carrier, Combust Flame, 157, 602, 10.1016/j.combustflame.2009.10.010

Forero, 2009, Syngas combustion in a 500 Wth chemical-looping combustion system using an impregnated Cu-based oxygen carrier, Fuel Proc Technol, 90, 1471, 10.1016/j.fuproc.2009.07.001

Forero, 2010, Effect of gas composition in chemical-looping combustion with copper-based oxygen carriers: Fate of sulphur, Int J Greenhouse Gas Control, 4, 762, 10.1016/j.ijggc.2010.04.002

Gayán, 2010, Effect of gas composition in chemical-looping combustion with copper based oxygen carriers: Fate of light hydrocarbons, Int J Greenhouse Gas Control, 4, 13, 10.1016/j.ijggc.2009.09.020

Ortiz M, de Diego LF, Gayán P, Pans MA, García-Labiano F, Abad A, Adánez J. Hydrogen production coupled with CO2 capture by chemical-looping using mixed Fe-Ni oxygen carriers. In: Proc. 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Wang, 2010, Chemical looping combustion of coke oven gas by using Fe2O3/CuO with MgAl2O4 as oxygen carrier, Energ Environ Sci, 3, 1353, 10.1039/b926193a

Cuadrat A, Abad A, García-Labiano F, Gayán P, de Diego LF, Adánez J. The use of ilmenite as oxygen-carrier in a 500 Wth Chemical-Looping Coal Combustion unit. Int J Greenhouse Gas Control 2011, doi:10.1016/j.ijggc.2011.09.010.

Berguerand, 2009, Chemical-looping combustion of petroleum coke using ilmenite in a 10 kWth unit- High-temperature operation, Energ Fuel, 23, 5257, 10.1021/ef900464j

Pröll, 2009, Natural minerals as oxygen carriers for chemical looping combustion in a dual circulating fluidized bed system, Energ Procedia, 1, 27, 10.1016/j.egypro.2009.01.006

Bidwe AR, Mayer F, Hawthorne C, Charitos A, Schuster A, Scheffknecht G. Use of ilmenite as an oxygen carrier in chemical looping combustion-batch and continuous dual fluidized bed investigation. In: Proc 10th Int Conf Greenhouse Gas Technology (GHGT-10). Amsterdam, The Netherlands; 2010.

Ortiz, 2011, Hydrogen production with CO2 capture by coupling steam reforming of methane and chemical-looping combustion: Use of and iron-based waste products as oxygen carrier burning a PSA tail gas, J Power Sources, 196, 4370, 10.1016/j.jpowsour.2010.09.101

Copeland RJ, Alptekin G, Cesario M, Gershanovich Y. A novel CO2 separation system. In: Proc 1st National Conf on Carbon Sequestration. NETL. Washington D.C., USA; 2001.

Villa, 2003, Ni based mixed oxide materials for CH4 oxidation under redox cycle conditions, J Molecular Catal A: Chem, 204-205, 637, 10.1016/S1381-1169(03)00346-7

Sedor, 2008, Reactivity and stability of Ni/Al2O3 oxygen carrier for chemical-looping combustion (CLC), Chem Eng Sci, 63, 2994, 10.1016/j.ces.2008.02.021

Sedor, 2008, Reduction kinetics of a fluidizable nickel-alumina oxygen carrier for chemical-looping combustion, Can J Chem Eng, 86, 323, 10.1002/cjce.20072

Dueso, 2010, Reactivity of a NiO/Al2O3 oxygen carrier prepared by impregnation for chemical-looping combustion, Fuel, 89, 3399, 10.1016/j.fuel.2010.03.043

Hossain, 2007, Co-Ni/Al2O3 oxygen carrier for fluidized bed chemical-looping combustion: Desorption kinetics and metal-support interaction, Chem Eng Sci, 62, 5464, 10.1016/j.ces.2006.12.066

Hossain, 2007, Reactivity and stability of Co-Ni/Al2O3 oxygen carrier in multicycle CLC, AIChE J, 53, 1817, 10.1002/aic.11188

Hossain, 2010, Reduction and oxidation kinetics of Co-Ni/Al2O3 oxygen carrier involved in a chemical-looping combustion cycles, Chem Eng Sci, 65, 98, 10.1016/j.ces.2009.01.059

Hossain, 2009, Nickel on lanthanum-modified γ-Al2O3 oxygen carrier for CLC: reactivity and stability, Catal Today, 143, 179, 10.1016/j.cattod.2008.09.006

Quddus MR, Hossain MM; de Lasa HI. Chemical–looping combustion with Ni-Co/La-γAl2O3 oxygen carrier in a fluidized bed reactor. In: Proc. 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Ishida, 1996, A fundamental study of a new kind of medium material for chemical-looping combustion, Energ Fuel, 10, 958, 10.1021/ef950173n

Ryu, 2001, Oxidation and reduction characteristics of oxygen carrier particles and reaction kinetics by unreacted core model, Korean J Chem Eng, 18, 831, 10.1007/BF02705604

Siriwardane, 2007, Chemical-looping combustion of simulated synthesis gas using nickel oxide oxygen carrier supported on bentonite, Energ Fuel, 21, 1582, 10.1021/ef0604947

Zafar, 2006, Redox investigation of some oxides of transition-state metals Ni, Cu, Fe, and Mn supported on SiO2 and MgAl2O4, Energ Fuel, 20, 34, 10.1021/ef0501389

Jerndal, 2009, NiO particles with Ca and Mg based additives produced by spray-drying as oxygen carriers for chemical-looping combustion, Energ Procedia, 1, 479, 10.1016/j.egypro.2009.01.064

Tian, 2009, Effect of hydrogen sufide on CLC of coal-derived synthesis gas over bentonite-supported metal-oxide oxygen carriers, Ind Eng Chem Res, 48, 8418, 10.1021/ie900638p

Siriwardane, 2009, Chemical-looping combustion of coal with metal oxide oxygen carriers, Energ Fuel, 23, 3885, 10.1021/ef9001605

Cao, 2006, Investigation of chemical looping combustion by solid fuels. 2. Redox reaction kinetics and product characterization with coal, biomass and solid waste as solid fuels and CuO as an oxygen carrier, Energ Fuel, 20, 1845, 10.1021/ef050424k

Rubel, 2009, Oxygen carriers for chemical looping combustion of solid fuels, Fuel, 88, 876, 10.1016/j.fuel.2008.11.006

Roux, 2006, Study and improvement of the regeneration of metallic oxides used as oxygen carriers for a new combustion process, Int J Chem Reactor Eng, 4, A38, 10.2202/1542-6580.1300

Tian, 2008, Chemical-looping combustion of coal-derived synthesis gas over copper oxide oxygen carriers, Energ Fuel, 22, 3744, 10.1021/ef800438x

Abad, 2007, Reduction kinetics of Cu-, Ni- and Fe-based oxygen carriers using syngas (CO+H2) for chemical-looping combustion, Energ Fuel, 21, 1843, 10.1021/ef070025k

Corbella, 2007, Titania-supported iron oxide as oxygen carrier for chemical-looping combustion of methane, Fuel, 86, 113, 10.1016/j.fuel.2006.05.026

Rydén, 2010, Fe2O3 on Ce-, Ca-, or Mg-stabilized ZrO2 as oxygen carrier for chemical-looping combustion using NiO as additive, AIChE J, 56, 2211, 10.1002/aic.12143

Johansson, 2004, Investigation of Fe2O3 with MgAl2O4 for chemical-looping combustion, Ind Eng Chem Res, 43, 6978, 10.1021/ie049813c

García-Labiano, 2006, Effect of pressure on the behaviour of copper-, iron-, and nickel-based oxygen carriers for chemical-looping combustion, Energ Fuel, 20, 26, 10.1021/ef050238e

Zafar, 2005, Integrated hydrogen and power production with CO2 capture using chemical-looping reforming-Redox reactivity of particles of CuO, Mn2O3, NiO, and Fe2O3 using SiO2 as support, Ind Eng Chem Res, 44, 3485, 10.1021/ie048978i

Johansson, 2006, Creating a synergy effect by using mixed oxides of iron- and nickel oxides in the combustion of methane in a chemical-looping combustion reactor, Energ Fuel, 20, 2399, 10.1021/ef060068l

Leion, 2007, The use of petroleum coke as fuel in chemical-looping combustion, Fuel, 86, 1947, 10.1016/j.fuel.2006.11.037

Gao, 2009, Analysis of reactivity of Fe-based oxygen carriers with coal during chemical-looping combustion, J Fuel Chem Technol, 37, 513, 10.1016/S1872-5813(10)60007-2

Dennis, 2006, In situ gasification of coal using steam with chemical looping: a technique for isolating CO2 from burning a solid fuel, J of the Energy Institute, 79, 187, 10.1179/174602206X117814

Stobbe, 1999, The reduction and oxidation behaviour of manganese oxides, Catal Today, 47, 161, 10.1016/S0920-5861(98)00296-X

Zafar, 2007, Reduction and oxidation kinetics of Mn3O4/Mg-ZrO2 oxygen carrier particles for chemical-looping combustion, Chem Eng Sci, 62, 6556, 10.1016/j.ces.2007.07.011

Johansson M, Mattisson T, Lyngfelt A. Comparison of oxygen carriers for chemical-looping combustion of methane-rich fuels. In: Proc. 19th Int Conf on FBC. Vienna, Austria; 2006.

Johansson, 2006, Investigation of Mn3O4 with stabilized ZrO2 for chemical-looping combustion, Chem Eng Res Des, 84, 807, 10.1205/cherd.05206

Mattisson T, Johansson M, Lyngfelt A. CO2 capture from coal combustion using chemical-looping combustion- Reactivity investigation of Fe, Ni and Mn based oxygen carriers using syngas. In: Proc of the Clearwater Clean Coal Conf. Clearwater, Florida, USA; 2006.

Ryu H-J, Seo Y, Jin G-T. Development of chemical-looping combustion technology: Long-term operation of a 50 kWth chemical-looping combustor with Ni- and Co-based oxygen carrier particles. In: Proc. of the Regional Symp on Chem Eng. Hanoi, Vietnam; 2005.

Lambert A, Briault P, Comte E. Spinel mixed oxides as oxygen carriers for chemical looping combustion. In: Proc 10th Int Conf Greenhouse Gas Technology (GHGT-10). Amsterdam, The Netherlands; 2010.

Hoteit, 2009, Biogas combustion in a chemical looping fluidized bed reactor, Int J Greenhouse Gas Control, 3, 561, 10.1016/j.ijggc.2009.04.003

Rifflart S, Lambert A, Delebarre A, Salmi J, Durand B, Carpentier S. CLCMAT project – material development for "chemical looping combustion". In: Proc 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Lambert, 2009, Synthesis and characterization of bimetallic Fe/Mn oxides for chemical looping combustion, Energ Procedia, 1, 375, 10.1016/j.egypro.2009.01.051

Ksepko E, Siriwardane RV, Tian H, Simonyi T, Poston JA, Zinn A, Sciazko M. Effect of H2S on chemical looping combustion of coal derived synthesis gas over Fe2O3-MnO2 supported on ZrO2/sepiolite. In: Proc. 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Shulman, 2009, Manganese/iron, manganese/nickel, and manganese/silicon oxides used in chemical looping with oxygen uncoupling (CLOU) for combustion of methane, Energ Fuel, 23, 5269, 10.1021/ef9005466

Lagerbom J, Pikkarainen T, Kanerva U, Moilanen A, Koskinen P, Saastamoinen J, et al. Characteristics of various new oxygen carriers for CLC. In: Proc 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Rydén, 2010, Ilmenite with addition of NiO as oxygen carrier for Chemical-Looping Combustion, Fuel, 89, 3523, 10.1016/j.fuel.2010.06.010

Rydén, 2009, Waste products from the steel industry with NiO as additive as oxygen carrier for chemical-looping combustion, Int J of Greenhouse Gas Control, 3, 693, 10.1016/j.ijggc.2009.09.011

Readman, 2005, La0.8Sr0.2Co0.2Fe0.8O3-δ as a potential oxygen carrier in a chemical looping type reactor, an in-situ powder X-ray diffraction study, J Mater Chem, 15, 1931, 10.1039/b416526h

Nalbandian L, Evdou A, Zaspalis V. La1-xSrxMyFe1-yO3-δ perovskites as oxygen-carrier materials for chemical-looping reforming. In: Proc. 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Leion, 2009, Use of CaMn0.875Ti0.125O3 as oxygen carrier in chemical looping with oxygen uncoupling, Energ Fuel, 23, 5276, 10.1021/ef900444d

Rydén, 2011, CaMn0.875Ti0.125O3 as oxygen carrier for chemical oxygen combustion with oxygen uncoupling (CLOU) – Experiments in a continuously operating fluidized-bed reactor system, Int J of Greenhouse Gas Control, 5, 356, 10.1016/j.ijggc.2010.08.004

Cao, 2006, Investigation of chemical looping combustion by solid fuels. 1. Process analysis, Energ Fuel, 20, 1836, 10.1021/ef050228d

Fossdal, 2011, Study of inexpensive oxygen carriers for chemical looping combustion, Int J Greenhouse Gas Control, 5, 483, 10.1016/j.ijggc.2010.08.001

Azis, 2010, On the evaluation of synthetic and natural ilmenite using syngas as fuel in chemical-looping combustion (CLC), Chem Eng Res Des, 88, 1505, 10.1016/j.cherd.2010.03.006

Schwebel G, Hein D, Krumm W. Performance tests of ilmenite mineral as oxygen carrier in a laboratory fixed bed reactor-first step in developing a new technical approach of implementing chemical looping combustion. In: Proc. 4th Int Conf on Clean Coal Technologies (CCT2009). Dresden, Germany; 2009.

Leion, 2009, Solid fuels in chemical–looping combustion using oxide scale and unprocessed iron ore as oxygen carriers, Fuel, 88, 1945, 10.1016/j.fuel.2009.03.033

Adánez, 2010, Ilmenite activation during consecutive redox cycles in chemical–looping combustion, Energ Fuel, 24, 1402, 10.1021/ef900856d

Leion, 2008, Solid fuels in chemical-looping combustion, Int J Greenhouse Gas Control, 2, 180, 10.1016/S1750-5836(07)00117-X

Mattisson, 2001, The use of iron oxide as an oxygen carrier in chemical-looping combustion of methane with inherent separation of CO2, Fuel, 80, 1953, 10.1016/S0016-2361(01)00051-5

Xiao, 2010, Pressurized chemical-looping combustion of coal with an iron ore-based oxygen carrier, Combust Flame, 157, 1140, 10.1016/j.combustflame.2010.01.007

Xiao, 2010, Pressurized chemical-looping combustion of chinese bituminous coal: cyclic performance and characterization of iron ore-based oxygen carrier, Energ Fuel, 24, 1449, 10.1021/ef901070c

Song Q, Xiao R, Zhang S, Zheng W, Yang Y, Shen L. Effect of pressure on chemical–looping combustion of coal with iron ore as oxygen carrier. In: Proc. 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Song, 2009, Reactivity of a CaSO4–oxygen carrier in chemical–looping combustion of methane in a fixed bed reactor, Korean J Chem Eng, 23, 592, 10.1007/s11814-009-0101-2

Tian, 2009, Investigation into the behaviour of reductive decomposition of calcium sulphate by carbon monoxide in chemical-looping combustion, Ind Eng Chem Res, 48, 5624, 10.1021/ie900089m

Xiao R, Song QL, Zheng WG, Deng ZY, Shen LH, Zhang MY. Reduction kinetics of a CaSO4 based oxygen carrier for chemical–looping combustion. In: Proc. 20th Int Conf on Fluidized Bed Combustion. Xian, China; 2009: 519–26.

Song, 2008, Effect of temperature on reduction of CaSO4 of simulated coal gas in a fluidized bed reactor, Ind Eng Chem Res, 47, 8148, 10.1021/ie8007264

Song, 2008, Chemical-looping combustion of methane with CaSO4 oxygen carrier in a fixed bed reactor, Energ Convers Manage, 49, 3178, 10.1016/j.enconman.2008.05.020

Song, 2008, Multicycle study on chemical-looping combustion of simulated coal gas with a CaSO4 oxygen carrier in a fluidized bed reactor, Energ Fuel, 22, 3661, 10.1021/ef800275a

Jing, 2010, Thermodynamic and kinetic analysis of Ca–based oxygen carrier in chemical–looping combustion, Int J of Chem Reactor Eng, 8, A46, 10.2202/1542-6580.2217

Wang, 2008, Clean combustion of solid fuels, Appl Energ, 85, 73, 10.1016/j.apenergy.2007.07.002

Andrus HE, Chiu JH, Thiebeault PR, Brautsch A. Alstom's calcium oxide chemical looping combustion coal power technology development. In: Proc. 34th Int Tech Conf on Clean Coal & Fuel Systems. Clearwater, Florida, USA; 2009.

Zheng, 2010, Reduction of CaSO4 oxygen carrier with coal in chemical–looping combustion: effects of temperature and gasification intermediate, Int J Greenhouse Gas Control, 4, 716, 10.1016/j.ijggc.2010.04.016

Tian, 2008, Investigation into decomposition behaviour of CaSO4 in chemical-looping combustion, Energ Fuel, 22, 3915, 10.1021/ef800508w

Shen, 2008, A mechanistic investigation of a calcium-based oxygen carrier for chemical looping combustion, Combust Flame, 154, 489, 10.1016/j.combustflame.2008.04.017

Forret A, Hoteit A.. Gauthier, T. Chemical looping combustion process applied to liquid fuels. In: Proc. 4th European combustion meeting. Vienna, Austria; 2009: 235. Paper P810025.

Hebden, 1981, Coal Gasification Processes

Sass, 2005, Impact of SOx and NOx in Flue Gas on CO2 separation, compression, and pipeline transmission, vol. 2

Bryant, 2005, Effect of impurities on subsurface CO2 storage processes, vol. 2

Pipitone, 2009, Power generation with CO2 capture: Technology for CO2 purification, Int J Greenhouse Gas Control, 3, 528, 10.1016/j.ijggc.2009.03.001

Wang, 2008, Thermodynamic investigation of carbon deposition and sulphur evolution in chemical looping combustion with syngas, Energ Fuel, 22, 1012, 10.1021/ef7005673

Olafsen, 2006, Light alkanes CO2 reforming to synthesis gas over Ni based catalysts, Catal Today, 115, 179, 10.1016/j.cattod.2006.02.053

Middleton, 2005, GRACE: Pre-combustion de-carbonisation hydrogen membrane study, vol. 1

Fout T. Oxy-combustion: research, development and system analysis. In: Proc 3rd meeting of the oxy-fuel combustion network. Yokohama, Japan; 2008.

Eide, 2005, Novel Capture Processes, Oil Gas Sci Technol, 60, 497, 10.2516/ogst:2005031

Jin, 2004, A new type of coal gas fuelled chemical-looping combustion, Fuel, 83, 2411, 10.1016/j.fuel.2004.06.033

Xiang, 2008, Investigation of gasification chemical looping combustion combined cycle performance, Energ Fuel, 22, 961, 10.1021/ef7007002

Abad, 2011, Reaction kinetics of ilmenite for chemical-looping combustion, Chem Eng Sci, 66, 689, 10.1016/j.ces.2010.11.010

Anheden, 1998, Exergy analysis of chemical-looping combustion systems, Energ Convers Manage, 39, 1967, 10.1016/S0196-8904(98)00052-1

Shen, 2007, Chemical looping combustion of coal in interconnected fluidized beds, Science in China Series E: Technol Sci, 50, 230, 10.1007/s11431-007-0019-z

Yang, 2007, Reduction of iron oxide as an oxygen carrier by coal pyrolysis and steam char gasification intermediate products, Energy Fuel, 21, 3360, 10.1021/ef7002377

Fillman B, Anheden M, Wolf J. Parameter study in order to reveal critical design issues in the design for a CLC power plant using solid carbon as fuel. In: Proc. 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Morin JX, Béal C, Suraniti S. 455 MWe CLC boiler/plant feasibility report and recommendations for the next step. Public Summary Report of ENCAP deliverable D4.2.4. Available in: www.encapco2.org.

Hossain MM, Quddus MR, Salaices E, de Lasa HI. Gasification of biomass and CO2 capture using chemical–looping combustion. In: Proc. 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Dennis, 2010, In situ gasification of a lignite coal and CO2 separation using chemical looping with a Cu–based oxygen carrier, Fuel, 89, 1623, 10.1016/j.fuel.2009.08.019

Cuadrat A, Abad A, Adánez J, de Diego LF, García-Labiano F, Gayán P. Performance of ilmenite as oxygen carrier for chemical looping combustion using coal as fuel. In: Proc. 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Dennis, 2010, In situ gasification and CO2 separation using chemical looping with a Cu-based oxygen carrier: Performance with bituminous coals, Fuel, 89, 2353, 10.1016/j.fuel.2010.01.037

Zhao, 2008, Sol-gel-derived NiO/NiAl2O4 oxygen carriers for chemical-looping combustion by coal char, Energ Fuel, 22, 898, 10.1021/ef7003859

Siriwardane, 2010, Evaluation of reaction mechanism of coal-metal oxide interactions in chemical–looping combustion, Combust Flame, 157, 2198, 10.1016/j.combustflame.2010.06.008

Johnson, 1981, Fundamentals of coal gasification

Leion H, Lyngfelt A, Mattisson T. Effects of steam and CO2 in the fluidizing gas when using bituminous coal in chemical–looping combustion. In: Proc. 20th Int Conf on Fluidized Bed Combustion. Xian, China; 2009: 608–11.

Leion, 2011, Chemical-looping of solid fuels in a laboratory fluidized-bed reactor, Oil Gas Sci Technol, 66, 201, 10.2516/ogst/2010026

Berguerand, 2010, Batch testing of solid fuels with ilmenite in a 10 kWth chemical-looping combustor, Fuel, 89, 1749, 10.1016/j.fuel.2010.03.055

Berguerand, 2011, Chemical–looping combustion of solid fuels in a 10 kWth unit, Oil Gas Sci Technol, 66, 181, 10.2516/ogst/2010023

Müller CR, Brown TA, Bohn CD, Chuang SY, Cleeton JPE, Scott SA, et al. Experimental investigation of two modified chemical looping combustion cycles using syngas from cylinders and the gasification of solid fuels. Proc. 20th Int Conf on Fluidized Bed Combustion. Xian, China; 2009: 590–5.

Gao, 2008, Use of coal as fuel for chemical-looping combustion with Ni-based oxygen carrier, Ind Eng Chem Res, 47, 9279, 10.1021/ie800850p

Leion, 2009, Solid fuels in chemical–looping combustion using a NiO–based oxygen carrier, Chem Eng Res Des, 87, 1543, 10.1016/j.cherd.2009.04.003

Berguerand, 2009, Operation in a 10 kWth chemical-looping combustor for solid fuel-Testing with a Mexican petroleum coke, Energ Procedia, 1, 407, 10.1016/j.egypro.2009.01.055

Jerndal, 2011, Using low–cost iron–based materials as oxygen carriers for chemical–looping combustion, Oil Gas Sci Technol, 66, 235, 10.2516/ogst/2010030

Rubel, 2011, Effect of ash on oxygen carriers for the application of chemical looping combustion to a high carbon char, Oil Gas Sci Technol, 66, 291, 10.2516/ogst/2010024

Leion, 2009, Using chemical-looping with oxygen uncoupling (CLOU) for combustion of six different solid fuels, Energy Procedia, 1, 447, 10.1016/j.egypro.2009.01.060

Mattisson, 2009, Chemical-looping with oxygen uncoupling using CuO/ZrO2 with petroleum coke, Fuel, 88, 683, 10.1016/j.fuel.2008.09.016

Eyring, 2011, Chemical looping with copper oxide as carrier and coal as fuel, Oil Gas Sci Technol, 66, 209, 10.2516/ogst/2010028

Adánez-Rubio I, Gayán P, García-Labiano F, de Diego LF, Adánez J, Abad A. Development of CuO-based oxygen carrier materials suitable for chemical-looping with oxygen uncoupling (CLOU). In: Proc 10th Int Conf Greenhouse Gas Technology (GHGT-10). Amsterdam, The Netherlands; 2010.

Adánez-Rubio I, Gayán P, Abad A, García-Labiano F, de Diego LF, Adánez J. CO2 capture in coal combustion by chemical-looping with oxygen uncoupling (CLOU) with a Cu-based oxygen-carrier. In: Proc. 5th Int Conf on Clean Coal Technologies (CCT2011). Zaragoza, Spain; 2011.

Azimi G, Leion H, Mattisson T, Lyngfelt A. Chemical-looping with oxygen uncoupling using combined Mn-Fe oxides, testing in batch fluidized bed. In: Proc 10th Int Conf Greenhouse Gas Technology (GHGT-10). Amsterdam, The Netherlands; 2010.

Rydén M, Lygfelt A, Mattisson T. Combined manganese/iron oxides as oxygen carrier for chemical-looping combustion with oxygen uncoupling (CLOU) in a circulating fluidized bed reactor system. In: Proc 10th Int Conf Greenhouse Gas Technology (GHGT-10). Amsterdam, The Netherlands; 2010.

Rydén M, Lyngfelt A, Mattisson T. Two novel approaches for hydrogen production, chemical-looping reforming and steam reforming with carbon dioxide capture by chemical-looping combustion. In: Proc. 16th World Hydrogen Energy Conf (WHEC). Lyon, France; 2006.

Ortiz M, Abad A, de Diego LF, García-Labiano F, Gayán P, Adánez J. Optimization of hydrogen production by Chemical-Looping auto-thermal Reforming working with Ni-based oxygen-carriers. Int J Hyd Energ 2011, doi:10.1016/j.ijhydene.2011.05.025.

Mattisson T, Lyngfelt A. Applications of chemical-looping combustion with capture of CO2. In: Proc. 2nd Nordic Minisymposium on Carbon Dioxide Capture and Storage. Göteborg, Sweden; 2001.

Mattisson T, Zafar Q, Lyngfelt A, Gevert B. Integrated hydrogen and power production from natural gas with CO2 capture. In: Proc 15th World Hydrogen Energy Conf (WHEC). Yokohama, Japan; 2004.

de Diego, 2008, Synthesis gas generation by chemical-looping reforming in a batch fluidized bed reactor using Ni-based oxygen Carriers, Chem Eng J, 144, 289, 10.1016/j.cej.2008.06.004

Ortiz, 2010, Hydrogen production by auto-thermal chemical-looping reforming in a pressurised fluidized bed reactor using Ni-based oxygen carriers, Int J Hydrogen Energ, 35, 151, 10.1016/j.ijhydene.2009.10.068

Mattisson, 2009, Chemical-looping combustion CO2 ready gas power, Energy Procedia, 1, 1557, 10.1016/j.egypro.2009.01.204

Ryu H-J, Shun D, Jin G-T, Yi C-K. 2010b. Development of novel two–interconnected fluidized bed system for chemical looping combustion. In: Proc. 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Ströhle J, Orth M, Epple B. Simulation of the fuel reactor of a 1 MWth chemical looping plant for coal. In: Proc. 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Assink, 2009, Chemical looping combustion (CLC) technology summary, vol. 3

Kolbitsch, 2009, Modeling of a 120 kW chemical looping combustion reactor system using a Ni-based oxygen carrier, Chem Eng Sci, 64, 99, 10.1016/j.ces.2008.09.014

Adánez J, García-Labiano F, de Diego LF, Plata A, Celaya J, Gayán P, Abad A. Optimizing the fuel reactor for chemical looping combustion. In: Proc. 17th Int Conf on Fluidized Bed Combustion. Jacksonville, Florida, USA; 2003.

García-Labiano, 2003, Simulation of the reactor behavior for chemical looping combustion Systems, 233

Kronberger, 2005, Chemical-looping combustion - reactor fluidization studies and scale-up criteria, vol. 1

Xu M, Ellis N, Ryu H-J, Lim CJ. Modeling of an interconnected fluidized bed reactor for chemical looping combustion. In: Proc. of the 2007 ECI Conference on The 12th Int Conf on Fluidization – New horizons in fluidization engineering. Vancouver, Canada; 2007. Paper 113.

Abad A, Adánez J, García-Labiano F, de Diego LF, Gayán P, Kolbitsch P, Pröll T. CLC Modeling the fuel reactor at fast fluidization - Conversion of CH4 using a NiO-based oxygen carrier in a 120 kWth unit. In: Proc. 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Pavone D, Rolland M, Lebas E. CO2 capture using chemical looping combustion for gas turbine application. In: Proc. 8th Int Conf Greenhouse Gas Control Technologies (GHGT-8). Trondheim, Norway; 2006.

Pavone D. CO2 capture by means of chemical looping combustion. In: Proc. of the COMSOL Multiphysics User’s Conference. Paris, France; 2005.

Deng, 2008, Multiphase CFD modelling for a chemical looping combustion process (Fuel reactor), Chem Eng Technol, 31, 1754, 10.1002/ceat.200800341

Deng, 2009, Numerical simulation of chemical looping combustion process with CaSO4 oxygen carrier, Int J Greenhouse Gas Control, 3, 368, 10.1016/j.ijggc.2008.11.004

Jin, 2009, Computational fluid dynamics modeling of chemical looping combustion process with calcium sulphate oxygen carrier, Int J Chem Reactor Eng, 7, A19, 10.2202/1542-6580.1786

Jung, 2008, Multiphase CFD-based models for chemical looping combustion process: Fuel reactor modelling, Powder Technol, 183, 401, 10.1016/j.powtec.2008.01.019

Shuai, 2011, Hydrodynamic simulation of fuel-reactor in chemical looping combustion process, Chem Eng Res Des, 89, 1501, 10.1016/j.cherd.2010.11.002

Cloete S, Johanse ST, Amini S. Multiphase CFD–based models for a chemical looping combustion process. In: Proc. 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Kruggel-Emden, 2010, Development and testing of an interconnected multiphase CFD-model for chemical-looping combustion, Chem Eng Sci, 65, 4732, 10.1016/j.ces.2010.05.022

Mahalatkar, 2011, Simulations of a circulating fluidized bed chemical looping combustion system utilizing gaseous fuel, Oil Gas Sci Technol, 66, 301, 10.2516/ogst/2010021

Mahalatkar, 2011, Computational fluid dynamic simulations of chemical looping fuel reactors utilizing gaseous fuels, Chem Eng Sci, 66, 469, 10.1016/j.ces.2010.11.003

Mahalatkar, 2009, Simulation of the fuel reactor of a coal–fired chemical looping combustor. Powders and Grains, 83

Mahalatkar K, O’Brien T, Huckaby ED, Kuhlman J. Computational fluid dynamic simulation of the fuel reactor of a coal–fired chemical looping combustor. In: Proc. 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Kunii, 1990, Fluidized reactor models. 1. For bubbling beds of fine, intermediate, and large particles. 2. For the lean phase: freeboard and fast fluidization, Ind Eng Chem Res, 29, 1226, 10.1021/ie00103a022

Pallarès, 2006, Macroscopic modelling of fluid dynamics in large-scale circulating fluidized beds, Prog Energ Combust Sci, 32, 539, 10.1016/j.pecs.2006.02.002

Adánez, 2003, Combustion of wood chips in a CFBC. Modeling and validation, Ind Eng Chem Res, 42, 987, 10.1021/ie020605z

Shah S, Klajny M, Myöhänen K, Hyppänen T. Improvement of CFD methods for modeling full scale circulating fluidized bed combustion systems. In: Proc. 20th Int Conf on Fluidized Bed Combustion. Xian, China; 2009: 792–8.

Blaser P, Chandran R. Computational simulation of fluidization dynamics inside a commercial biomass gasifier. In: Proc. of the 2009 AIChE Annual Meeting. Nashville, TN, USA; 2009.

Snider D, Clark S. CPFD Eulerian–lagrangian method for three dimensional thermal reacting flow - an example of a syngas gasifier. In: Proc. of the 2009 AIChE Annual Meeting. Nashville, TN, USA; 2009.

Snider D, Guenther C, Dalton J, Williams K. CPFD eulerian–lagrangian numerical scheme applied to the NETL bench–top chemical looping experiment. In: Proc. 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Shuai, 2011, Fluid dynamic simulation in a chemical looping combustion with two interconnected fluidized beds, Fuel Process Technol, 92, 385, 10.1016/j.fuproc.2010.09.032

Shuai, 2011, Fluid dynamic simulation in a chemical looping combustion with two interconnected fluidized beds, Fuel Proc Technol, 92, 385, 10.1016/j.fuproc.2010.09.032

He, 2007, Application of Fe2O3/Al2O3 composite particles as oxygen carrier of chemical looping combustion, J Natural Gas Chem, 16, 155, 10.1016/S1003-9953(07)60041-3

Dewaele, 1999, TAP study of the mechanism and kinetics of the adsorption and combustion of methane on Ni/Al2O3 and NiO/Al2O3, J Catal, 184, 499, 10.1006/jcat.1999.2473

Szekely, 1976

Dey, 1993, Kinetics and reduction characteristics of hematite–noncoking coal mixed pellets under nitrogen gas atmosphere, ISIJ Int, 33, 735, 10.2355/isijinternational.33.735

Donskoi, 2003, Estimation and modeling of parameters for direct reduction in iron ore/coal composites: part II. Kinetic parameters, Metal Mater Trans B, 34B, 255, 10.1007/s11663-003-0012-2

Sohn, 2005, The reduction of iron oxides by volatiles in a rotary hearth furnace process: part I. the role and kinetics of volatile reduction, Metal Mater Trans B, 36B, 605, 10.1007/s11663-005-0051-y

Siriwardane R, Tian H, Miller D, Richards G, Simonyi T, Poston J. Investigation on reaction mechanism of chemical–looping combustion of coal utilizing oxygen carriers. In: Proc. 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Szekely, 1973, A structural model for gas–solid reactions with a moving boundary — V an experimental study of the reduction of porous nickel–oxide pellets with hydrogen, Chem Eng Sci, 28, 1975, 10.1016/0009-2509(73)85042-0

Georgakis, 1979, A changing grain size model for gas–solid reactions, Chem Eng Sci, 34, 1072, 10.1016/0009-2509(79)80012-3

García-Labiano, 2005, Temperature variations in the oxygen carrier particles during their reduction and oxidation in a chemical-looping combustion system, Chem Eng Sci, 60, 851, 10.1016/j.ces.2004.09.049

Erri, 2009, Diffusional effects in nickel oxide reduction kinetics, Ind Eng Chem Res, 48, 4, 10.1021/ie071588m

Carberry, 1987

Zafar, 2007, Reaction kinetics of freeze-granulated NiO/MgAl2O4 oxygen carrier particles for chemical-looping combustion, Energ Fuel, 21, 610, 10.1021/ef060450y

Readman, 2006, Chemical looping combustion using NiO/NiAl2O4: mechanisms and kinetics of reduction-oxidation (Red-ox) reactions from in situ powder X-ray diffraction and thermogravimetry experiments, Energ Fuel, 20, 1382, 10.1021/ef0504319

Wolf, 2005, Comparison of nickel- and iron-based oxygen carriers in chemical looping combustion for CO2 capture in power generation, Fuel, 84, 993, 10.1016/j.fuel.2004.12.016

Moghtaderi, 2010, Reduction properties of physically mixed metallic oxide oxygen carriers in chemical looping combustion, Energ Fuel, 24, 5359, 10.1021/ef1006963

Chuang, 2010, Kinetics of the oxidation of a coprecipitated mixture of Cu and Al2O3 by O2 for chemical-looping combustion, Energ Fuel, 24, 3917, 10.1021/ef1002167

Chuang, 2011, Kinetics of the chemical looping oxidation of H2 by a co-precipitated mixture of CuO and Al2O3, Chem Eng Res Des, 89, 1511, 10.1016/j.cherd.2010.08.003

Bohn CD, Cleeton JP, Müller CM, Scott SA, Dennis JS. Measuring the kinetics of the reduction of iron oxide with carbon monoxide in a fluidized bed. In: Proc. 20th Int Conf on Fluidized Bed Combustion. Xian, China; 2009: 555–561.

Hoteit, 2011, Chemical looping combustion with different types of liquid fuels, Oil Gas Sci Technol, 66, 193, 10.2516/ogst/2010022

Bandrowski, 1962, Kinetics of the reduction of nickel oxide by hydrogen, Chem Eng Sci, 17, 379, 10.1016/0009-2509(62)80039-6

Chadda, 1989, Chemical energy storage by the reaction cycle CuO/Cu2O, Int J Energ Res, 13, 63, 10.1002/er.4440130107

Jin, 2001, Reactivity study on a novel hydrogen fueled chemical-looping combustion, Int J Hydrogen Energ, 26, 889, 10.1016/S0360-3199(01)00015-5

Cuadrat A, Abad A, Gayán P, de Diego LF, García-Labiano F, Adánez J. Theoretical approach on the chemical-looping combustion performance with solid fuels: optimizing the solids inventory. In: Proc. Int Conf on Coal Sci & Technol, (ICCS&T2011). Oviedo, Spain; 2011.

Pröll, 2009, Cold flow model study on a dual circulating fluidized bed system for chemical looping processes, Chem Eng Technol, 32, 1, 10.1002/ceat.200800521

Xu, 2009, Mapping of the operating conditions for an interconnected fluidized bed reactor for CO2 separation by chemical looping combustion, Chem Eng Technol, 3, 404, 10.1002/ceat.200800565

Andrus HE, Chiu JH, Thibeault PR. Alstom’s chemical looping combustion coal power technology development prototype. In: Proc. 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Cheung JT, Ellis N, Lim CJ. Status of CLC at the University of British Columbia. In: Proc. 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Yazdanpanah, 2011, Experimental investigations on a novel chemical looping combustion configuration, Oil Gas Sci Technol, 66, 265, 10.2516/ogst/2010025

Naqvi R, Bolland O, Wolf J. Off–design evaluation of a natural gas fired chemical looping combustion combined cycle with CO2 capture. In: Proc. of ECOS 2005. Trondheim, Norway; 2005.

Naqvi, 2007, Part-load analysis of a chemical looping combustion (CLC) combined cycle with CO2 capture, Energ, 32, 360, 10.1016/j.energy.2006.07.011

Chi, 2010, Off–design performance of a chemical looping combustion (CLC) combined cycle: effects of ambient temperature, J Thermal Sci, 19, 87, 10.1007/s11630-010-0087-4

Balaji, 2010, Control–based modelling and simulation of the chemical–looping combustion process, Ind Eng Chem Res, 49, 4566, 10.1021/ie901540m

Kvamsdal, 2007, A quantitative comparison of gas turbine cycles with CO2 capture, Energ, 32, 10, 10.1016/j.energy.2006.02.006

Naqvi R, Bolland O, Brandvoll O, Helle K. Chemical looping combustion- Analysis of natural gas fired power cycles with inherent CO2 capture. In: Proc. of ASME Turbo Expo. Vienna, Austria; 2004.

Zhang, 2009, A chemical intercooling gas turbine cycle with chemical-looping combustion, Energ, 34, 2131, 10.1016/j.energy.2008.09.014

Yu, 2003, Analysis of the sorbent energy transfer system (SETS) for power generation and CO2 capture, Adv Environ Res, 7, 335, 10.1016/S1093-0191(02)00003-5

Consonni, 2006, Chemical-looping combustion for combined cycles with CO2 capture, J Eng for Gas Turbines and Power, 128, 525, 10.1115/1.1850501

Naqvi, 2007, Multi-stage chemical looping combustion (CLC) for combined cycles with CO2 capture, Int J Greenhouse Gas Control, 1, 19, 10.1016/S1750-5836(07)00012-6

Rezvani, 2009, Comparative assessment of coal fired IGCC systems with CO2 capture using physical absorption, membrane reactors and chemical looping, Fuel, 88, 2463, 10.1016/j.fuel.2009.04.021

Ishida, 2001, Fundamental study on a novel gas turbine cycle, J Energ Resources Technol, 123, 10, 10.1115/1.1345891

Lee, 2005, Redox characteristics of various kinds of oxygen carriers for hydrogen fuelled chemical-looping combustion, J Ind Eng Chem, 11, 96

Ishida, 1997, CO2 recovery in a power plant with chemical looping combustion, Energ Convers Manage, 38, 187, 10.1016/S0196-8904(96)00267-1

Baek, 2011, Effects of support on the performance of NiO-based oxygen carriers, Oil Gas Sci Technol, 66, 223, 10.2516/ogst/2011003

Baek J-I, Ryu CK, Kim J-W, Ryu J, Lee JB, Eom T-H, Yi J. Spray-dried NiO oxygen carrier with highly attrition resistance. In: Proc 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Johansson M, Mattisson T, Lyngfelt A. Comparison of oxygen carriers for chemical looping combustion. In: Int Symp: moving towards zero emission plants (CERTH/ISTFA). Leptokarya Piera, Greece; 2005.

Solunke, 2009, Nanocomposite oxygen carriers for chemical looping combustion of sulfur-contaminated synthesis gas, Energ Fuel, 23, 4787, 10.1021/ef900280m

Ryu, 2009, Syngas combustion characteristics of four oxygen carrier particles for chemical looping combustion in a batch fluidized bed reactor, Korean J Chem Eng, 26, 523, 10.1007/s11814-009-0089-7

Song, 2003, Characteristics of the NiO/Hexaaluminate for chemical looping combustion, Korean J Chem Eng, 20, 471, 10.1007/BF02705550

Erri, 2007, Spinel-supported oxygen carriers for inherent CO2 separation during power generation, Ind Eng Chem Res, 46, 8597, 10.1021/ie070068o

Erri, 2007, Solution combustion synthesized oxygen carriers for chemical looping combustion, Chem Eng Sci, 62, 5682, 10.1016/j.ces.2007.01.015

Snijkers F, Jerndal E, Thijs I, Mattisson T, Lyngfelt A. Preparation of oxygen carriers for chemical looping combustion by industrial spray drying method. In: Proc 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Pröll, 2011, Chemical looping pilot plant results using a nickel-based oxygen carrier, Oil & Gas Sci Technol, 66, 173, 10.2516/ogst/2010036

Zhao, 2008, NiO/NiAl2O4 oxygen carriers prepared by sol-gel for chemical-looping combustion fuels by gas, J Fuel Chem Technol, 36, 261, 10.1016/S1872-5813(08)60020-1

Lambert A, Briault P, Comte E. Chemical looping materials: Can NiO-NiAl2O4 carriers be outperformed?. In: Proc 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Brandvoll, 2003, Chemical looping combustion. Reduction of nickel oxide/nickel aluminate with hydrogen, Chem Eng Transact, 3, 105

Cao, 2005, Reduction of solid oxygen carrier (CuO) by solid fuel (coal) in chemical looping combustion. Prepr ACS, Div Fuel Chem., 50, 99

Noorman, 2010, Experimental Investigation of a CuO/Al2O3 oxygen carrier for chemical-looping combustion, Ind Eng Chem Res, 49, 9720, 10.1021/ie100869t

Forero CR, Gayán P, García-Labiano F, de Diego LF, Abad A, Adánez J. Effect of gas impurities on the behaviour of Cu-based oxygen carriers on chemical-looping combustion. In: Proc. 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Corbella, 2006, Characterization and performance in a multicycle test in a fixed-bed reactor of silica-supported copper oxide as oxygen carrier for chemical-looping combustion of methane, Energ Fuel, 20, 148, 10.1021/ef050212n

Corbella, 2005, The performance in a fixed bed reactor of copper-based oxides on titania as oxygen carriers for chemical looping combustion of methane, Energ Fuel, 19, 433, 10.1021/ef049832z

Brown TA, Scala F, Scott SA, Dennis JS, Salatino P. Investigation of the attrition behaviour of an iron oxide oxygen-carrier under inert and reacting conditions. In: Proc. 1st Int Conf on Chemical Looping. Lyon, France; 2010.

Ishida, 2005, Application of Fe2O3-Al2O3 composite particles as solid looping material of the chemical-loop combustor, Energ Fuel, 19, 2514, 10.1021/ef0500944

Mattisson, T, Lyngfelt, A, Cho P. Possibility of using iron oxide as an oxygen carrier for combustion of methane with removal of CO2-Application of chemical-looping combustion. In: Proc. 5th Int Conf Greenhouse Gas Control Technologies (GHGT-5). Cairns, Australia; 2000.

Cho P, Mattissson, Lyngfelt A. Reactivity of iron oxide with methane in a laboratory fluidized bed - application of chemical looping combustion. In: Proc 7th Int Conf on circulating fluidized beds (CFB-7). Niagara Falls, Ontario; 2002: 599–606.

Linderholm C, Cuadrat A, Lyngfelt A. Chemical-looping combustion of solid fuels in a 10 kWth pilot-batch tests with five fuels.In: Proc. 10th Int Conf Greenhouse Gas Technology (GHGT-10). Amsterdam, The Netherlands; 2010.

Mendiara T, Abad A, de Diego LF, García-Labiano F, Gayán P, Adánez J. Red mud as oxygen carrier in chemical looping combustion of coal. In: Proc. 5th Int Conf on Clean Coal Technologies (CCT2011). Zaragoza, Spain; 2011.