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Before 1998 Lyngfelt’s his main field of research was related to fluidized bed combustion: especially the sulphur capture process and the influence of reducing conditions in this process, but also nitrous oxide emission and the progress of combustion.
Lyngfelt has made Chalmers world-leading in chemical-looping combustion (CLC), having worked with development of oxygen-carrier material for the process since 1998 and being first to successfully demonstrate this fundamentally new fuel conversion process in sustained operation in a 10 kW prototype unit for gaseous fuel in 2003. Moreover Chalmers was first to operate a 10 kW CLC unit designed for solid fuel (2006) and was also first to operate CLC with liquid fuels (2011). Chalmers now has more than 4000 h of operational experience of chemical-looping combustion in four units, the largest being a 100 kW dual CFB for solid fuels. This is around 40% of global operational experience and involves the first successful demonstration of chemical-looping combustion with oxygen carriers based on nickel, iron and manganese oxides, combined oxides like CaMnO3 and FeTiO3, as well as natural minerals (ilmenite and manganese ore), using natural gas, syn-gas, bituminous coal, pet coke, kerosene, wood char and wood pellets as fuels. Under his leadership, Chalmers has investigated more than 500 different oxygen carrier materials in laboratory and more than 60 in actual operation.
Lyngfelt has made Chalmers world-leading in chemical-looping combustion (CLC), having worked with development of oxygen-carrier material for the process since 1998 and being first to successfully demonstrate this fundamentally new fuel conversion process in sustained operation in a 10 kW prototype unit for gaseous fuel in 2003. Moreover Chalmers was first to operate a 10 kW CLC unit designed for solid fuel (2006) and was also first to operate CLC with liquid fuels (2011). Chalmers now has more than 4000 h of operational experience of chemical-looping combustion in four units, the largest being a 100 kW dual CFB for solid fuels. This is around 40% of global operational experience and involves the first successful demonstration of chemical-looping combustion with oxygen carriers based on nickel, iron and manganese oxides, combined oxides like CaMnO3 and FeTiO3, as well as natural minerals (ilmenite and manganese ore), using natural gas, syn-gas, bituminous coal, pet coke, kerosene, wood char and wood pellets as fuels. Under his leadership, Chalmers has investigated more than 500 different oxygen carrier materials in laboratory and more than 60 in actual operation.
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Chemical Engineering Sciencepp.120211, (2024)
Energy Research & Social Science (2024): 103356
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International Journal of Greenhouse Gas Control (2023): 103937-103937
FUEL PROCESSING TECHNOLOGY (2023): 107988-107988
International Journal of Greenhouse Gas Control (2023): 103940-103940
GREENHOUSE GASES-SCIENCE AND TECHNOLOGYno. 4 (2023): 509-519
ENERGY & FUELSno. 17 (2022): 9571-9587
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