Pyrolysis of poly-L-leucine under combustion-like conditions
Journal article, 2003
The protein poly-L-leucine has been used as a model compound for the nitrogen in biomass fuels. It was pyrolysed in a fluidised bed at 700 and 800C and the pyrolysis gases were analysed with a FT-IR spectrometer. HCN, NH3 and HNCO were identified as the main nitrogen-containing species, while neither NO nor N2O were found among the pyrolysis gases. At 700C, as much as 58% of the nitrogen content was converted into HCN and 31% into NH3. The HCN/NH3 ratio increased from about 1.9 at 700C to above 2.2 at 800C. Pyrolysis of another protein, poly-L-proline, at 800C gave a HCN/NH3 ratio close to 10. This revealed that the protein’s amino acid composition has a marked impact on the composition of the pyrolysate.
NH3
HNCO
Pyrolysis
HCN
Protein
Biomass
Author
Karl-Martin Hansson
Department of Energy Conversion
Lars-Erik Åmand
Department of Energy Conversion
Arno Habermann
Franz Winter
Fuel
0016-2361 (ISSN)
Vol. 82 653-660Driving Forces
Sustainable development
Subject Categories
Energy Engineering
Other Environmental Engineering
Areas of Advance
Energy
Infrastructure
Chalmers Power Central