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Food and Market Waste: A Pathway to Sustainable Fuels and Waste Valorization

 
: Ouadi, M.; Bashir, M.A.; Speranza, L.G.; Jahangiri, H.; Hornung, A.

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Energy & fuels 33 (2019), Nr.10, S.9843-9850
ISSN: 0887-0624
ISSN: 1520-5029
European UnionEuropean Union (EU)
H2020; 792216; FlexJET
Sustainable Jet Fuel from Flexible Waste Biomass
Englisch
Zeitschriftenaufsatz, Elektronische Publikation
Fraunhofer UMSICHT Sulzbach-Rosenberg ()

Abstract
Food and market waste (FMW) is one of the most abundant unrecycled products which poses waste management issues and negative environmental impacts. Thermo-catalytic reforming (TCR) is a pyrolysis based technology which can convert a wide range of biomass wastes into energy vectors bio-oil, syngas, and char. This paper investigates the conversion potential of FMW into sustainable biofuels. The FMW was processed using a laboratory scale 2 kg/h TCR reactor. The process produced 7 wt % organic bio-oil, 53 wt % permanent gas, and 22 wt % char. The bio-oil higher heating value (HHV) was found to be 36.72 MJ/kg, comparable to biodiesel, and contained a low oxygen content (<5%) due to cracking of higher molecular weight organics. Naphthalene was detected to be the most abundant aromatic compound within the oil, with relative abundance of 12.95% measured by GC-MS. The total acid number of the oil (TAN) and viscosity were 11.7 mg KOH/g and 6.3 cSt, respectively. The gross calorific value of the produced biochar was 23.64 MJ/kg, while the permanent gas showed a higher heating value of approximately 17 MJ/Nm3. Methane (CH4) was found to be the largest fraction in the permanent gases reaching over 23%. This resulted either due to the partial methanation of biosyngas over the catalytically active FMW biochar or the hydrogenation of coke deposited on the biochar in the post reforming stage.

: http://publica.fraunhofer.de/dokumente/N-564859.html