Single-step catalytic deoxygenation-cracking of tung oil to bio-jet fuel over CoW/silica-alumina catalysts
Document Type
Article
Publication Date
10-1-2022
Abstract
Bifunctional Co-W catalysts with variable Co-W dosages on silica-alumina (SA) were prepared and tested for the catalytic deoxygenation-cracking of tung oil (TO) for the production of jet fuel (n-(C10-C16)) fractions. The CoW/SA catalyst appeared to be most active (hydrocarbon yield = 69%, jet fuel selectivity = 60%) and outperformed the monometallic Co and W analogues. Based on the effect of metal dosage, Co- and W-rich catalysts do not provide a workable approach in enhancing deoxygenation-cracking of the TO for jet fuel production, and overly cracking can be successfully controlled at lower metal dosages (5 wt% Co, 10 wt% W). The CoW/SA reusability study showed a consistent deoxygenation-cracking ability for four runs with hydrocarbon yields within the range of 77-84% and 64-77% jet fuel selectivity. GCMS analysis and physicochemical properties of TO oil fuel (TO gasoline, TO-jet, TO diesel) confirmed that rich aromatic species in TO-diesel negatively affected the quality of the fuels. TO-fuels with a short chain had better combustion properties than those with a longer chain hydrocarbon. The TO-jet qualities are complied with standard Jet A-1 in accordance to ASTM D1655 and DEF STAN 91-91 specification standards. The TO-jet also exhibited excellent cold properties and superior combustion characteristic than Jet A-1.
Keywords
Cobalt, Deoxygenation, Jet fuel, Tung oil, Tungsten
Divisions
nanocat
Funders
Galakan Penyelidik Muda (GGPM) (Grant No: GGPM-2020-015 & GP-2021-K023310),Ministry of Education, Malaysia (Grant No: FRGS-MRSA/1/2019/STG01/UPM/01/30)
Publication Title
Fuel
Volume
325
Publisher
Elsevier
Publisher Location
THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, OXON, ENGLAND