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W3100188467 endingPage "41" @default.
W3100188467 startingPage "32" @default.
W3100188467 abstract "Cattle manure was converted into bio-oil via sub- and super-critical liquefaction with ethanol as the solvent. The effects of various reaction parameters, including the reaction temperature ( T , 180–300 °C), solid-liquid ratio ( S 1 , 5–15%), and solvent filling ratios ( S 2 , 10–30%) on the yield of bio-oil (OCM) and residue (RCM) from liquefaction of cattle manure were studied. The yield of bio-oil was positively correlated to reaction temperature suggesting higher reaction temperature could promote the fragmentation of the polymers transformed into a liquid oil-rich phase and the maximum OCM relative yield (32.14 ± 0.19%) was obtained at 300 °C. OCM had HHV of 25.63–33.41 MJ/kg and LHV of 23.85–31.39 MJ/kg, respectively, suggesting their potential for use as a renewable energy to replace fossil energy. The GC-MS analyses demonstrated that the major compounds in OCM were esters, hydrocarbons, alcohols, phenolic compounds, nitrogenous and bromine components, the compositions of OCM was similar to that of biodiesel. The presence of ester compounds in OCM which was attributed to the degradation of cellulose and hemicelluloses. Carbon-normal paraffin gram (C-NP) analysis indicated that C 18 and C 20 species comprised the bulk of the hydrocarbon compounds from OCM. • Bio-oil were obtained from thermochemical liquefaction of cattle manures with sub-supercritical alcohol. • The yield of bio-oil increased with increasing reaction temperature. • The main components of bio-oil were esters and hydrocarbon. • C-NP indicated that the bulk of hydrocarbons from OCM were distributed at C18 and C20." @default.
W3100188467 created "2020-11-23" @default.
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W3100188467 date "2021-04-01" @default.
W3100188467 modified "2023-09-27" @default.
W3100188467 title "Thermochemical liquefaction of cattle manure using ethanol as solvent: Effects of temperature on bio-oil yields and chemical compositions" @default.
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W3100188467 doi "https://doi.org/10.1016/j.renene.2020.11.033" @default.
W3100188467 hasPublicationYear "2021" @default.
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