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W3119161621 endingPage "374" @default.
W3119161621 startingPage "363" @default.
W3119161621 abstract "We examined hydrothermal liquefaction (HTL) of simulated food waste over a wide range of temperatures (200–600 °C), pressures (10.2–35.7 MPa), biomass loadings (2–20 wt %), and times (1–33 min). These conditions included water as vapor, saturated liquid, compressed liquid, and supercritical fluid and explored both isothermal and fast HTL. The highest biocrude yields (∼30 wt %) were from HTL near the critical temperature. The most severe reaction conditions (600 °C, 35.3 MPa, 30 min) gave biocrude with the largest heating value (36.5 MJ/kg) and transfer of up to 50% of the nitrogen and 68% of the phosphorus in the food mixture into the aqueous phase. Energy recovery in the biocrude exceeded 65% under multiple reaction conditions. Saturated fatty acids were the most abundant compounds in the light biocrude fraction under all the reaction conditions. Isothermal HTL gave a higher fraction of heavy compounds than fast HTL. A kinetic model for HTL of microalgae predicted 2/3 of the experimental biocrude yields from HTL of food waste to within ±5 wt %, and nearly 90% to within ±10 wt %. This predictive ability supports the hypothesis that biochemical composition of the feedstock is important input for a predictive HTL model." @default.
W3119161621 created "2021-01-18" @default.
W3119161621 creator A5004960218 @default.
W3119161621 creator A5086832167 @default.
W3119161621 date "2021-01-02" @default.
W3119161621 modified "2023-10-16" @default.
W3119161621 title "Effect of Process Variables on Food Waste Valorization via Hydrothermal Liquefaction" @default.
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W3119161621 doi "https://doi.org/10.1021/acsestengg.0c00115" @default.
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