Mixed methanol-ethanol technology to produce greener biodiesel from waste cooking oil: A breakthrough for SO42-/SnO 2-SiO2 catalyst

Fuel Processing Technology

Volumn 92, Issue 8, 2011, Pages 1639-1645

  Lam, Man Kee ^a   Lee, Keat Teong ^a  

^a SCHOOL OF CHEMICAL ENGINEERING   (Malaysia)

Author keywords

Biodiesel; Mixed methanol ethanol; Sulfated tin oxide; Waste cooking oil

Indexed keywords

ALTERNATIVE ENERGY SOURCE; BIODIESEL PRODUCTION; CATALYST LOADINGS; ENVIRONMENTAL CONCERNS; FERMENTATION PROCESS; LOW COSTS; MIXED METHANOL-ETHANOL; MOLAR RATIO; NON-RENEWABLE; PETROLEUM FUELS; REACTION TEMPERATURE; REACTION TIME; RENEWABLE ENERGY SECTOR; RENEWABLE SOURCES; SHORT REACTION TIME; SOLID ACID CATALYSTS; SULFATED TIN OXIDE; TRANSESTERIFICATION REACTION; WASTE COOKING OIL; WORLD ENERGIES; WORLD MARKET;

CATALYSTS; ECONOMIC ANALYSIS; ENERGY CONVERSION; ENERGY POLICY; ETHANOL; FERMENTATION; GAS EMISSIONS; INTERNATIONAL TRADE; METHANOL; REACTION RATES; RENEWABLE ENERGY RESOURCES; SILICON COMPOUNDS; SUSTAINABLE DEVELOPMENT; TIN; TIN OXIDES; WASTE INCINERATION;

BIODIESEL;

EID: 79956369302     PISSN: 03783820     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.fuproc.2011.04.012     Document Type: Article

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