Lipase immobilization and production of fatty acid methyl esters from canola oil using immobilized lipase

Biomass and Bioenergy

Volumn 35, Issue 4, 2011, Pages 1496-1501

  Yücel, Yasin ^a   Demir, Cevdet ^a   Dizge, Nadir ^b   Keskinler, Bülent ^b  

^a ULUDAG UNIVERSITY   (Turkey)

^b GEBZE TECHNICAL UNIVERSITY   (Turkey)

Author keywords

Biocatalysis; Brassica napus; Enzyme activity; FAME; Lipase; Styrene divinylbenzene

Indexed keywords

ASPERGILLUS ORYZAE; BIOCATALYSIS; BIODIESEL PRODUCTION; BRASSICA NAPUS; CANOLA OIL; COVALENT ATTACHMENT; ENZYME DEACTIVATION; FAME; FATTY ACID METHYL ESTER; HIGH INTERNAL PHASE EMULSIONS; IMMOBILIZED LIPASE; LIPASE ENZYME; LIPASE IMMOBILIZATION; LIPOZYME; LONG CHAIN FATTY ACID; METHYL ESTERS; MICROPOROUS; MOLAR RATIO; NOVOZYMES; OPERATIONAL STABILITY; PHYSICAL ADSORPTION; POLYMERIC MATRICES; REACTION TIME; SEMICONTINUOUS OPERATION; STYRENE-DIVINYLBENZENE; TRANSESTERIFICATION REACTION;

ADSORPTION; ALDEHYDES; BIODIESEL; EMULSIFICATION; ENZYME ACTIVITY; ENZYMES; ESTERIFICATION; ESTERS; FATTY ACIDS; FUNCTIONAL GROUPS; FUNCTIONAL POLYMERS; HYDROLASES; INDUSTRIAL APPLICATIONS; LIPASES; METHANOL; POLYMERS; STYRENE; SYNTHETIC FUELS;

ENZYME INHIBITION;

BIOFUEL; CATALYSIS; DICOTYLEDON; ENZYME ACTIVITY; ESTER; FATTY ACID; FUNGUS; IMMOBILIZATION; VEGETABLE OIL;

ASPERGILLUS ORYZAE; BRASSICA NAPUS; BRASSICA NAPUS VAR. NAPUS;

EID: 79952533596     PISSN: 09619534     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.biombioe.2010.12.018     Document Type: Article

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