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Volumn 152, Issue 3, 2009, Pages 394-404
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Improved enzyme stability in lipase-catalyzed synthesis of fatty acid ethyl ester from soybean oil
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Author keywords
Biodiesel; Enzyme stability; Lipases; Organic solvents; Response surface methodology
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Indexed keywords
ADDED WATERS;
BIODIESEL PRODUCTIONS;
BIODIESEL SYNTHESIS;
CENTRAL COMPOSITE DESIGNS;
DIFFERENT SOLVENTS;
ENZYME STABILITY;
ETHANOLYSIS;
FATTY ACID ETHYL ESTERS;
FRACTIONAL FACTORIAL DESIGNS;
IMMOBILIZED ENZYMES;
LIPASE-CATALYZED SYNTHESIS;
LIPOZYME;
MOLAR RATIOS;
N HEXANES;
OPTIMAL CONDITIONS;
OPTIMAL REACTION CONDITIONS;
PROCESS VARIABLES;
REACTION TEMPERATURES;
REPEATED BATCHES;
RESPONSE SURFACE METHODOLOGY;
SOYBEAN OIL;
BIODIESEL;
ENZYMES;
ESTERS;
ETHANOL;
FATTY ACIDS;
HEXANE;
LIPASES;
OPTIMIZATION;
ORGANIC SOLVENTS;
STABILITY;
SUBSTRATES;
SURFACE PROPERTIES;
SYNTHETIC FUELS;
SYSTEM STABILITY;
WATER CONTENT;
ENZYME ACTIVITY;
ALCOHOL;
BIODIESEL;
FATTY ACID ESTER;
HEXANE;
PROPANOL;
SOYBEAN OIL;
TRIACYLGLYCEROL LIPASE;
WATER;
ARTICLE;
BIOSYNTHESIS;
CHEMICAL ANALYSIS;
CHEMICAL REACTION;
CONTROLLED STUDY;
ENZYME ASSAY;
ENZYME IMMOBILIZATION;
ENZYME STABILITY;
MOLECULAR WEIGHT;
PROTEIN CONTENT;
TEMPERATURE;
WATER CONTENT;
ANALYSIS OF VARIANCE;
BIOCATALYSIS;
ENZYME STABILITY;
ESTERS;
ETHANOL;
FATTY ACIDS;
LIPASE;
MODELS, BIOLOGICAL;
REPRODUCIBILITY OF RESULTS;
SOYBEAN OIL;
TIME FACTORS;
GLYCINE MAX;
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EID: 67349083517
PISSN: 02732289
EISSN: None
Source Type: Journal
DOI: 10.1007/s12010-008-8218-z Document Type: Article |
Times cited : (16)
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References (16)
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