|
|
Volumn 137-140, Issue 1-12, 2007, Pages 721-738
|
|
Conversion of aqueous ammonia-treated corn stover to lactic acid by simultaneous saccharification and cofermentation
|
|
Author keywords
Aqueous ammonia pretreatment; Biomass; Cofermentation; Lactic acid; Response surface method; Simultaneous saccharification
|
|
Indexed keywords
ACETIC ACID;
AMMONIA;
BIOCHEMICAL ENGINEERING;
BIOMOLECULES;
BODY FLUIDS;
CARBOHYDRATES;
CELLULOSE;
CELLULOSE DERIVATIVES;
CONCENTRATION (PROCESS);
EXTRACTION;
FOOD ADDITIVES;
GLUCOSE;
NITROGEN;
NONMETALS;
ORGANIC ACIDS;
ORGANIC COMPOUNDS;
SACCHARIFICATION;
YEAST;
AFTER-TREATMENT;
AMERICAN TYPE CULTURE COLLECTION;
AQUEOUS AMMONIA;
AQUEOUS AMMONIA PRETREATMENT;
BIOMASS;
COFERMENTATION;
CORN STEEP LIQUOR;
CORN STOVERS;
CULTURE COLLECTION;
ENZYMATIC DIGESTIONS;
ENZYME LOADING;
FED-BATCH OPERATION;
KEY FACTORS;
LACTIC ACID PRODUCTION;
LACTIC ACIDS;
NITROGEN SOURCES;
PHOSPHOKETOLASE;
PROCESS VARIABLES;
RESPONSE SURFACE METHOD;
SIMULTANEOUS SACCHARIFICATION;
SPANISH;
YEAST EXTRACT;
LACTIC ACID;
ACETIC ACID;
AMMONIA;
ARABINOSE;
CARBOHYDRATE;
CELLULASE;
GLUCOSE;
LACTIC ACID;
PENTOSE;
XYLOSE;
AQUEOUS SOLUTION;
BIOMASS CONVERSION;
BIOMASS FERMENTATION;
CONFERENCE PAPER;
CORN;
CORN STOVER;
ENZYME SUBSTRATE;
FED BATCH FERMENTATION;
HYDROLYSIS;
LACTOBACILLUS;
LACTOBACILLUS PENTOSUS;
SACCHARIFICATION;
STOICHIOMETRY;
YEAST;
AMMONIA;
BIODEGRADATION, ENVIRONMENTAL;
BIOREACTORS;
BIOTRANSFORMATION;
CELL CULTURE TECHNIQUES;
CELLULASE;
FERMENTATION;
INDUSTRIAL WASTE;
LACTIC ACID;
LACTOBACILLUS;
PLANT COMPONENTS, AERIAL;
WATER;
ZEA MAYS;
ACETIC ACID;
AMMONIA;
BIOMASS;
BIOTECHNOLOGY;
CARBOHYDRATES;
CELLULOSE;
CELLULOSE DERIVATIVES;
CONCENTRATION;
EXTRACTION;
GLUCOSE;
LACTIC ACID;
NITROGEN;
NONMETALS;
ORGANIC ACIDS;
ORGANIC COMPOUNDS;
SACCHARIFICATION;
LACTOBACILLUS PENTOSUS;
ZEA MAYS;
|
|
EID: 52949148555
PISSN: 02732289
EISSN: None
Source Type: Journal
DOI: 10.1007/s12010-007-9092-9 Document Type: Conference Paper |
|
Times cited : (55)
|
|
References (31)
|
