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Volumn 64, Issue 4, 2011, Pages 848-853
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Relative kinetics of anaerobic digestion under thermophilic and mesophilic conditions
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Author keywords
Acetate utilizing methanogenesis; Acetogenesis; Fermentation; Hydrolysis; Mesophilic; Thermophilic
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Indexed keywords
ACETOGENESIS;
ACTIVATED SLUDGE;
ARRHENIUS RELATIONSHIP;
BIOGAS PRODUCTION;
COMPLEX MATERIALS;
DIGESTION KINETICS;
DOMINANT PRODUCT;
FERMENTATION PRODUCTS;
GLUCOSE UPTAKE;
HYDROLYSIS RATE;
INDIVIDUAL COMPONENTS;
MESOPHILIC;
MESOPHILIC ANAEROBIC DIGESTION;
MESOPHILIC CONDITION;
METHANOGENESIS;
RATE-LIMITING STEPS;
RELATIVE KINETICS;
SLUDGE QUALITY;
TEMPERATURE INCREASE;
THERMOPHILIC;
THERMOPHILIC ANAEROBIC DIGESTION;
THERMOPHILIC CONDITIONS;
ACTIVATION ENERGY;
BIOGAS;
DIGESTIVE SYSTEM;
FERMENTATION;
GLUCOSE;
HYDROLYSIS;
KINETICS;
SLUDGE DIGESTION;
VOLATILE FATTY ACIDS;
ANAEROBIC DIGESTION;
ACETIC ACID;
BIOGAS;
CELLULOSE;
GLUCOSE;
PROPIONIC ACID;
ACTIVATED SLUDGE;
ACTIVATION ENERGY;
ANOXIC CONDITIONS;
BIOGAS;
BIOTECHNOLOGY;
FERMENTATION;
GLUCOSE;
HYDROLYSIS;
METHANOGENESIS;
MICROBIAL ACTIVITY;
REACTION KINETICS;
REACTION RATE;
SUBSTRATE;
TEMPERATURE PROFILE;
WASTE TREATMENT;
ACETOGENESIS;
ACTIVATED SLUDGE;
ACTIVATION ENERGY;
ANAEROBIC DIGESTION;
ARTICLE;
BATCH FERMENTATION;
BATCH REACTOR;
BIOSYNTHESIS;
CONTROLLED STUDY;
ENERGY;
GLUCOSE TRANSPORT;
HYDROLYSIS;
KINETICS;
MESOPHILIC ANAEROBIC DIGESTION;
METHANOGENESIS;
SLUDGE DIGESTION;
TEMPERATURE;
THERMOPHILIC ANAEROBIC DIGESTION;
ACETATES;
ANAEROBIOSIS;
FERMENTATION;
HYDROLYSIS;
KINETICS;
METHANE;
MODELS, THEORETICAL;
SEWAGE;
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EID: 80052047575
PISSN: 02731223
EISSN: None
Source Type: Journal
DOI: 10.2166/wst.2011.571 Document Type: Article |
Times cited : (40)
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References (13)
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