|
|
Volumn 55, Issue 7, 2007, Pages 95-102
|
|
Development of an empirical mathematical model for describing and optimizing the hygiene potential of a thermophilic anaerobic bioreactor treating faeces
a
b
Hans Huber AG
(Germany)
|
|
Author keywords
Bacterial pathogens; Decentralized sanitation and reuse; Faeces; Multiple regression analysis; Thermophilic anaerobic technology
|
|
Indexed keywords
ANAEROBIC DIGESTION;
BIOREACTORS;
MATHEMATICAL MODELS;
OPTIMIZATION;
PATHOGENS;
REGRESSION ANALYSIS;
SURFACE WATERS;
BACTERIAL PATHOGENS;
DECENTRALIZED SANITATION AND REUSE;
FAECES;
THERMOPHILIC ANAEROBIC BIOREACTOR;
SEWAGE TREATMENT;
BIOGAS;
ANAEROBIC DIGESTION;
BIOREACTORS;
MATHEMATICAL MODELS;
OPTIMIZATION;
PATHOGENS;
REGRESSION ANALYSIS;
SEWAGE TREATMENT;
SURFACE WATERS;
ANOXIC CONDITIONS;
BIOREACTOR;
DEVELOPING WORLD;
FECES;
HYGIENE;
MULTIPLE REGRESSION;
NUMERICAL MODEL;
OPTIMIZATION;
POLLUTANT REMOVAL;
RECYCLING;
SANITATION;
THERMOPHILIC BACTERIUM;
WASTE TREATMENT;
ANAEROBIC REACTOR;
BIOREACTOR;
COLIFORM BACTERIUM;
CONFERENCE PAPER;
CORRELATION ANALYSIS;
DEVELOPING COUNTRY;
DOMESTIC WASTE;
ECONOMIC ASPECT;
EFFLUENT STANDARD;
ENTEROCOCCUS;
ENVIRONMENTAL SANITATION;
FECES COMPOSITION;
INDICATOR ORGANISM;
MATHEMATICAL MODEL;
MEMBRANE REACTOR;
MULTIPLE REGRESSION;
PROCESS OPTIMIZATION;
REACTION TIME;
REACTOR MONITORING;
SEWAGE DISPOSAL;
SEWAGE TREATMENT;
TEMPERATURE SENSITIVITY;
WASTE COMPONENT REMOVAL;
WASTE WATER RECYCLING;
WATER POLLUTION INDICATOR;
ANAEROBIOSIS;
BIOREACTORS;
EMPIRICAL RESEARCH;
ENTEROBACTERIACEAE;
FECES;
HUMANS;
HYGIENE;
MODELS, THEORETICAL;
TEMPERATURE;
TIME FACTORS;
BACTERIA (MICROORGANISMS);
|
|
EID: 34248578783
PISSN: 02731223
EISSN: None
Source Type: Book Series
DOI: 10.2166/wst.2007.132 Document Type: Conference Paper |
|
Times cited : (16)
|
|
References (6)
|
