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Volumn 153, Issue 1-3, 2009, Pages 67-79
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Study on mass transfer of isopropylbenzene and oxygen in a two-phase partitioning bioreactor in the presence of silicone oil
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Author keywords
Hydrodynamics; Mass transfer enhancement; Silicone oil; Two phase partitioning bioreactor; VOC
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Indexed keywords
DRIVING FORCES;
GAS EFFLUENTS;
GAS HOLD UP;
GAS TRANSFER;
GASEOUS POLLUTANTS;
HIGH SOLUBILITY;
ISOPROPYLBENZENE;
LOW VISCOSITY;
MASS TRANSFER ENHANCEMENT;
OXYGEN MASS TRANSFER;
OXYGEN TRANSFER RATE;
SECOND PHASE;
SILICONE OIL;
STIRRER SPEED;
SYNERGISTIC EFFECT;
TWO-PHASE PARTITIONING BIOREACTOR;
VOC;
BIOCONVERSION;
BIOREACTORS;
EFFLUENTS;
FLUID DYNAMICS;
FOG;
HYDRODYNAMICS;
INDUSTRIAL CHEMICALS;
MASS TRANSFER;
OXYGEN;
VOLATILE ORGANIC COMPOUNDS;
WASTEWATER TREATMENT;
SILICONES;
CUMENE;
OXYGEN;
SILICONE OIL;
VOLATILE ORGANIC COMPOUND;
BENZENE DERIVATIVE;
BIOREACTOR;
CONFERENCE PAPER;
EFFLUENT;
FORCE;
GAS;
HYDRODYNAMICS;
MASS TRANSFER;
PARTITION COEFFICIENT;
PHASE PARTITIONING;
POLLUTANT;
SEPARATION TECHNIQUE;
SOLUBILITY;
TRANSPORT KINETICS;
VISCOSITY;
AIR POLLUTANT;
ARTICLE;
CHEMISTRY;
ISOLATION AND PURIFICATION;
METABOLISM;
AIR POLLUTANTS;
BENZENE DERIVATIVES;
BIOREACTORS;
OXYGEN;
SILICONE OILS;
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EID: 67449104920
PISSN: 02732289
EISSN: None
Source Type: Journal
DOI: 10.1007/s12010-008-8480-0 Document Type: Conference Paper |
Times cited : (19)
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References (29)
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