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Volumn 87, Issue 1-2, 2009, Pages 78-83
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Post-plasma catalytic technology for the removal of toluene from indoor air: Effect of humidity
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Author keywords
Advanced oxidation; Catalysis; Humidity; Non thermal plasma; Ozone; Sorption; Volatile organic compound
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Indexed keywords
ADVANCED OXIDATION;
CATALYST PROPERTIES;
CATALYTIC OZONES;
CATALYTIC PROCESS;
CATALYTIC TECHNOLOGIES;
CLOSED SYSTEMS;
CRITICAL PARAMETERS;
DC CORONA DISCHARGES;
ENERGY DENSITIES;
EQUILIBRIUM PARTITIONING;
HUMIDITY;
HUMIDITY EFFECTS;
HYBRID PLASMAS;
INDOOR AIRS;
LOGARITHMIC RELATIONSHIPS;
NON-THERMAL PLASMA;
POST PLASMAS;
REMOVAL EFFICIENCIES;
TOLUENE REMOVAL EFFICIENCIES;
TOTAL FREE ENERGIES;
VAN DER WAALS INTERACTIONS;
ACETONE;
ADSORPTION;
AIR CLEANERS;
CATALYSIS;
CATALYSTS;
ELECTRIC CORONA;
ELECTRIC DISCHARGES;
FULLERENES;
MOISTURE;
OXIDATION;
OZONE;
PHOTOLITHOGRAPHY;
PLASMAS;
REMOVAL;
TOLUENE;
TRICHLOROETHYLENE;
VAN DER WAALS FORCES;
VOLATILE ORGANIC COMPOUNDS;
PLASMA DIAGNOSTICS;
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EID: 63749103189
PISSN: 09263373
EISSN: None
Source Type: Journal
DOI: 10.1016/j.apcatb.2008.08.015 Document Type: Article |
Times cited : (77)
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References (27)
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