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Volumn 25, Issue 7, 2010, Pages 1079-1090
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Application of Langmuir theory of evaporation to the simulation of sample vapor composition and release rate in graphite tube atomizers. Part 1. the model and calculation algorithm
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Author keywords
[No Author keywords available]
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Indexed keywords
ANALYTES;
ATOMIC VAPOR;
ATOMIZATION PROCESS;
DRY RESIDUE;
EFFECTIVE AREA;
ENERGY EXCHANGES;
EXPERIMENTAL CONDITIONS;
FIRST ORDER DIFFERENTIAL EQUATION;
FREQUENCY FACTORS;
GASEOUS SPECIES;
GASPHASE;
GRAPHITE SURFACES;
GRAPHITE TUBES;
LANGMUIRS;
MASS TRANSPORT;
METAL ATOMS;
METAL OXIDES;
METAL VAPOR;
NUMERICAL SOLUTION;
OXYGEN-CONTAINING SPECIES;
REACTION ORDERS;
RELEASE RATE;
SECONDARY PROCESS;
SURFACE COVERAGES;
SYSTEM OF EQUATIONS;
TEMPERATURE BALANCE;
TEMPORAL COMPOSITION;
THERMODYNAMIC EQUILIBRIA;
VAPOR COMPOSITION;
VAPOR SOURCES;
VAPOR TRANSPORT;
ACTIVATION ENERGY;
ATMOSPHERIC PRESSURE;
ATOMIZATION;
ATOMIZERS;
ATOMS;
CHEMICAL PROPERTIES;
DIFFERENTIAL EQUATIONS;
EVAPORATION;
GAS ABSORPTION;
GRAPHITE;
METALLIC COMPOUNDS;
METALS;
MOLECULES;
MONOLAYERS;
NUMERICAL ANALYSIS;
OLIGOMERS;
OXYGEN;
SURFACE REACTIONS;
THERMAL EXPANSION;
VAPORS;
ATMOSPHERIC BOUNDARY LAYER;
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EID: 77953840800
PISSN: 02679477
EISSN: 13645544
Source Type: Journal
DOI: 10.1039/c002017f Document Type: Article |
Times cited : (11)
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References (38)
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