Experimental Characterization of Aerosol Production,Transport,Vaporization,and Atomization Systems. Part II: Factors Controlling Aerosol Size Distributions Produced
Restricted accessResearch articleFirst published online November, 1985
Experimental Characterization of Aerosol Production,Transport,Vaporization,and Atomization Systems. Part II: Factors Controlling Aerosol Size Distributions Produced
The effects of nebulization conditions on the size characteristics of the aqueous aerosol produced have been investigated for a cross-flow nebulizer. It is shown that the nebulizer gas flow rate does not affect the upper limit mean sizes of the aqueous droplets transported from the nebulization chamber but that the mean size of the analyte-containing aerosol itself is affected. Model equations are presented descriptive of the effects of gas flow rate and analyte concentrations on analyte aerosol size characteristics.
SkogerboeR. K. and FreelandS. J., Appl. Spectrosc.39, 916 (1985).
2.
ScottR. H.FasselV. A.KniseleyR. N., and NixonD. E., Anal. Chem.46, 75 (1974).
3.
SkogerboeR. K. and OlsonK. W., Appl. Spectrosc.32, 181 (1978).
4.
HieftjeG. M. and MalmstadtH. V., Anal. Chem.40, 1860 (1968).
5.
L'vovB. V.KatskovD. A.KruglikovaL. P., and PolzikL. K., Spectrochim. Acta31B, 49 (1976).
6.
BastiaansG. J. and HieftjeG. M., Anal. Chem.46, 901 (1974).
7.
WillisJ. B., Spectrochim. Acta23A, 811 (1967).
8.
NukiyamaS. and TanasawaY., in Translation of Reports 1 to 6, Trans. Svc. Mech. Eng. Japan, 1938–1940, HopeE., Ed. (Available through the Defense Research Board, Dept. of National Defense, Ottawa, Canada).
9.
ButcherS. S. and CharlsonR. J., An Introduction to Air Chemistry (Academic Press, New York, 1972), pp. 176–184.
10.
BrownerR. F.BoomA. W., and SmithD. D., Anal. Chem.54, 1411 (1982).
11.
NovakJ. W. and BrownerR. F., Anal. Chem.52, 792 (1980).
12.
CresserM. S. and BrownerR. F., Spectrochim. Acta35B, 73 (1980).