Sampling Efficiency of the Tsi Aerodynamic Particle Sizer
- 1 September 1998
- journal article
- research article
- Published by Taylor & Francis in Instrumentation Science & Technology
- Vol. 26 (4) , 363-373
- https://doi.org/10.1080/10739149808001905
Abstract
The Aerodynamic Particle Sizer (APS) has been tested and used in a variety of laboratory and field situations for indoor air quality research of both industrial and livestock buildings. The APS is capable of providing rapid, real-time measurement of particle size distribution. However, no literature was found in which the sampling efficiency of the APS was addressed. This paper presents a method to evaluate the sampling efficiency of the APS, considering both the aspiration efficiency and the penetration efficiency. Six tests were conducted and measurements were taken by a cascade impact sampler and the APS simultaneously. The results obtained by the APS were compared with the results of the cascade impact sampler.Keywords
This publication has 13 references indexed in Scilit:
- Seasonal fungus prevalence inside and outside of domestic environments in the subtropical climateAtmospheric Environment, 1994
- Minimizing dust in livestock buildings: Possible alternatives to mechanical separationJournal of Agricultural Engineering Research, 1990
- Particle Density Correction for the Aerodynamic Particle SizerAerosol Science and Technology, 1987
- Use of an aerodynamic particle sizer as a real-time monitor in generation of ideal solid aerosolsJournal of Aerosol Science, 1986
- Evaluation of the Andersen Viable Impactor for Single Stage SamplingAihaj Journal, 1985
- Performance of a TSI Aerodynamic Particle SizerAerosol Science and Technology, 1985
- X-ray diffraction analysis of airborne particulates collected by an Andersen sampler. Compound distribution vs. particle sizeEnvironmental Science & Technology, 1983
- A comparison of two-stage and six-stage Andersen impactors for viable aerosolsAihaj Journal, 1981
- Nonideal collection characteristics of single stage and cascade impactorsAihaj Journal, 1977
- A method for biological testing of containment systems for viral agentsAihaj Journal, 1976