A Low-Cost, Ultra- Fine Particle Concentration Monitor

This page updated December 1, 2006.

Aerosol Dynamics

A Low-Cost, Ultra-fine Particle Concentration Monitor


The statements and conclusions in this Report are those of the grantee and not necessarily those of the California Air Resources Board. The mention of commercial products, their source, or their use in connection with material reported herein is not to be construed as actual or implied endorsement of such products.

Abstract
A water-based, micro-environmental condensation particle counter (ME-WCPC) has been developed to provide monitoring of particle number concentrations in ambient air and in occupied spaces. Reported here is the evaluation of this instrument under field conditions. Comparison is made to three types of butanol-based counters (TSI Models 3010, 3022, 3025) and to bench-scale water based counters (TSI Models 3785 and 3786).
Ambient sampling was performed in the summer and winter in Riverside and in the winter in Berkeley, California. Indoor measurements were made in one office and two homes, including one kitchen. At all locations the collocated ME-WCPCs agreed with each other, with the square of the correlation coefficient above 0.97 and slopes near 1.
For particle number concentrations below 200,000 cm-3, measurements from the ME-WCPC are within 10 percent percent of those from the butanol-based TSI-3022, and higher than those from the dilution-corrected TSI-3010, consistent with the differences in the lower particle size limits cut points of the instruments (7 nm for the TSI-3022, 10 nm for the TSI-3010). Differences among all instruments are observed at concentrations above 200,000 cm-3.
At all locations the ambient particle number concentrations exhibited a consistent diurnal pattern during each multi-week study period, with a dominant morning maximum and a secondary late afternoon maximum. In some cases, a third maximum is seen shortly after midnight. Indoor particle number concentrations appear to be dominated by indoor, rather than outdoor sources. Residential particle number concentrations associated with cooking activities were a factor of ten or more higher than the highest levels observed outdoors.

Funding Source

Funding Amount


ICAT

$80,000

Grantee

$16,000

Quant Technologies

$64,000




ICAT Funded Projects

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