Quantification of the Repeatability and Reproducibility of the Cpma-Electrometer Reference Mass Standard for In-Situ Calibration of Mass Concentration Aerosol Instruments

Author

Rym Mehri
Robert T. Nishida
Timothy A. Sipkens
Gregory J. Smallwood
Joel C. Corbin
Philip D. Whitefield, Missouri University of Science and TechnologyFollow
Steven Achterberg
Richard C. Miake-Lye
Benjamin A. Nault
Robert Howard
Jason S. Olfert

Abstract

Mass-concentration aerosol instruments require frequent calibration to provide precise and accurate measurements. Such calibrations for mass instruments can be achieved with the Centrifugal Particle Mass Analyzer (CPMA)–Electrometer Reference Mass Standard (CERMS). This study presents an interlaboratory comparison of CERMS and its two major components: the Faraday Cup Aerosol Electrometer (FCAE) and CPMA. The CERMS repeatability and reproducibility, defined as measurement precision under repeatable and reproducible measurement conditions, are evaluated. Our study was conducted in two phases: laboratory and field studies, and involved three independent laboratories. In the laboratory study, comparisons were made using soot and size-selected dioctyl sebacate (DOS) particles, using a transfer instrument. In the field, nebulized ammonium sulfate and soot from two turbine engine source exhausts, including a J85 turbojet engine, were used to compare the CERMS systems using three transfer instruments. Results indicated that the FCAEs exhibited excellent repeatability and reproducibility (<2%), while the CPMAs showed excellent repeatability (<3%) but poorer reproducibility (about 10%) due to instrument biases. In the laboratory study, the entire CERMS system demonstrated low uncertainty under repeatable conditions (3%) but higher uncertainty under reproducible conditions (∼11%). Field study uncertainties for CERMS were larger than in the laboratory (repeatability ∼8%, reproducibility ∼11%), likely due to the combined uncertainties from the transfer instruments, particle sources, CERMS components, and the less-controlled environment. Since biases between CPMAs were the major contributor to overall CERMS reproducibility, CPMA calibration could provide a significant improvement to CERMS reproducibility.

Recommended Citation

R. Mehri and R. T. Nishida and T. A. Sipkens and G. J. Smallwood and J. C. Corbin and P. D. Whitefield and S. Achterberg and R. C. Miake-Lye and B. A. Nault and R. Howard and J. S. Olfert, "Quantification of the Repeatability and Reproducibility of the Cpma-Electrometer Reference Mass Standard for In-Situ Calibration of Mass Concentration Aerosol Instruments," Aerosol Science and Technology, Taylor and Francis Group; Taylor and Francis, Jan 2025.

The definitive version is available at https://doi.org/10.1080/02786826.2025.2568694

Department(s)

Chemistry

International Standard Serial Number (ISSN)

1521-7388; 0278-6826

Document Type

Article - Journal

Document Version

Citation

File Type

text

Language(s)

English

Rights

© 2025 Taylor and Francis Group; Taylor and Francis, All rights reserved.

Publication Date

01 Jan 2025