Development, verification and application of a versatile aerosol calibration system for online aerosol instruments--颗粒学报PARTICUOLOGY

Liu, C., Huang, C.-J., Huang, K., Huang, S.-H., Huo, J., Duan, Y., & Lin, Y. (2023). Development, verification and application of a versatile aerosol calibration system for online aerosol instruments. Particuology, 74, 48-55. https://doi.org/10.1016/j.partic.2022.05.006

Development, verification and application of a versatile aerosol calibration system for online aerosol instruments

Chengfeng Liu ^a, Cheng-Jung Huang ^b, Kan Huang ^{a e f *}, Sheng-Hsiu Huang ^c *, Juntao Huo ^d, Yusen Duan ^d, Yanfen Lin ^d

a Center for Atmospheric Chemistry Study, Shanghai Key Laboratory of Atmospheric Particle Pollution and Prevention (LAP3), Department of Environmental Science and Engineering, Fudan University, Shanghai, 200433, China
b Zhang Jia International Co., LTD, Taipei, Taiwan, China
c Institute of Environmental and Occupational Health Sciences, College of Public Health, Taiwan University, Taipei, Taiwan, China
d Shanghai Environmental Monitoring Center, Shanghai, 200235, China
e IRDR ICoE on Risk Interconnectivity and Governance on Weather/Climate Extremes Impact and Public Health, Fudan University, Shanghai, 200433, China
f Institute of Eco-Chongming (IEC), Shanghai, 202162, China

10.1016/j.partic.2022.05.006

Volume 74, March 2023, Pages 48-55

Received 27 January 2022, Revised 9 May 2022, Accepted 15 May 2022, Available online 26 May 2022, Version of Record 10 June 2022.

E-mail: huangkan@fudan.edu.cn; shhuangieh@ntu.edu.tw

Highlights

• PAMAS is developed to calibrate various time-resolved aerosol instruments.

• PAMAS considers calibrations of sampling, pre-condition, and detection systems.

• PAMAS generates particles of stable sizes, various species and concentrations.

• Performance of PAMAS is validated using filter-based gravimetric method.

Abstract

Traditional calibration methods mostly focus on the calibration of detection systems while the calibration from the sampling and pre-condition systems to the detection system is usually ignored. In this regard, a Primary Standard Aerosol Mass Concentration Calibration System (PAMAS) is developed for the whole-process calibration of time-resolved aerosol measurement instruments. PAMAS is composed of a particle generation chamber, an ultrasonic atomizer, a dilution system, and a syringe pump. It is designed to steadily generate standard aerosol particles of known concentrations (≤250 μg/m³), chemical compositions, and stable particle size distributions. Monodispersed aerosol can be generated in the size range of hundreds of nanometers to several micrometers with a narrow size distribution. The generated particles with different compositions generated by PAMAS have been well verified by the filter-based gravimetric method, yielding accuracy and R² of more than 95% and 0.999 in a wide concentration range. The response time by changing the target concentration of reference particles is 1–2 min. PAMAS has been applied to various types of time-resolved aerosol measurement instruments, including particle mass concentration monitors (Beta Attenuation and Tapered Element Oscillating Microbalance), online Ion Chromatograph, and semi-continuous OCEC carbon aerosol analyzer. Very consistent results between PAMAS and calibrated instruments can be obtained if the instruments are functioning well. As for instruments with certain technical issues, PAMAS can serve as a good tool for performance evaluation and quality assurance of the instruments and the accuracy of the measurement data can be adjusted based on the calibration results.

Graphical abstract

Keywords

PAMAS; Whole-process calibration; Time-resolved aerosol measurement instruments

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