Performance study of various Condensation Particle Counters (CPCs): development of a methodology based on steady-state airborne DEHS particles and application to a series of handheld and stationary CPCs

• Published in: Journal of physics. Conference series Vol. 838; no. 1; pp. 12002 - 12012
• Main Authors: Bau, Sébastien, Toussaint, André, Payet, Raphaël, Witschger, Olivier
• Format: Journal Article
• Language: English
• Published: Bristol IOP Publishing 01.06.2017; IOP Science
• Subjects: Aerosols; Calibration; Chemical engineering; Chemical Sciences; Engineering Sciences; Instrumentation and Detectors; Laboratories; Life Sciences; Micro and nanotechnologies; Microelectronics; Nanoparticles; Occupational health; Particle size distribution; Physics; Radiation counters; Toxicology; Ultrafines; EXPOSITION PROFESSIONNELLE; METHODOLOGIE; PRELEVEMENT; ANALYSE CHIMIQUE; AEROSOL; EXTRAIT; MESURE; CONGRES; AIR; EFFICACITE; NANOMATERIAU; PRODUIT CHIMIQUE
• ISSN: 1742-6588; 1742-6596
• DOI: 10.1088/1742-6596/838/1/012002

Strategies for measuring occupational exposure to aerosols composed of nanoparticles and/or ultrafine particles highlight the use of techniques for determining airborne-particle number concentration as well as number size distribution. The objective of the present work was to set up a system for conducting laboratory verification campaigns of condensation particle counters (CPCs). Providing intercomparison data as well as calibrating and checking CPCs are among the key elements in ensuring reliable laboratory or field measurement campaigns. For this purpose, the reproducible aerosol source "Calibration Tool", initially developed by the Fraunhofer ITEM, was acquired by the Laboratory of Aerosol Metrology at INRS. As a first part of this study, a detailed characterization of the Calibration Tool developed at the laboratory is the subject of the parametric study presented here. The complete installation is named the "DCC" for "Device for Counter Check". Used in combination with a reference counter, the DCC can now be used for routine laboratory measurements. Unlike that used for primary calibration of a CPC, the proposed protocol allows a wide range of number concentrations and particle sizes to be investigated and reproduced. The second part of this work involves comparison of the number concentrations measured by several models of CPC in parallel at the exit of a flow splitter, with respect to a reference.