Comparison of sensor characteristics of three real-time monitors for organic vapors

• Published in: Journal of Occupational Health Vol. 57; no. 1; pp. 13 - 19
• Main Authors: Hori, Hajime, Ishimatsu, Sumiyo, Fueta, Yukiko, Hinoue, Mitsuo, Ishidao, Toru
• Format: Journal Article
• Language: Japanese; English
• Published: Australia JAPAN SOCIETY FOR OCCUPATIONAL HEALTH 01.01.2015; John Wiley & Sons, Inc
• Subjects: Air Pollution, Indoor - analysis; Chromatography, Gas; Environmental Monitoring - methods; Flame Ionization; Flame ionization detectors; Gases - analysis; Humans; Interference enhanced reflection method; Ionization; Japan; Methyl alcohol; Monitors; Occupational Exposure - prevention & control; Occupational health; Organic solvent; Photoionization detector; Real time; Real time monitor; Semiconductor gas sensor; Semiconductors; Sensors; Solvents; Solvents - classification; VOCs; Volatile organic compounds; Volatile Organic Compounds - analysis; Volatilization; Working environment measurement; Japan; INW, Japan
• ISSN: 1341-9145; 1348-9585; 1348-9585
• DOI: 10.1539/joh.14-0146-oa

[Abstract] : [Objective] : Sensor characteristics and performance of three real-time monitors for volatile organic compounds (VOC monitor) equipped with a photo ionization detector (PID), a sensor using the interference enhanced reflection (IER) method and a semiconductor gas sensor were investigated for 52 organic solvent vapors designated as class 1 and class 2 of organic solvents by the Ordinance of Organic Solvent Poisoning Prevention in Japan. [Methods] : Test vapors were prepared by injecting each liquid solvent into a 50 / Tedlar(R) bag and perfectly vaporizing it. The vapor concentration was from one-tenth to twice the administrative control level for all solvents. The vapor concentration was measured with the monitors and a gas chromatograph equipped with a flame ionization detector simultaneously, and the values were compared. [Results] : The monitor with the PID sensor could measure many organic vapors, but it could not detect some vapors with high ionization potential. The IER sensor could also detect many vapors, but a linear response was not obtained for some vapors. A semiconductor sensor could detect methanol that could not be detected by PID and IER sensors. [Conclusions] : Working environment measurement of organic vapors by real-time monitors may be possible, but sensor characteristics and their limitations should be known.