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Tytuł artykułu

Improvement of interlaboratory evaluation method of olfactometry in Japan

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Odor measurement is a crucial element of odor management and regulation. In Japan, nationwide interlaboratory evaluation of olfactometry using a variety of test odorants started in 2002. In the interlaboratory tests, odor index, a sensory index of odor determined by the triangular odor bag method, is measured. In 2016, interlaboratory evaluation method of olfactometry was improved. Isoamyl acetate with a concentration of 50 ppm was used as a test odor, and a total of 128 olfactometry laboratories participated in the test. In this method, test results of 11 ‘excellent qualified laboratories’ designated by the Japan Association on Odor Environment (JAOE) were used to determine reference value and repeatability and reproducibility standard deviations of odor index. On the bases of these statistical values, measurement results of each laboratory were evaluated, including trueness and precision. Among 127 evaluated laboratories, 87 laboratories (68%) conformed to both trueness and precision criteria. In the case of ‘qualified odor measurement laboratories’ designated by the JAOE, 53 out of 68 laboratories (78%) conformed to both criteria. The qualified odor measurement laboratories registration system of the JAOE contributes to the improvement of the quality of olfactometry laboratories and the reliability of odor measurement in Japan.
Rocznik
Strony
94--99
Opis fizyczny
Bibliogr. 19 poz., rys., tab., wykr.
Twórcy
autor
  • Yamaguchi University, Japan
autor
  • Japan Association on Odor Environment, Japan
Bibliografia
  • 1. AS/NZS 4323.3 (2001). Stationary source emissions – Part 3: Determination of odour concentration by dynamic olfactometry, Standards Australia, Sydney, Australia/Standards New Zealand, Wellington, New Zealand.
  • 2. ASTM E679-04 (2011). Standard practice for determination of odor and taste thresholds by a forced-choice ascending concentration series method of limits, ASTM International, West Conshohocken, USA.
  • 3. Brancher, M., Griffiths, K. D., Franco, D. & De Melo Lisboa, H. (2017). A review of odour impact criteria in selected countries around the world, Chemosphere, 168, pp. 1531–1570.
  • 4. EN 13725 (2003). Air quality – Determination of odour concentration by dynamic olfactometry, European Committee for Standardization, Brussels, Belgium.
  • 5. Higuchi, T. (2009). Estimation of uncertainty in olfactometry, Water Science and Technology, 59, 7, pp. 1409–1413.
  • 6. Higuchi, T. (2013). Determination of odour concentration by the triangular odour bag method, in: Odour Impact Assessment Handbook, Belgiorno, V., Naddeo, V. & Zarra, T. (Eds.). John Wiley & Sons, West Sussex, UK, pp. 43–50.
  • 7. Higuchi, T. & Masuda, J. (2004). Interlaboratory comparison of olfactometry in Japan, Water Science and Technology, 50, 4, pp. 147–152.
  • 8. Higuchi, T., Masuda, J. & Hayano, A. (2002). Establishment of quality control framework for olfactometry in Japan, Proceedings of the WEF’s International Specialty Conference. Odors and Toxic Air Emissions 2002. (CD-ROM)
  • 9. Higuchi, T. & Nishida, K. (1995). Analysis of data measured by the triangular odor bag method, in: Odors: Indoor and Environmental Air. Proceedings of the A&WMA’s International Specialty Conference, pp. 181–192.
  • 10. Higuchi, T., Ukita, M., Sekine, M. & Imai, T. (2007). A case study and recent improvements in odor management in Japan, Water Practice, 1, 2, pp. 1 –7.
  • 11. Iwasaki, Y., Ishiguro, T., Koyama, I., Fukushima, H., Kobayashi, A. & Ohira, T. (1972). On the new method of determination of odor unit, Proceedings of the 13th Annual Meeting of the Japan Society of Air Pollution, p. 168. (in Japanese)
  • 12. Iwasaki, Y., Fukushima, H., Nakaura, H., Yajima, T. & Ishiguro, T. (1978). A new method for measuring odors by triangle odor bag method (I)—Measurement at the source, Journal of Japan Society of Air Pollution, 13, 6, pp. 246–251. (in Japanese)
  • 13. Japan Environment Agency (1995). Determination of odor index and odor emission rate, Notification Number 63, Japan Environment Agency, Tokyo, Japan. (in Japanese)
  • 14. Japan Ministry of the Environment (2002). Olfactory Measurement Method Quality Control Manual, Japan Ministry of the Environment, Tokyo, Japan. (in Japanese)
  • 15. JIS Z 8402-2 (1999). Accuracy (trueness and precision) of measurement methods and results–Part 2: Basic method for the determination of repeatability and reproducibility of a standard measurement method, Japanese Industrial Standards Committee, Tokyo, Japan. (Japanese version of ISO 5725-2: 1994)
  • 16. JIS Z 8402-6 (1999). Accuracy (trueness and precision) of measurement methods and results–Part 6: Use in practice of accuracy values, Japanese Industrial Standards Committee, Tokyo, Japan. (Japanese version of ISO 5725-6: 1994)
  • 17. Naddeo, V., Zarra, T., Kubo, A., Uchida, N., Higuchi, T. & Belgiorno, V. (2016). Odour measurement in wastewater treatment plant using both European and Japanese standardized methods: Correlation and comparison study, Global NEST Journal, 18, 4, pp. 728–733.
  • 18. Ueno, H. & Amano, S. (2007). A comparative study between the Japanese and the European olfactometry standards (IV), Bulletin of Tokyo Metropolitan Research Institute for Environmental Protection 2007, pp. 45–52. (in Japanese)
  • 19. Ueno, H., Amano, S., Merecka, B. & Kośmider, J. (2009). Difference in the odor concentrations measured by the triangle odor bag method and dynamic olfactometry, Water Science and Technology, 59, 7, pp. 1339–1342
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-58bb6532-6531-4b9f-bd08-ab053ac436e6
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