METHOD

High-performance aerosol sampler with liquid phase recirculation and pre-concentration of particles

Akmalov AE1, Kotkovskii GE1, Stolyarov SV1, Verdiev BI2, Ovchinnikov RS2, Pochtovyy AA2, Tkachuk AP2, Chistyakov AA1
About authors

1 National Research Nuclear University MEPhI, Moscow

2 N. F. Gamaleya Federal Research Center for Epidemiology and Microbiology, Moscow

About paper

Funding: this work was supported by the Federal Target Program The National System for Chemical and Biological Security of the Russian Federation (2015- 2020), the state contract No. K-27-НИР/148-2 signed by the Ministry of Healthcare of the Russian Federation and the National Research Nuclear University MEPhI.

Received: 2018-07-27 Accepted: 2018-08-23 Published online: 2018-10-05
|
  1. Lacey J, Dutkiewicz J. Bioaerosols and Occupational Lung Desease. J Aerosol Sci. 1994; 25 (8): 1371–1404.
  2. Omelianetz G. Biological Hazards as Risks Factors in Microbial Industry. Pharmacol Toxicolog Suppl. 1997; (80): 141–145.
  3. Sigaev G, et al. Development of a Cyclone-based Aerosol Sampler with Recirculating Liquid Film: Theory and Experiment. Aerosol Sci and Tech. 2006; 40 (5): 293–308.
  4. Henningson EW, Ahlberg MS. Evaluation of Microbiological Aerosol Samplers. A Review. J Aerosol Sci. 1994; (25): 1459–1492.
  5. Baron PA, Willeke K. Aerosol Fundamentals. In: Baron PA, Willeke K, editors. Aerosol measurement: principles, techniques and applications. 2nd ed. New York: Wiley-Interscience; 2001. p. 55–60.
  6. McFarland AR, HYPERLINK "https://www.researchgate.net/profile/ Maria_King4" King MD, HYPERLINK "https://www.researchgate. net/profile/John_Haglund2" Haglund JS, HYPERLINK "https:// www.researchgate.net/scientific-contributions/21610210_ Youngjin_Seo" Seo Y.Wetted Wall Cyclones for Bioaerosol Sampling. Aerosol sampling and technology. 2010; 44 (4): 241– 252. DOI: 10.1080/02786820903555552.
  7. Marple V, Olson B, Rubow K. Inertial gtavitational, centrifugal and thermal collection techniques. In: Baron PA, Willeke K, editors. Aerosol measurement: principles, techniques and applications. 2nd ed. New York: Wiley-Interscience; 2001. p. 229–39.
  8. Sigaev VI. Novel liquid sampler for aerosols. Abstracts of the 20th annual AAAR Conference; Portland, Oregon. 2001. Abstract 11PG5:406.
  9. Solomon PA, HYPERLINK "https://www.researchgate.net/profile/ Matthew_Landis" Landi MS, HYPERLINK "https://www. researchgate.net/scientific-contributions/71734146_Gary_ Norris" Norris G, HYPERLINK "https://www.researchgate. net/scientific-contributions/10776481_Michael_P_Tolocka" Tolocka MP. Chemical analyses methods for atmospheric aerosol components. In: Baron PA, Willeke K, editors. Aerosol measurements: principles, techniques and applications. 2nd ed. New York: Wiley-Interscience; 2001. p. 261–93
  10. Saaski E, et al. Concentrator. US Patent 9791353B2. October 2017.
  11. Saaski E, et al. Liquid particulate extraction device. US Patent 7846228B1. December 2010.
  12. Marple VA, Liu BYH. Characteristics of laminar jet impactors. Envir Sci Technol. 1974; (7): 648–54.
  13. Marple V. A fundamental study of inertial impactors [dissertation]. Minneapolis (MN): University of Minnesota; 1970.
  14. Chen BT, Yeh HC. An improved virtual reactor: design and performance. J Aerosol Sci. 1987; 18 (2): 203–14.