The Basics of Fine Dust Dispersion in the Centrifugal Inertial Dust Collector

There was demonstrated the relevance of protecting the biosphere from the most common man-made air pollutants – fine dust, both natural and anthropogenic origin. There was proposed methodological approach to the description of the process (separation) of solid particles from a gas stream entering the separation zone. There was developed a mathematical model and a program for calculating gas-dynamic process of separation of fine dust in the centrifugal inertial dust collector by methods of computing experiment. There were made full-scale and computational experiments. There was developed technical documentation of the dust collector with capacity from 500 to 40,000 m³/h.

1. Воздействие взвешенных частиц на здоровье // Всемирная организация здравоохранения,2013.URL: http://www.euro.who.int/__data/assets/pdf_file/0007/189052/Healtheffects-of-particulate-matter-final-Rus.pdf (дата обращения: 28.03.2016)

2. Janssen NAH et al. Health effects of black carbon. Copenhagen, WHO Regional Office for Europe, 2012. URL: http://www.euro.who.int/en/what-we-do/health-topics/ environment-and-health/air-quality/publications/2012/health-effects-ofblack-carbon (дата обращения: 28.10.2012)

3. Karanasiou A., Moreno N., Viana M., de Leeuw F., Querol X. Health effects from Sahara dust episodes in Europe: Literature review and research gaps // Environment International. 2012. Vol. 47. P.107-114.

4. Janae Csavina, Jason Field, Mark P. Taylor et al. A review on the importance of metals and metalloids in atmospheric dust and aerosol from mining operations // Science of Total Environment. 2012. Vol. 433. P.58-73.

5. Россия в окружающем мире 2008. Устойчивое развитие: экология, политика, экономика: Аналитический ежегодник / Под общ. ред. Н.Н. Марфенина, С.А. Стеапанина. М.: Изд-во МНЭПУ, 2008. 328 с.

6. Jawad Mohmanda, Syed Ali Musstjab Akber Shah Eqani, Mauro Fasola et al. Human exposure to toxic metals via contaminated dust: Bio-accumulation trends and their potential risk estimation // Chemosphere. 2015. № 132. P.142-151.

7. Higginbotham Nick, Freeman Sonia, Connor Linda, Albrecht Glenn. Environmental injustice and air pollution in coal affected communities, Hunter Valley, Australia // Health & Place. 2010. Vol. 16. № 2 Р.259-266.

8. Zhang Ju, Deng Huanguang, Wang Dongqi et al. Toxic heavy metal contamination and risk assessment of street dust in small towns of Shanghai suburban area, China // Environmental Science and Pollution Research. 2013. Vol. 20. № 1. P.323-332.

9. Exposure to air. Copenhagen, WHO Regional Office for Europe, 2011 (ENHIS Factsheet3.3). URL: http://www.euro.who.int/__data/assets/pdf_file/0018/97002/ENHIS__Factsheet__3.3_July_2011.pdf (дата обращения: 14.05.2014)

10. Samoli Evangelia, Kougea Evgenia, Kassomenos Pavlos et al. Does the presence of desert dust modify the effect of PM10 on mortality in Athens, Greece? // Science of the total environment. 2011. Vol. 409. № 11 Р.2049-2054.

11. Jong-Tae Lee, Ji-Young Son, Yong-Sung Cho. The adverse effects of fine particle air pollution on respiratory function in the elderly // Science of the Total Environment. 2007. Vol. 385. № 1-3 P.28-36.

12. Jiménez E., Linares C., Rodríguez L.F. et al. Short-term impact of particulate matter (PM2.5) on daily mortality among the over 75 age group in Madrid (Spain) // Science of the Total Environment. 2009. Vol. 407. № 21. P.5486-5492.

13. Franck Ulrich, Odeh Siad, Wiedensohler Alfred et al. The effect of particle size on cardiovascular disorders - The smaller the worse // Science of the Total Environment. 2011. Vol. 409. № 20. P.4217-4221.

14. Lim SS et al. A comparative risk assessment of burden of disease and injury attributable to 67 risk factors and risk factor clusters in 21 regions, 1990-2010: a systematic analysis for the Global Burden of Disease Study 2010 // The Lancet. 2012. Vol. 380. P.2224-2260.

15. Тращилова А.В. Оценка риска смертности населения от мелкодисперсных взвешенных частиц, выбрасываемых в атмосферу промышленными предприятиями: Дис. … канд. биол. наук. Волгоград, 1999. 161 с.

16. Подрезов А.В., Володин Н.И., Журавлева Ю.Н., Чистяков Я.В., Чичура Т.М. Очистка газов от мелкодисперсных пылей // Экология и промышленность России. 2004. Ноябрь. С.20-22.

17. Чистяков Я.В., Махнин А.А., Невский А.В. Математическая модель определения параметров центробежно-инерционного пылеуловителя // Химия и химическая технология. 2012. Т. 55. Вып. 12. С.93-97.

18. Патент 81092 U1. Российская Федерация, МПК В 01 D 45/04. Устройство для улавливания и классификации пыли по фракциям / Н. И. Володин и др. Опубл. 10.03.2009. Бюл. № 7.