Design of Dust-Removing Ventilation Systems With Regard to Particle Size Distribution During Grinding Plant Materials

The paper studies the particle size distribution during grinding and packaging plant materials in a workshop producing biologically active additives. The dispersion micrometric analysis is used to measure the particle size. It is shown how the obtained data are used to measure the suspension velocity which is necessary for design of dust-removing ventilation systems. The multiplying ratio is calculated for the complex particle geometry and suspension velocity obtained by Pirumov’s nomograph.

аспирация, пневмотранспорт, дисперсионный состав пыли, измельчение растительного сырья, циклоны, местные отсосы, aspiration, pneumatic transport, particle size distribution, plant material grinding, cyclone, local exhaust

1. Logachev I.N., Logachev K.N., Averkova O.A. Energosberezhenie v aspiratsii [Energy saving in aspiration]. Regulyarnaya i khaoticheskaya dinamika. 2013. 504 р. (rus)

2. Aksenov S.P., Sushko E.A. Promyshlennaya bezopasnost' pri proektirovanii sistem pyleudaleniya drobil'nykh proizvodstv [Industrial safety in design of dust extraction systems for crushing plants]. Nauchnyi zhurnal stroitel'stva i arkhitektury. 2008. No. 2. Рр. 162–173. (rus)

3. Tanicheva T.G., Shatilo V.V., Kisleva S.Yu. Aspiratsiya oborudovaniya ob"ektov khraneniya i perera-botki rastitel'nogo syr'ya, kak neobkhodimaya mera, snizhayushchaya risk obrazovaniya opasnoi kontsentratsii pyli [Aspiration of equipment for storage and processing of plant raw materials as a necessary measure, reducing the formation risk of dangerous dust concentration]. Potentsial sovremennoi nauki. 2015. Рр. 19–22. (rus)

4. Lukanin D.V., Nazarova M.A., Bdoyan E.R. O pylevydeleniyakh ot tekhnologicheskogo protsessa gipsovogo proizvodstva v rabochuyu zonu [Dust emissions from gypsum production to working area]. Tekhnicheskie nauki - ot teorii k praktike. 2013. No. 19. Рр. 156–160. (rus)

5. Danilova S.V., Anokhin R.V., Fedoseev P.A., Fedoseev A.S. Obespechenie bezopasnosti na ob"ektakh khraneniya zerna, produktov ego pererabotki i kombikormovogo syr'ya [Ensuring safety at grain storage facilities, its processing products and raw materials]. Aktual'naya biotekhnologiya. 2015. No. 1 (12). Рр. 50–53. (rus)

6. Logachev I.N., Logachev K.I. Aerodinamicheskie osnovy aspiratsii [Aerodynamic bases of aspiration]. St.-Peterburg: Khimizdat Publ., 2005. 659 р. (rus)

7. Smol'nikov D. Energosberegayushchaya aspiratsiya [Energy saving aspiration]. Khleboprodukty. 2010. No. 4. Рр. 24–26. (rus)

8. Tolstykh A.V., Doroshenko Yu.N. Operativnoe regulirovanie sistem promyshlennoi ventilyatsii dlya effektivnoi ochistki gazov v tsiklonakh [Operation control systems of industrial ventilation for effective gas purification in cyclones]. Vestnik of Tomsk State University of Architecture and Building. 2015. No. 3. Рр. 201–209. (rus)

9. Azarov V.N., Koshkarev S.A., Nikolenko M.A. K opredeleniyu fakticheskikh razmerov chastits pyli vybrosov stroiindustrii i stroitel'stva [Actual particle size of dust emissions in construction industry]. Inzhenernyi vestnik Dona. 2015. No. 1. Рр. 44–54. (rus)

10. Aleksandrov A.N., Kozorioz G.F. Pnevmotransport i pyleulavlivayushchie sooruzheniya na derevoobrabatyvayushchikh predpriyatiyakh [Pneumatic transport and dust collection facilities at woodworking enterprises]. Moscow: Lesnaya promyshlennost', 1988. 248 р. (rus)

11. Gol'tsov A.B. Raschet ob"emov aspiratsii pri pererabotke rudy [Calculation of aspiration volumes during ore processing]. Vestnik Belgorodskogo gosudarstvennogo tekhnologicheskogo universiteta im. V.G. Shukhova. 2005. No. 12. Рр. 19–21. (rus)

12. Gol'tsov A.B., Feoktistov A.Yu., Staroverov S.V., Kireev V.M. K voprosu proektirovaniya aspiratsionnykh ukrytii dlya stesnennykh uslovii [Design of aspiration shelters for cramped conditions]. Khimicheskoe i neftegazovoe mashinostroenie. 2013. No. 4. Рр. 35–37. (rus)

13. Koshkarev S.A., Solomakhina L.Ya., Redvan A. Dispersionnyi analiz pyli vybrosov v sistemakh aspiratsii proizvodstva tsementa s ispol'zovaniem usovershenstvovannoi eksperimental'noi ustanovki [Dispersion analysis of dust emissions in cement aspiration systems using an improved experimental installation]. Inzhenernyi vestnik Dona. 2014. No 3. Рр. 185–199. (rus)

14. Allen T. Particle size measurement. Springer, 2013. Available at: books.google.ru/books? hl=ru&lr=&id=7dsFCAAAQBAJ&oi=fnd&pg=PR17&dq=analysis+of+varince+dispersed+dust+particle&ots=SkkjTLlsXk&sig=5NC9ebZSmyRUxn4VlHzn79pQE08&redir_esc=y#v=one page&q&f=false/

15. Mogilyuk V., Dobrovol'nyi A. Izmel'chenie tverdykh veshchestv [Crushing of solids]. Farmatsevticheskaya otrasl'. 2015. No. 5. Рр. 64–70. (rus)

16. Novikov V.T. Oborudovanie i osnovy proektirovaniya sistem okhrany okruzhayushchei sredy. Chast' 1. Pyl', ee svoistva i pyleulavlivanie [Equipment and basis for design of environmental protection systems]. Tomsk: TPU Publ., 2003. 176 р. (rus)

17. Kouzlov P.A. Osnovy analiza dispersnogo sostava promyshlennykh pylei i izmel'chennykh materialov [Analysis of disperse composition of industrial dusts and crushed materials]. Moscow: Khimiya Publ., 1987. 264 р. (rus)

18. Shtokman E.A. Ventilyatsiya, konditsionirovanie i ochistka vozdukha na predpriyatiyakh pishchevoi promyshlennosti [Ventilation, air conditioning and air purification in food industry]. Moscow: ASV Publ., 2001. 564 р. (rus)

19. Pirumov A.I. Obespylivanie vozdukha [Dedusting air]. Moscow: Stroyizdat Publ., 1981. 296 р. (rus)