Building a performance factors model for a new design dust collector

• Autorzy: Batluk V. , Paranyak N.
• Języki publikacji: EN

Abstrakty

EN

The factors hierarchy performance model for a new design dust collector is developed. In addition to ordering the factors by importance of their influence, this model allows further separation of dependent (internal) components to identify the degree of weakening or strengthening of the source factor.

Słowa kluczowe

EN

hierarchy model; linguistic variables; dust collector

• Wydawca: Polish Academy of Sciences, Branch in Lublin
• Czasopismo: ECONTECHMOD : An International Quarterly Journal on Economics of Technology and Modelling Processes
• Rocznik: 2012
• Tom: Vol. 1, No 3
• Strony: 3--7
• Opis fizyczny: Bibliogr. 20 poz., rys., tab.

Twórcy

autor

Batluk V.

• National University «Lviv Polytechnic»

autor

Paranyak N.

• National University «Lviv Polytechnic»

Bibliografia

• 1. Yuanhui Z. 2000. Modeling and Sensitivity Analysis of Dust Particle Separation for Unifl ow Dedusters. University of Illinois Urbana. – Champaign.
• 2. Kuts V.P. 1986. Enhancing the effectiveness of dust removal in a centrifugal inertial dust collector with air outlet louvre // Lviv., 221.
• 3. Batluk VA. 1997. Air purification from dust in the cement industry// Bulletin of the National University “Lviv Polytechnic” “Chemistry, Technology substances and their use.” - Lviv High School. -.No. 333. - 233-23.
• 4. Dubinin A., Hanyk J., Maystruk V. and Ihavryliv R. 2005. Pryamotechiyny cyclone with coaxial insert. Analysis work. / / Chemical Industry of Ukraine, 3, 26 - 28.
• 5. Plashyhyn S.V., Serebryansky D.A. and Beznosyk Y.A. 2010. Experimental studies tsyklofiltra in the capture of cement dust// Bulletin of the National Technical University “KPI”: Sat. Science. works. - Theme issue: New ideas in modern technologies. - Kharkov: Publishing House of NTU “KPI”. - No. 57,3-5.
• 6. Standard 17.2.4.06-90. The Nature Conservancy. Atmosphere. Methods for determination of the pressure and temperature of gas and dust flow from stationary sources.
• 7. Batluk V.A. 2007. Environmental Science // Tutorial - K.: Knowledge,519.
• 8. Black S.G., Gryazin J.A. and Shashkin P.A. 1999. Numerical modeling of turbulent flow of an incompressible fluid through key models // Computational technologies. T. 4. Number 2, 74-94.
• 9. Kuznetsov S.I. 2006. Study of characteristics of a cyclone dust collector, rotary / / Bulletin of Kherson National Technical University. No 3 (26), 85
• 10. Ratushnyak G.S. and Lyalyuk O.H. 2008. Cleaning gas emissions. Navier-cational aid. - Kiev: Universum-Vinnitsa, 207.
• 11. GOST 25757-83 (ST SEV 3257-81). Inertial dust collectors dry. Types and basic parameters.
• 12. Stockman E.A. 1998. Cleaning the air. - Moscow: Publishing DIA, 320.
• 13. Batluk V.A. 2001. Development, testing and implementation tools for cleaning the air of dust / Selected fundamental scientific works devoted to the tenth anniversary of the independence of Ukraine “Honored inventors and innovators of Ukraine” – Vinnytsia, Hmelny-tskyy: skirts, 156-162.
• 14. Ostrich V.N. 1981. Industrial cleaning gases. Translation from English YV Oblique. - M.: “Chemistry”. 616.
• 15. Uzhov V.N. and others. 1991. Purification of industrial gases from dust. - M.: “Chemistry”, 390.
• 16. Batluk V., Romanzov E. and Paranyak N. 2012. The problem of highly effective cleaning of air from dust. // ECONTECHMOD/Vol1. /No 1. Lublin-Lviv-Cracow.
• 17. GOST 25631-83 (ST SEV 3255-81), GOST 25632-83 (ST SEV 3252-81). Wet dust collectors. Types and basic parameters. Specifications.
• 18. Batluk V.A. and Paranyak N.M. Deduster of the heat exchanger and coil /; utility model patent number 50128 application number y200912666V01D45/00 vid7.12.2009. Published on 25.05 .2010, Bull. No 10 2010.
• 19. GOST 25199-82 (ST SEV 2145-80). Equipment pyleulav-Lebanon. Terms and definitions.
• 20. Swarms G.A. 1993. Treatment facilities. Environmental protection. Moscow: Nedra.