Paper Titles

Preface and Conference Organization

Analysis of 2-D Impedance Cloaking Problem Based on Boundary Element Method
p.3

Analysis on the Inhomogeneity of Air Intake and Retrofit Optimization of the Air Intake Pipe in the Engine T12V190
p.7

Control Approach in Cloaking Problems for 2-D Model of Sound Scattering
p.13

Gas Dynamics in a Counterflow Cyclone with Conical Nozzles on the Exhaust Pipe
p.17

Heat Transmitting Research on Fresh Water Cooling System of a Self-Elevating Drilling Unit
p.22

Impact on the Performance of Micro-Nozzle Straight Exit Section
p.26

The Calculation and Experiment Based on the Finite Difference Method for the High-Voltage Electrostatic Field of Melting Electron Beam Gun
p.31

The Optimization on Grid Division Methods of Blade Pump Blades Based on CFD
p.35

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 635-637Gas Dynamics in a Counterflow Cyclone with Conical...

Gas Dynamics in a Counterflow Cyclone with Conical Nozzles on the Exhaust Pipe

Article Preview

Abstract:

Countercurrent cyclones have been quite widely applied in various industries [1-12]. In this paper, on the example of classical construction of countercurrent cyclone considers the impact of the conical nozzle on the exhaust pipe to the gas-dynamic picture and efficiency dedusting.

You might also be interested in these eBooks

Advanced Design and Manufacturing Technology IV

Info:

Periodical:

Applied Mechanics and Materials (Volumes 635-637)

Pages:

17-21

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.635-637.17

Citation:

Cite this paper

Online since:

September 2014

Authors:

Nikolay Vatin*, K.I. Strelets, Nikita Kharkov

Keywords:

Cyclone, Dedusting, Flow Swirling, Hydrodynamics, Numerical Simulation, Separation

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2014 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

* - Corresponding Author

[1] M.V. Vasilevsky, E.G. Zykov Calculation of the efficiency of gas cleaning in inertial devices: Textbook. - Tomsk: TPU, 2005. - 86 p.

[2] N.I. Vatin, K. I Strelets, M.B. Kitain Determination of welding spark parameters for cyclone effeciency calculation. Magazine of Civil Engineering, No. 5, 2011, pp.25-30.

DOI: 10.5862/mce.23.2

[3] M.R. Petrichenko, D.V. Serov Doubling the variables in equations and sets of ordinary differential equations St. Petersburg State Polytechnical University Journal. Physics and Mathematics, No158, 2012, pp.120-125.

[4] M.R. Petrichenko Filtration field and filtration capacity of single flow St. Petersburg State Polytechnical University Journal. Physics and Mathematics, No 178, 2013, pp.252-259.

[5] Moonho Choi, Sungwon Lee and Jin-Ki Ham Study on the Configuration Effect of a Vortex Finder for a Gas-Solid Cyclone Separator Using Eulerian-Eulerian Approach, ASME 2013 International Mechanical Engineering Congress and Exposition, Vol. 7A: Fluids Engineering Systems and Technologies.

DOI: 10.1115/imece2013-63408

[6] S. Obermaier, J. Woisetschläger, G. Staudinger The Flow Pattern in the Dust Outlet Geometry of a Gas Cyclone and its Effects on Separation Efficiency. The Journal of the Filtration Society April 2002, Issue3, pp.80-84, (2002).

[7] Ksenia I. Strelets, Mikhail B. Kitain, Marina V. Petrochenko Welding Spark Parameters Determination for Cyclone Removal Calculation. Advanced Materials Research (Vol. 941 - 944), pp.2098-2103.

DOI: 10.4028/www.scientific.net/amr.941-944.2098

[8] N.I. Vatin, K.I. Strelets Air cleaning devices using type cyclone [Очистка воздуха при помощи аппаратов типа циклон]. St. Petersburg State Polytechnic University Civil Engineering Faculty, Department of technology, organization and economy of construction, St. Petersburg, (2003).

[9] N.I. Vatin, A.A. Girgidov, K.I. Strelets Numerical modeling the three-dimensional velocity in the cyclone. Magazine of Civil Engineering, No. 4, 2011, pp.5-9.

DOI: 10.5862/mce.23.5

[10] K.I. Strelets About characteristics of dust used in calculating efficiency dust removal in a cyclone [О характеристиках пыли, используемых при расчете эффективности пылеудаления в циклонах]. St. Petersburg State Polytechnical University Journal, 2010, No. 110, pp.222-226.

[11] K.I. Strelets Estimation of efficiency of particle deposition in the cyclone. Bulletin of Civil Engineers. 2010, No. 4, pp.138-143.

[12] K.I. Strelets Computational solution of the differential equations turbulent diffusion in centrifugal gas flow. St. Petersburg State Polytechnical University Journal. Computer Science. Telecommunication and Control Systems. 2010, Vol. 5, No. 108, pp.156-159.

[13] Khairy Elsayed, Chris Lacor Optimization of the cyclone separator geometry for minimum pressure drop using mathematical models and CFD simulations Chemical Engineering Science, Vol. 65, Issue 22, 15 November 2010, p.6048–6058.

DOI: 10.1016/j.ces.2010.08.042

[14] S.I. Pishbin1, M. Moghiman Optimization of Cyclone Separators Using Genetic Algorithm. International Review of Chemical Engineering (I. RE. CH.E. ) November 2010, Vol. 2, N. 6.

[15] Ma L., Ingham D.B., Wen X., Numerical modeling of the fluid and particle penetration trough small sampling cyclones, Journal of Aerosol Science, 31, (2000), 1097-1119.

DOI: 10.1016/s0021-8502(00)00016-1

[16] Thomas Wintterle, Eckart Laurien, Thomas Stäbler, Leonhard Meyer, Thomas Schulenberg Experimental and numerical investigation of counter-current stratified flows in horizontal channels. Nuclear Engineering and Design, Vol. 238, Issue 3, March 2008, Pages 627–636.

DOI: 10.1016/j.nucengdes.2007.02.043

[17] R.R. Usmanova, G.E. Zaikov Study the effects of conditions twist on the hydrodynamic characteristics of dispersed flows. Encyclopedia of Chemical Engineers, No. 5, 2014, pp.29-35.

[18] R.R. Usmanova, G.E. Zaikov Integrated study of hydrodynamics characteristics of the scrubber. Herald of Kazan Technological University, Vol. 17, No. 3, 2014, pp.213-217.

[19] D.V. Platonov, A.V. Minakov, A.A. Dekterev, A.V. Sentyabov: Numerical modeling of spatio flows with flow swirling. 2013. Computer studies and modeling. Vol. 5. No. 4. pp.635-648.

DOI: 10.20537/2076-7633-2013-5-4-635-648

[20] M.O. Gagne: Turbulence modeling of swirling flow in a sudden expansion geometry. 1997. Degree: M.A. Sc. Technical University of Nova Scotia (Canada).

[21] A.V. Shvab, A.G. Chepel: Modeling of swirling turbulent flow in a separator with biconical plates. 2010. Journal of engineering physics and thermophysics. Vol. 83. No. 2. pp.338-345.

DOI: 10.1007/s10891-010-0350-2

[22] S. Jakirlic, K Hanjalic, C. Tropea: Modeling rotating and swirling turbulent flows: a perpetual challenge. 2002. AIAA Journal. Vol. 40. No. 10. p.1984-(1996).

DOI: 10.2514/2.1560

[23] R. Thundil Karuppa Raj, V. Ganesan: Study on the effect of various parameters on flow development behind vane swirlers. 2008. International journal of thermal sciences. Vol. 47. No. 9. pp.1204-1225.

DOI: 10.1016/j.ijthermalsci.2007.10.019

[24] A.K. Panov, R.R. Usmanova, V.G. Zaikov, G.E. Zaikov Intensification of dust removal process. Journal of applied polymer science, Vol. 101, No. 5, 2006, pp.3357-3360.

DOI: 10.1002/app.24000

[25] R.R. Usmanova, G.E. Zaikov, O.V. Stoyanov, E. Klodzinska Research of the mechanism of shock-interial deposition of dispersed particles from gas flow. Herald of Kazan Technological University, Vol. 16, No. 9, 2013, pp.203-207.

[26] R.R. Usmanova, G.E. Zaikov, R. Ya. Deberdeev The new equipment for modernization of system of clearing of flue gases. Herald of Kazan Technological University, Vol. 17, No. 8, 2014, pp.246-251.

[27] R.R. Usmanova, G.E. Zaikov Experimental researches and calculation of boundary concentration of an irrigating liquid. Herald of Kazan Technological University, Vol. 17, No. 5, 2014, pp.183-187.

[28] R.R. Usmanova, G.E. Zaikov, V.G. Zaikov Calculation of dust separation efficiency of new dising dynamic gas washer. Journal of the Balkan tribological association, Vol. 14, No. 2, 2008, pp.247-251.

[29] A.K. Panov, R.R. Usmanova, V.G. Zaikov, G.E. Zaikov Complex aerohydrodynamic research and the effectiveness or arresting dispersed particles for barbotage-rotation. Journal of applied polymer science, Vol. 104, No. 4, 2007, p.2088-(2091).

DOI: 10.1002/app.25318

[30] N.I. Vatin, V.N. Chechevickin, A.V. Chechevickin About sorption-catalytic air cleaning in premises for people habitation in megapolises. Magazine of Civil Engineering, No. 1, 2011, pp.24-27.