Electrohydrodynamics in an electrostatic precipitator

T. Yamamoto; H. R. Velkoff

doi:10.1017/S002211208100195X

Abstract

Experimental and theoretical studies were undertaken to investigate the particulatefree secondary flow interaction in the wire-type electrostatic precipitator. The secondary flow generated by the corona discharge is not negligible, and strong flow interactions take place owing to the induced circulatory cells. The calculated numerical results demonstrate close agreement with experiment.

References

Leutert, G. & Bohlen, B. 1972 The spatial trend of electric field strength and space charge density in plate-type electrostatic precipitators. Staub-Reinhalt. Luft 32, 27–33 (in English).Google Scholar

Xakamura, S. 1977 Computation Methods in Engineering and Science with Applications to Fluid Dynamics and Nuclear Systems. Wiley-Interscience.

Ramadan, D. E. & Soo, S. L. 1969 Electrohydrodynamic secondary flow. Phys. Fluids 12, 1943–1945.Google Scholar

Roache, P. J. 1972 Computation Fluid Dynamics. Hermosa.

Robinson, M. 1976 Effects of the corona discharge on electric wind convection and eddy diffusion in an electrostatic precipitator. ERDA, Health & Safety Lab. Rep. HASL-301.Google Scholar

Yabe, A., Mori, Y. & Hijikata, K. 1978 EHD study of the corona wind between wire and plate electrodes. A.I.A.A.J. 16, 340–345.Google Scholar

Yamamoto, T. 1979 Electrohydrodynamic secondary flow interaction in an electrostatic precipitator. Ph.D. thesis, Ohio State University.

Yamamoto, Y., Nakamura, S. & Velkoff, H. R. 1980 Numerical study of secondary flow interaction in an electrostatic precipitator. Innovative Numerical Analysis for the Engineering Science, pp. 3–12. University Press of Virginia.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Cooperman, Gene 1984. A unified efficiency theory for electrostatic precipitators. Atmospheric Environment (1967), Vol. 18, Issue. 2, p. 277.

Shaughnessy, E. J. Davidson, J. H. and Hay, J. C. 1985. The Fluid Mechanics of Electrostatic Precipitators. Aerosol Science and Technology, Vol. 4, Issue. 4, p. 471.

Davidson, J. H. and Shaughnessy, E. J. 1986. Turbulence generation by electric body forces. Experiments in Fluids, Vol. 4, Issue. 1, p. 17.

Yamamoto, Toshiaki and Sparks, Leslie E. 1986. Numerical Simulation of Three-Dimensional Tuft Corona and Electrohydrodynamics. IEEE Transactions on Industry Applications, Vol. IA-22, Issue. 5, p. 880.

Kallio, Gregory A. and Stock, David E. 1986. Computation of electrical conditions inside wire-duct electrostatic precipitators using a combined finite-element, finite-difference technique. Journal of Applied Physics, Vol. 59, Issue. 6, p. 1799.

Ang, M.L. and Lloyd, P.J. 1987. Investigation of charged particle trajectories in electrostatic powder coating systems. International Journal of Multiphase Flow, Vol. 13, Issue. 6, p. 823.

Atten, Pierre McCluskey, Frank M. J. and Lahjomri, Ahmed Chakib 1987. The Electrohydrodynamic Origin of Turbulence in Electrostatic Precipitators. IEEE Transactions on Industry Applications, Vol. IA-23, Issue. 4, p. 705.

Maezono, I. and Chang, J.S. 1988. Reduction of CO/sub 2/ from combustion gases by DC corona torches. p. 1636.

Maezono, I. and Chang, Jen-Shih 1988. Flow-enhanced corona discharge: The corona torch. Journal of Applied Physics, Vol. 64, Issue. 6, p. 3322.

Van Rosendale, J. R. Malik, M. R. and Hussaini, M. Y. 1988. Ion-wind effects on Poiseuille and Blasius flow. AIAA Journal, Vol. 26, Issue. 8, p. 961.

Chang, J.-S. and Maezono, I. 1989. The effects of electrohydrodynamic flow on a corona torch. Journal of Electrostatics, Vol. 23, Issue. , p. 323.

Nelson, D.A. and Shaughnessy, E.J. 1989. An exact solution for electrically-driven convection between vertical electrodes. p. 2084.

Davidson, J.H. and McKinney, P.J. 1989. EHD flow visualization in the wire-plate and barbed plate electrostatic precipitator. p. 2118.

Yamamoto, Toshiaki 1989. Effects of turbulence and electrohydrodynamics on the performance of electrostatic precipitators. Journal of Electrostatics, Vol. 22, Issue. 1, p. 11.

Davidson, J.H. and McKinney, P.J. 1989. Turbulent mixing in a barbed plate-to-plate electrostatic precipitator. Atmospheric Environment (1967), Vol. 23, Issue. 10, p. 2093.

Watanabe, T. 1989. Calculation of fly ash particle motion and its migration velocity in an electrostatic precipitator. p. 2126.

Enliang, Li Yingmin, Wang and Raper, J. A. 1990. Study of Gas Velocity Distribution in Electrostatic Precipitators. Aerosol Science and Technology, Vol. 12, Issue. 4, p. 947.

Kallio, G.A. and Stock, D.E. 1990. Flow visualization inside a wire-plate electrostatic precipitator. IEEE Transactions on Industry Applications, Vol. 26, Issue. 3, p. 503.

Davidson, J. H. and McKinney, P. J. 1990. Electrohydrodynamic Precipitator Flow with a Barbed Plate Discharge Electrode. Aerosol Science and Technology, Vol. 12, Issue. 2, p. 319.

Maezono, I. and Chang, J.-S. 1990. Reduction of CO/sub 2/ from combustion gases by DC corona torches. IEEE Transactions on Industry Applications, Vol. 26, Issue. 4, p. 651.

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Electrohydrodynamics in an electrostatic precipitator

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