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The effect of atmospheric conditions on plume rise

Published online by Cambridge University Press:  29 March 2006

P. R. Slawson  and
G. T. Csanady
P. R. Slawson
Affiliation:
University of Waterloo, Ontario
G. T. Csanady
Affiliation:
University of Waterloo, Ontario
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Abstract

The buoyant rise of chimney plumes is discussed for relatively large distances from the source, where atmospheric turbulence is the dominant cause of mixing (rather than turbulence due to the plume's own upward motion). A simple theory is developed which shows a number of different shapes plumes can have under different atmospheric conditions (particularly in an unstable environment).

Experimental data are then presented, which were collected in the field near Toronto, with reasonably detailed supporting information on the atmospheric temperature structure. These (and earlier results) often show quite complex plume behaviour at large distances from the source, which can, however, be readily understood in terms of the simple theory presented.

Type
Research Article
Information
Journal of Fluid Mechanics , Volume 47 , Issue 1 , 14 May 1971 , pp. 33 - 49
Copyright
© 1971 Cambridge University Press

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References

Briggs, G. A. 1969 Plume rise. AEC Critical Review Series.
Bringfelt, B. 1969 A study of buoyant chimney plumes in neutral and stable atmospheres Atm. Env. 3, 609623.Google Scholar
Csanady, G. T. 1965 The buoyant motion within a hot gas plume in a horizontal wind J. Fluid Mech. 22, 225.Google Scholar
Hoult, D. P., Fay, J. A. & Forney, L. J. 1969 A theory of plume rise compared with field observations J. Air Poll. Control Ass. 19, 585590.Google Scholar
Moore, D. J. 1966 Physical aspects of plume models Int. J. Air Water Poll. 10, 411.Google Scholar
Morton, B. R., Taylor, G. I. & Turner, J. S. 1956 Turbulent gravitational convection from maintained and instantaneous sources. Proc. Roy. Soc. A 23, 1.Google Scholar
Slawson, P. R. 1968 On the mean path of buoyant bent-over plumes under various atmospheric stability conditions. University of Waterloo, Mech. Eng. Report, no. 13.Google Scholar
Slawson, P. R. & Csanady, G. T. 1967 On the mean path of buoyant, bent-over chimney plumes J. Fluid Mech. 28, 311322.Google Scholar