1. Entrainment in pulsing plumes.
- Author
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Huang, Danlan, Williamson, Nicholas, and Armfield, Steven W.
- Subjects
- *
PLUMES (Fluid dynamics) , *ENTRAINMENT (Physics) , *FLUID dynamics , *BUOYANCY-driven flow , *AMPLITUDE estimation - Abstract
Turbulent axisymmetric lazy plumes produced by discharging saline fluid downwards into a less dense uniform environment from a round pipe are examined experimentally. The plume development is controlled by the source flow rate Q 0 , momentum M 0 and buoyancy F 0 . This study investigated plumes where the source flow rate, momentum and buoyancy are sinusoidal functions of time. The pulsing flow is generated by a programmable ISMATEC gear pump. The maximum frequency f of this pulsing plume is of O (U 0 / D) , where D / U 0 is the eddy turnover time scale at the source, D is the source diameter, and U 0 is the average velocity at the source. Experiments with pulsing plumes were carried out with a flow rate amplitude A of up to 80 % and with Strouhal number S t = f D / U 0 ranging from 0.012 to 1.2. The bulk dilution and entrainment measurements were made using the experimental approach of Hunt and Kaye (J Fluid Mech 435:377–396, 2001). Average entrainment is obtained via the integral relationship for Q(z) and M(z) from the model established by Morton et al. (Proc R Soc Lond A 234(1196):1–23, 1956) for continuous sources. The influence of the amplitude and Strouhal number St on the entrainment coefficient α is examined, which was found to be very small over the entire range of source conditions considered. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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