Geodesic
On the determination of the jet pump cavitation characteristics
Čelâbinskij fiziko-matematičeskij žurnal, Tome 1 (2016) no. 2, pp. 94-99.

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The paper defined cavitation characteristics of jet pumps operating on liquids on thermophysical characteristics are not reaching the saturation line. An analytical dependence is obtained for the limiting ejection coefficient $u_*$ on the number of cavitation $\sigma$ in its classical definition. A comparison is made for the experimental values of the limiting ejection coefficient $u_*$ with the calculated dependence of $u_*(\sigma)$. The possibility is shown for determining the number of cavitation $\sigma$, which corresponds to a threshold mode of the jet pump in the sense of parameter of pressure input data in the supply lines.
Keywords: jet pump, cavitation number, ejection coefficient. 
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Yu. P. Kabanov; G. V. Shevchenko. On the determination of the jet pump cavitation characteristics. Čelâbinskij fiziko-matematičeskij žurnal, Tome 1 (2016) no. 2, pp. 94-99. http://geodesic.mathdoc.fr/item/CHFMJ_2016_1_2_a9/

[1] E. Ya. Sokolov, N. M. Zinger, Inkjet Devices, Energy Publ., Moscow, 1970, 352 pp. (In Russ.)

[2] A. P. Kulak, A. B. Shestozub, V. I. Korobov, “Approximate calculation of jet pumps”, Applied hydromechanics, 13:1 (2011), 29–34 (In Russ.) | MR

[3] B. F. Lyamaev, Hydro pumps and devices, Mashinostroenie, Leningrad, 1988, 256 pp. (In Russ.)

[4] L. G. Podvidz, “Cavitation properties of jet pumps”, Bulletin of mechanical engineering, 1978, no. 3, 17–20 (In Russ.)

[5] R. G. Cunningham, A. G. Hansen, T. Y. Na, “Jet Pump Cavitation”, Journal of Basic Engineering, 92:3 (1970), 483–492 | DOI | MR

[6] R. T. Knapp, J. W. Daily, F. G. Hammitt F.G., Cavitation, Mc Graw-Hill, 1970, 728 pp.

[7] Yu. L. Levkovskiy, Structure of cavitation flows, Shipbuilding Publ., Leningrad, 1978 (In Russ.)