Longitudinal Flow of Curviline Rotation Deflector by Viscous Incompressible Liquid | Helix - The Scientific Explorer | Peer Reviewed Bimonthly International Journal

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Published: Apr 30, 2020

Keywords:

Turbulent Motion, Curved Rotation Deflector, The Thickness of the Water Film, Bernoulli Equation, Generalized Solution, Correction Factor, Consideration of Friction Forces, Jet Departure Range

Dmitry A. Soloviev

Saratov State Agrarian University named after N.I. Vavilov, Russia, Saratov

Alexander I. Esin

Saratov State Agrarian University named after N.I. Vavilov, Russia, Saratov

Dmitry A. Kolganov

Saratov State Agrarian University named after N.I. Vavilov, Russia, Saratov

Dmitry G. Goryunov

Saratov State Agrarian University named after N.I. Vavilov, Russia, Saratov

Andrey V. Kirichenko

Saratov State Agrarian University named after N.I. Vavilov, Russia, Saratov

Abstract

The article considers longitudinal axisymmetric flow of curved rotation deflector with an averaged turbulent flow of incompressible fluid. Based on the Bernoulli equation, they determined the thickness of the water film descending from the deflector. They proved that the film thickness depends on the hydraulic resistance of the deflector. The jet departure range (deflector radius) was determined.

How to Cite

Dmitry A. Soloviev, Alexander I. Esin, Dmitry A. Kolganov, Dmitry G. Goryunov, & Andrey V. Kirichenko. (2020). Longitudinal Flow of Curviline Rotation Deflector by Viscous Incompressible Liquid. Helix - The Scientific Explorer | Peer Reviewed Bimonthly International Journal, 10(02), 72-79. Retrieved from https://helixscientific.pub/index.php/home/article/view/113

Issue

Vol. 10 No. 02 (2020): Volume No 10 Issue No 02

Section

Articles