Bernoulli effect at free revolving flow braking

TL;DR

This paper derives analytical equations for radial flow caused by braking in revolving flows, exploring flow types and potential applications like water steam cloud compression.

Contribution

It introduces new analytical models for radial flow in revolving systems, considering different flow conditions and their implications.

Findings

Derived equations for radial flow due to braking

Identified flow types for incompressible, polytropic, and isothermal conditions

Showed potential for water steam cloud compression

Abstract

In this research paper, analytical equations for the calculation of radial flow due to the braking on the flat surface plane of revolving flow were obtained. The calculation method is based on the use of pressure force balance equation, viscid friction and inertia. Three motion equations for incompressible, polytropic and isothermal flow were obtained, the type of a cumulative curve for the incompressible flow has been shown. Possibility of the use of radial flow for the compression of water steam cloud has been shown. Keywords: radial flow, revolving flow, cloud compression.