Study of Liquid Flow in Channels of Various Configurations
View/ Open
Date
2025-06-17Author
Orifjan Bazarov
Yuldash Babazhanov
Musliddin Zaripov
Dilsuz Dilshodova
Iroda Babazhanova
Aruz Mikayilov
Metadata
Show full item recordAbstract
The article addresses the issue of cavitation flow in a narrowing channel. The study employs the Efros scheme,
which effectively captures the primary flow characteristics in this type of section. In the Efros scheme, the boundaries of
the swirling flow are rotated by 180°, leading to the formation of a reverse flow that evacuates the turbulent part of the
liquid from the main flow. The critical point D is located downstream of the curve's end. The article outlines the
mathematical formulation for fluid motion in a narrowing channel and constructs a fusion of the integral potential function
and the Zhukovsky function. Key flow parameters and cavity sizes at various cross-sections of the channel are determined.
To enhance and stabilize hydraulic conditions near the water intake of pumping stations, and to address drainage or
regulation issues, the study recommends installing a guiding surface along the cavity boundary as defined by the authors.
The research also establishes the hydrodynamic flow patterns, the boundaries of transit flow, and the locations of stagnant
zones in the narrowing channel.