STUDY OF HYDRO-GAS-DYNAMIC PROCESSES IN CLOSED BYPASS CHANNELS WITH CIRCULAR AND TRIANGULAR CROSS-SECTIONS

Abstract

iangular cross-sections. One of the approaches used was the analytical method, which involved complex mathematical
calculations followed by process visualization using the MATLAB system. This approach enabled a detailed investigation of the
channel characteristics and the reproduction of laminar flow phenomena of liquids and gases, allowing for a deeper
understanding of their physical features.
Another method involved the use of simulation-based computer modeling of the laminar flow of liquid and gas through
channels with circular and triangular cross-sections using SOLIDWORKS Flow Simulation software. To implement this
approach, the necessary input parameters and conditions were specified, and the resulting data were subjected to detailed
analysis and interpretation. This method allowed for the creation of highly accurate computer models of hydrogasodynamic
processes, facilitating a deeper exploration of their behavior and interaction under various cross-sectional shapes of the
channels.
A comparison of the results obtained from both methods confirmed their ability to adequately model hydrogasodynamic
processes in closed bypass channels with circular and triangular cross-sections. The data obtained not only validated the
accuracy of the chosen methods but also provided a deeper understanding of the mechanisms of liquid and gas flow under
laminar conditions. This research opens new opportunities for further scientific developments in the field of hydrogasodynamics
and has the potential for application in engineering calculations where high precision, reliability, and credibility of
hydrogasodynamic models are crucial.