Research of the Physical Basis of Heat Transfer in Heat Exchanger Devices
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Date
2025-07-31Author
Xujakulov Saydulla Mirzayevich
Pardayev Zokir Elmurodovich
Muradov Ismoildjon
Shodiyev Timur
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The purpose of this article is to determine the dependence of heat transfer
processes on balance and criterion equations, heat transfer in external and internal
heat exchange, criterion equations of heat transfer in heat exchange devices, the
dependence of heat on physical parameters, and mathematical modeling of the
process. The heat transfer coefficient was calculated based on criterion equations
related to the Nusselt, Prandtl (from the table), Grasshoff, Pecle and Reynolds
numbers. When a pipe with d_0 = 32 mm was studied, according to the calculations based on criteria, it was determined that the heat transfer coefficient is 14.5 x
103 W/m2 K and the heat flux is 29.14 x 103 W when theNusselt number is 730.47.
When the heat exchange is calculated when the flow crosses a large number of pipe
bundles, the Reynolds number for the flow at a speed of 4 m/s is equal to 12.7 x 104,
that is, the flow is turbulent. According to the criterion equations, the Nusselt number
reaches 749.7, and the value of the heat transfer coefficient reaches 14,021 W/m2
K. Based on the results of mathematical modeling based on the selected boundary
conditions, it was determined that the coefficient of heat transfer is greater, it depends
on the flow regime of heat carriers, Reynolds, Nusselt criteria and Prandtl number,
and graphs of dependence were obtained.