Modeling of heat transfer and hydrodynamics of water-oil heat carriers in heat exchangers
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Karaganda National Research University named after academician E.A. Buketov
Abstract
Increased energy efficiency in the extraction and transportation of highly viscous oil is achieved by
reducing its viscosity through heating. Numerical modeling is a powerful tool for developing and analyzing methods
to improve heat transfer efficiency and optimize the design of heat exchange devices in the oil and gas industry. To
solve this problem, the study uses Reynolds-averaged Navier-Stokes equations supplemented with turbulence models
(k–ε, k–ω SST, and Transition SST) capable of accounting for the transition from laminar flow to turbulent flow
with variable viscosity. The results of calculations of smooth and spiral pipes are compared, as well as an assessment
of the reliability and performance of turbulence models used to simulate the operation of heat exchangers with direct
and reverse heat flow. The dependences of the numbers Nu and Re of the oil flow in a washed by water pipe for all
three turbulence models are shown in comparison with the corresponding experimental result, indicating the
qualitative agreement of the numerical calculation results with the experiment. The results of the comparative
analysis showed that the kw SST model most effectively describes the flow movement in the inter-tube space. The
Computational Fluid Dynamics calculation data obtained is of practical importance for the design and optimization
of heat exchanger structures.
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Zhumanbayeva A.S. Modeling of heat transfer and hydrodynamics of water-oil heat carriers in heat exchangers/A.S.Zhumanbayeva [et al]//Eurasian Physical Technical Journal. - 2026. - Volume 23. - № 1(55). - P. 101-112