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The International Journal of Advanced Manufacturing Technology

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19-01-2019 | ORIGINAL ARTICLE

Numerical simulation of thermally developing turbulent flow through a cylindrical tube

Authors: Ali Belhocine, Oday Ibraheem Abdullah

Published in: The International Journal of Advanced Manufacturing Technology | Issue 5-8/2019

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Abstract

A numerical study was conducted using the finite difference technique to examine the mechanism of energy transfer as well as turbulence in the case of fully developed turbulent flow in a circular tube with constant wall temperature and heat flow conditions. The methodology to solve this thermal problem is based on the energy equation, a fluid of constant properties in an axisymmetric and two-dimensional stationary flow. The global equations and the initial and boundary conditions acting on the problem are configured in dimensionless form in order to predict the characteristics of the turbulent fluid flow inside the tube. Using Thomas’ algorithm, a program in FORTRAN was developed to numerically solve the discretized form of the system of equations describing the problem. Finally, using this elaborate program, we were able to simulate the flow characteristics, for changing parameters such as Reynolds, Prandtl, and Peclet numbers along the pipe to obtain the important thermal model. These are discussed in detail in this work. Comparison of the results to published data shows that results are a good match to the published quantities.

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Wang W, Li D, Hu J, Peng Y, Zhang Y, Li D (2005) Numerical simulation of fluid flow and heat transfer in a plasma spray gun. Int J Adv Manuf Technol 26(5–6):537–543CrossRef

Li C, Zhang X, Zhang Q, Wang S, Zhang D, Jia D, Zhang Y (2014) Modeling and simulation of useful fluid flow rate in grinding. Int J Adv Manuf Technol 75(9–12):1587–1604CrossRef

Faraji A, Goodarzi M, Seyedein SH, Barbieri G, Maletta C (2015) Numerical modeling of heat transfer and fluid flow in hybrid laser–TIG welding of aluminum alloy AA6082. Int J Adv Manuf Technol 77(9–12):2067–2082CrossRef

Perri GP, Bräunig M, Di Gironimo G, Putz M, Tarallo A, Wittstock V (2016) Numerical modelling and analysis of the influence of an air cooling system on a milling machine in virtual environment. Int J Adv Manuf Technol 86(5–8):1853–1864CrossRef

Wang X, Yu T, Sun X, Shi Y, Wang W (2016) Study of 3D grinding temperature field based on finite difference method: considering machining parameters and energy partition. Int J Adv Manuf Technol 84(5–8):915–927

Lv Z, Hou R, Tian Y, Huang C, Zhu H (2018) Numerical study on flow characteristics and impact erosion in ultrasonic assisted waterjet machining. Int J Adv Manuf Technol 98(1–4):373–383CrossRef

Hui G, Liejin G (2001) Numerical investigation of developing turbulent flow in a helical square duct with large curvature. J Therm Sci 10(1):1–6CrossRef

Roy G, Vo-Ngoc D, Bravine V (2004) A numerical analysis of turbulent compressible radial channel flow with particular reference to pneumatic controllers. J Therm Sci 13:24–29CrossRef

Eiamsa-ard S, Changcharoen W (2011) Analysis of turbulent heat transfer and fluid flow in channels with various ribbed internal surfaces. J Therm Sci 20(3):260–267CrossRef

10.

Taler D (2017) Simple power-type heat transfer correlations for turbulent pipe flow in tubes. J Therm Sci 26(4):339–348CrossRef

11.

Tian R, Dai X, Wang D, Shi L (2018) Study of variable turbulent Prandtl number model for heat transfer to supercritical fluids in vertical tubes. J Therm Sci 27(3):213–222CrossRef

12.

Taler D (2016) A new heat transfer correlation for transition and turbulent fluid flow in tubes. Int J Therm Sci 108(2016):108–122CrossRef

13.

Belhocine A, Wan Omar WZ (2016) Numerical study of heat convective mass transfer in a fully developed laminar flow with constant wall temperature. Case Stud Therm Eng 6:116–127CrossRef

14.

Belhocine A (2016) Numerical study of heat transfer in fully developed laminar flow inside a circular tube. Int J Adv Manuf Technol 85(9):2681–2692CrossRef

15.

Belhocine A, Wan Zomar WZ (2017) Exact Graetz problem solution by using hypergeometric function. Int J Heat Technol 35(2):347–353. https://doi.org/10.18280/ijht.350216 CrossRef

16.

Belhocine A, Wan Omar WZ (2018) Similarity solution and Runge Kutta method to a thermal boundary layer model at the entrance region of a circular tube. Revista Cientifica 31(1):6–18CrossRef

17.

Bryant DB, Sparrow EM, Gorman JM (2018) Turbulent pipe flow in the presence of centerline velocity overshoot and wall-shear undershoot. Int J Therm Sci 125:218–230CrossRef

18.

Wilcox DC (1998) Turbulence modeling for CFD, 2nd edn. DCW Industries, La Canada

19.

Kays WM, Crawford ME (1993) Convective heat and mass transfer, 3rd edn. McGraw-Hill, New York

Title: Numerical simulation of thermally developing turbulent flow through a cylindrical tube
Authors: Ali Belhocine
Oday Ibraheem Abdullah
Publication date: 19-01-2019
Publisher: Springer London
Published in: The International Journal of Advanced Manufacturing Technology / Issue 5-8/2019
Print ISSN: 0268-3768
Electronic ISSN: 1433-3015
DOI: https://doi.org/10.1007/s00170-019-03315-y

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