Fierce Constrained Relocation In A Bended Conduit
Keywords:
Turbulent stream, Forced relocation, Curved conduit, Numerical reenactmentAbstract
This review presents the 2D mathematical reenactment aftereffects of fierce constrained stream in a bended pipe utilizing Fluent code. After the approval of the mathematical strategy, results show great arrangement when contrasted with the exploratory information. The violent stream field qualities are given by speed and shear pressure in many cross areas inside the conduit. We tracked down that expanding Reynolds number alters the stream design and we finished up additionally that the increment of the delta power gives higher upsides of violent amounts for a similar Reynolds number.
Downloads
References
W.R. Senior member, Fluid movement in a bended channel, Proc. R. Soc. London, Ser. A 121 (1928) 402–420.
G. J. Hwang and C.- H.Chao, Forced Laminar Relocation in a Curved Isothermal Square Duct, Trans. ASME, J. Hotness Transfer, vol. 113, pp. 48–55, 1991.
P. M. Ligrani, S. Choi, A. R. Schallert, and P. Skogerboe, Effects of Dean Vortex Pairs on Surface Heat Transfer in Curved Channel Flow, Int. J. Hotness Mass Transfer, vol. 39, no. 1, pp. 27–37, 1996.
K. C. Cheng and M. Akiyama, Laminar Forced Relocation Heat Transfer in Curved Rectangular Channels, Int. J. Hotness Mass Transfer, vol. 13, pp. 471–490, 1970.
R. Chilukuri and J. A. C. Humphrey, Numerical Computations of Buoyancy-Induced Recirculation in Curved Square Duct Laminar Flow, Int. J. Hotness Mass Transfer, vol. 24, pp. 305–314, 1981.
Downloads
Published
Issue
Section
License
Copyright (c) 2021 Rachid Feraoun

This work is licensed under a Creative Commons Attribution 4.0 International License.