Large eddy simulation of turbulent heat transfer in pipe flows with respect to Reynolds and Prandtl number effects
Author:
Publisher
Springer Science and Business Media LLC
Subject
Mechanical Engineering,Computational Mechanics
Link
http://link.springer.com/content/pdf/10.1007/s00707-012-0796-8.pdf
Reference43 articles.
1. Kawamura H., Abe H., Matsuo Y.: DNS of turbulent heat transfer in channel flow with respect to Reynolds and Prandtl number effects. Int. J. Heat Fluid Flow 20, 196–207 (1999)
2. Abe H., Kawamura H., Matsuo Y.: Surface heat-flux fluctuations in a turbulent channel flow up to Re τ = 1020 with Pr = 0.025 and 0.71. Int. J. Heat Fluid Flow 25, 404–419 (2004)
3. Kasagi, N., Ohtsubo, Y.: Direct numerical simulation of low Prandtl number thermal field in a turbulent channel flow. In: Turbulent Shear Flows, vol. 8. Springer, Berlin (1993)
4. Kawamura H., Ohsaka K., Abe H., Yamamoto K.: DNS of turbulent heat transfer in channel flow with low to medium-high Prandtl number fluid. Int. J. Heat Fluid Flow 19, 482–491 (1998)
5. Calmet I., Magnaudet J.: Large-eddy simulation of high-Schmidt number mass transfer in a turbulent channel flow. Phys. Fluids 9, 438–455 (1997)
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