DNS of turbulent heat transfer in a channel flow with a high spatial resolution

Kozuka, Makoto*; Seki, Yohji; Kawamura, Hiroshi*

International Journal of Heat and Fluid Flow, 30(3), p.514 - 524, 2009/06

https://doi.org/10.1016/j.ijheatfluidflow.2009.02.023

Direct numerical simulations of turbulent heat transfer in a channel flow are performed to investigate the effects of Reynolds and Prandtl numbers on higher-order turbulence statistics such as a turbulent Prandtl number and the budget for the dissipation rate of the temperature variance. The Reynolds numbers based on the friction velocity and the channel half width are and , and the molecular Prandtl numbers 's 0.71-10.0. Careful attention is paid to ensure accuracy of the higher-order statistics through the use of a high spatial resolution comparable to Batchelor length scale. The wall-asymptotic value of the turbulent Prandtl number is mostly independent of Reynolds number for the current range of 's. The budget for the dissipation rate of the temperature variance has been computed, and the negligible effect of a Reynolds number on the sum of all source and sink terms in near-wall region in the current computational range is found. This result is quite similar to the one in the budget for the dissipation rate of turbulent energy. In addition, a priori test for existing models is also performed to assess the dependence on the individual terms and their summations in the budget.