The present data and the associated source code are freely available under the GNU GPL v3 licence. They correspond to the paper entitled A Correlation for the Discontinuity of the Temperature Variance Dissipation Rate at the Fluid-Solid Interface in Turbulent Channel Flows we have published in the journal Flow, Turbulence and Combustion.
Reynolds number based on the friction velocity = 150, Prandtl = 0.71
Reynolds number based on the friction velocity = 395, Prandtl = 0.71
Reynolds number based on the friction velocity = 395, Prandtl = 1
Reynolds number based on the friction velocity = 1020, Prandtl = 0.71
Reynolds number based on the friction velocity = 1020, Prandtl = 1
The folder LES_database contains the data and source code used to perform LES of the turbulent channel flow with conjugate heat transfer using Code_Saturne.
The folder LES_VnV contains the data and source code used to verify and validate the internal coupling module implemented in Code_Saturne.
The folder FTaC contains the source files used to generate the paper as submitted to the journal and accepted for publication.
Some subsets of the present work were presented at the international conferences NURETH-17 (Xi'An, China) and NENE2017 (Bled, Slovenia) during September 2017. The corresponding proceedings are available on HAL and at https://repo.ijs.si/CFLAG/NENE2017. The authors have detected and corrected some errors in the scilab post-processing scripts after publication of the proceedings. To be more specific, the error estimator proposed is incorrect: the reconstructed statistics at the wall automatically satisfy the compatibility condition. The associated error is thus zero.
The author and coworkers thank the Slovenian Research Agency and EDF R&D for funding the study (research projects P2-0026 and PR-07184). We also thank framasoft and the Institut Jozef Stefan for providing the gitlab services that host the present project at https://repo.ijs.si/CFLAG/CS-Fluid-Solid and https://framagit.org/CFLAG/CS-fluid-solid.