Turbulence Modelling 93 - Comparing Kolmogorov Scales to Dimensionless Wall Units Example

Turbulence Modelling 93 - Comparing Kolmogorov Scales to Dimensionless Wall Units Example

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Rayleigh Number

http://thermopedia.com/content/1076/

https://en.wikipedia.org/wiki/Rayleigh_number

Scheel, J. D., Emran, M. S., & Schumacher, J. (2013). Resolving the fine-scale structure in turbulent Rayleigh–Bénard convection. New Journal of Physics, 15(11), 113063.

Perry, R. H., & Green, D. W. (2015). Perry’s chemical engineers’ handbook. Mc Graw.

Komen, E., Shams, A., Camilo, L., & Koren, B. (2014). Quasi-DNS capabilities of OpenFOAM for different mesh types. Computers & Fluids, 96, 87–104.

https://doi.org/https://doi.org/10.1016/j.compfluid.2014.02.013

Ding, P., Wang, S., & Chen, K. (2020). Numerical study on turbulent mixed convection in a vertical plane channel using hybrid RANS/LES and LES models. Chinese Journal of Chemical Engineering, 28(1), 1–8.

https://doi.org/https://doi.org/10.1016/j.cjche.2019.04.007

Kasagi, N., & Nishimura, M. (1997). Direct numerical simulation of combined forced and natural turbulent convection in a vertical plane channel. International Journal of Heat and Fluid Flow, 18(1), 88–99.

Pope, S. B. (2001). Turbulent flows. IOP Publishing.

Tu, J., Yeoh, G. H., & Liu, C. (2018). Computational fluid dynamics: a practical approach. Butterworth-Heinemann.

Spalart, P. R., Deck, S., Shur, M. L., Squires, K. D., Strelets, M. K., & Travin, A. (2006). A new version of detached-eddy simulation, resistant to ambiguous grid densities. Theoretical and Computational Fluid Dynamics, 20(3), 181.

Grötzbach, G. 1983. Spatial resolution requirements for direct numerical simulation of Rayleigh-Bénard convection. J. Comput. Phys., 49: 241–264.



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