Publisher : The Society of Naval Architects of Korea
DOI : 10.3744/SNAK.2016.53.3.210
Title & Authors
Direct Numerical Simulations of Turbulent Boundary Layer using OpenFOAM and Adapted Mesh Lee, Sang Bong;
Direct numerical simulations of a spatially developing turbulent boundary layer on a flat plate have been performed to verify the applicability of OpenFOAM and adapted mesh with prism layers to turbulent numerical simulation with high fidelity as well as provide a guideline on numerical schemes and parameters of OpenFOAM. Reynolds number based on a momentum thickness at inlet and a free-stream velocity was Reθ
Ekaterinaris J. A., 2005, High-Order Accurate, Low Numerical Diffusion Methods for Aerodynamics. Progress in Aerospace Sciences, 41, pp.192-300.
Freitas, P. G. F. E., 2014, Numerical Simulation of Compressible Flow over a Deep Cavity, Master Thesis. Técnico Lisboa.
Haren, S. W., 2011, Testing DNS Capability of OpenFOAM and STAR-CCM+, Master Thesis. Delft University of Technology.
Kim, J., Choi, J. -I. & Sung, H. J., 2002, Relationship between Wall Pressure Fluctuations and Streamwise Vortices in a Turbulent Boundary Layer, Physics of Fluids, 14(2), pp.898-901.
Kim, K. & Sung, H. J., 2006, Effects of Unsteady Blowing through a Spanwise Slot on a Turbulent Boundary Layer, Journal of Fluid Mechanics, 557, pp.423-450.
Lee, J. -H. & Sung, H. J., 2005, Response of a Spatially Developing Turbulent Boundary Layer to a Spanwise Oscillating Electromagnetic Force, Journal of Turbulence, 6(39), pp.1-15.
Lee, S. & Kim, B., 2015, A Numerical Study on Manoeuvrability of Wind Turbine Installation Vessel Using OpenFOAM, International Journal of Naval Architecture and Ocean Engineering, 7(3), pp.466-477.
Lee, S. B. & Lee, Y. M., 2014. Statistical Reliablity Analysis of Numerical Simulation for Prediction of Model-Ship Resistance. Journal of the Society of Naval Architects of Korea, 51(4), pp.321-327.
Lund, T. S., Wu, X. & Squires, K. D., 1998, Generation ofTurbulent Inflow Data for Spatially-Developing Boundary Layer Simulations. Journal of Computational Physics, 140, pp.233-258.
Park, S. H., Lee, S. B. & Lee, Y. M., 2014. Study on the Estimation of the Optimum Trims in Container Carriers by using CFD Analysis of Ship Resistances. Journal of the Society of Naval Architects of Korea, 51(5), pp.429-434.
Spalart, P. R., 1988, Direct Numerical Simulation of a Turbulent Boundary Layer up to Reθ=1410. Journal of Fluid Mechanics, 187, pp.61-98.