References
- Kim, J. and Moin, P., 'Application of a Fractional Ftep Method in Incompressible Navier-Stokes Equation,' J. Comp. Phys., Vol.59, (1985), pp.308-323
- Choi, H. and Moin, P., 'Effects of the Com- putational Time Step on Numerical Solutions of Turbulent Flow,' J. Comp. Phy., Vol.113, (1994), pp.1-4
- Lele, S.K., 'Compact Finite Difference Schemes with Spectral-like Resolution,' J. Comp. Phys., Vol. 103, (1992), pp.16-42
- Smagorinsky, J., 'General Circulation Experiments With the Primitive Equations,' Monthly Weather Review, Vol.91, (1963), pp 91
- Harlow, F.H. and Welch, J.E., 'Numerical Calculation of Time-Dependent Viscous Incompressible Flow of Fluid with Free Surface,' Phys. Fluids, Vol.8, (1965), pp. 2182-2189
- Shang, J.S., 'High-Order Compact Difference Schemes For Time-Dependent Maxwell Equations,' J. Comp. Phys, Vol.153, (1999), pp.312
- Leonard, B.P., 'A Stable and Accurate Convective Modeling Procedure Based on Quadratic Upstream Interpolation,' Computer Methods in Applied Mechanics and Engineering, Vol.19, (1979), pp.59-98
- Wille, R., 'Karman Vortex Streets', Advances in Applied Mechanics, Vol.6, (1960), pp.273-287
- Ong, L. and Wallace, J., 'The Velocity Field of the Turbulent Very Near Wake of a Circular Cylinder,' Exp. Fluids, Vol.20, (1994), pp.441-453
- Rogers, S.E. and Kwak, D., 'Upwind Differencing Scheme for the Time-Accurate Incompressible Navier-Stokes Equations,' AIAA Journal, Vol.28, (1990), pp.253-262
- Koike, H., Ishihara, K., Goto, T., and Takano, Y., 'Analysis of Aeroacoustic Source Distribution by Means of Numerical Simulation,' J. JSME(B). Vol.62, (1996), pp.160-165. (in Japanese)
- Cox, J. S., Rumsey, C. L., Brentner, K. S., and Younis, B. A., 'Computation of Sound Generated by Viscous Flow Over a Circular Cylinder,' NASA TM 110339, (1997)