A Study of Monotonic Characteristics of AUSM - type Schemes in Shock Regions |
Kim,Gyu-Hong
Lee,Gyeong-Tae Kim,Jong-Am No,O-Hyeon |
1 | A. Harten, High Resolution Schemes for Hyperbolic Conservation Laws, J. of Computational Physics, 49, 357-393 (1983). DOI ScienceOn |
2 | P. L. Roe, A Survey of Upwind Differencing Techniques, Lecture Notes in Physics, 323, 69 (1989). DOI |
3 | P. K. Sweby, High Resolution TVD Schemes Using Flux Limiters, Lectures in Applied Mathematics, 22, 289-309 (1985). |
4 | H. C. Yee, G. H. Kolpfer, and J. L. Montague, High-Resolution Shock Capturing Schemes for Inviscid and Viscous Hypersonic Flows, NASA TM 101088, 1989. |
5 | J. Gressier, P. Villedieu, and J-M Moshetta, Positivity of Flux Vector Splitting Schemes, J. of Computational Physics, 155, 199-220 (1999). DOI ScienceOn |
6 | D. Hanel, R. Schwane, and G. Seider, On the Accuracy of Upwind Schemes for the Solution of the Navier-Stokes Equations, AIAA paper 87-1105-CP, 1987. |
7 | K. H. Kim, C. Kim, and O. H. Rho, "Methods for the Accurate Computations of Hypersonic Flows, PART I: AUSMPW+ Scheme," accepted to J. of Computational Physics, (2001). DOI ScienceOn |
8 | K. H. Kim, J. H. Lee, and O. H. Rho, "An Improvement of AUSM Schemes by Introducing the Pressure-based Weight Functions," Computers & Fluids, 27(3), 311-346 (1998). DOI ScienceOn |
9 | C. Hirsh, Numerical Computation of Internal and External Flows, Vol. 1,2, (John Wiley & Sons, 1990). |
10 | M. S. Liou, A Sequel to AUSM: AUSM+, J. of Computational Physics, 129, 364-382 (1996). DOI ScienceOn |