Applications of AUSM+ Scheme on Subsonic, Supersonic and Hypersonic Flows Fields
| Autor: | Younis, Muhammad Yamin, Sohail, Muhammad Amjad, Tawfiqur Rahman, Zaka Muhammad, Saifur Rahman Bakaul |
|---|---|
| Jazyk: | angličtina |
| Rok vydání: | 2011 |
| Předmět: | |
| DOI: | 10.5281/zenodo.1080592 |
| Popis: | The performance of Advection Upstream Splitting Method AUSM schemes are evaluated against experimental flow fields at different Mach numbers and results are compared with experimental data of subsonic, supersonic and hypersonic flow fields. The turbulent model used here is SST model by Menter. The numerical predictions include lift coefficient, drag coefficient and pitching moment coefficient at different mach numbers and angle of attacks. This work describes a computational study undertaken to compute the Aerodynamic characteristics of different air vehicles configurations using a structured Navier-Stokes computational technique. The CFD code bases on the idea of upwind scheme for the convective (convective-moving) fluxes. CFD results for GLC305 airfoil and cone cylinder tail fined missile calculated on above mentioned turbulence model are compared with the available data. Wide ranges of Mach number from subsonic to hypersonic speeds are simulated and results are compared. When the computation is done by using viscous turbulence model the above mentioned coefficients have a very good agreement with the experimental values. AUSM scheme is very efficient in the regions of very high pressure gradients like shock waves and discontinuities. The AUSM versions simulate the all types of flows from lower subsonic to hypersonic flow without oscillations. {"references":["Liou, M.-S. and Steffen, C., \"A New Flux Splitting Scheme,\" J. Comput.\nPhys., Vol. 107, 23-39, 1993.","Liou, M.-S., \"A Sequel to AUSM: AUSM+\" J. Comput. Phys., Vol. 129,\n364-382, 1996.","Wada, Y. and Liou, M.-S., \"An Accurate and Robust Flux Splitting\nScheme for Shock and Contact Discontinuities,\" SIAM J. Scientific\nComputing, Vol. 18, 633-657, 1997.","Liou, M.-S., \"A Sequel to AUSM, Part II: AUSM+-up\" J. Comput.\nPhys., Vol. 214, 137- 170, 2006.","Edwards, J. R., Franklin, R., and Liou, M.-S., \"Low-Diffusion Flux-\nSplitting Methods for Real Fluid Flows with Phase Transitions,\" AIAA\nJ., Vol. 38, 1624-1633, 2000.","Chang, C.-H. and Liou, M.-S., \"A New Approach to the Simulation of\nCompressible Multifluid Flows with AUSM+ Scheme,\" AIAA Paper\n2003-4107, 16th AIAA CFD Conference, Orlando, FL, June 23-26,\n2003.","Edwards, J. R. and Liou, M.-S., \"Low-Diffusion Flux-Splitting Methods\nfor Flows at All Speeds,\" AIAA J., Vol. 36, 1610-1617, 1998.","Kim, K. H., Kim, C., and Rho, O., \"Methods for the Accurate\nComputations of Hypersonic Flows I. AUSMPW+ Scheme,\" J. Comput.\nPhys., Vol. 174, 38-80, 2001.","Mary, I. and Sagaut, P., \"Large Eddy Simulation of Flow Around an\nAirfoil Near Stall,\" AIAA J., Vol. 40, 1139-1145, 2002.\n[10] Manoha, E., Redonnet, S., Terracol, M., and Guenanff, G., \"Numerical\nSimulation of Aerodynamics Noise,\" ECCOMAS 24-28 July 2004.\n[11] Billet, G. and Louedin, O., \"Adaptive Limiters for Improving the\nAccuracy of the MUSCL Approach for Unsteady Flows,\" J. Comput.\nPhys., Vol. 170, 161-183, 2001.\n[12] Wada, K. and Koda, J., \"Instabilities of Spiral Shock - I. Onset of\nWiggle Instability and its Mechanism,\" Monthly Notices of the Royal\nAstronomical Society, Vol. 349, 270-280 (11), 2004.\n[13] R. V. Chima and M. S. Liou.Comparison of the AUSM+ and H-CUSP\nschemes for turbo machinery applications. NASA TM-2003-212457,\n2003.\n[14] M. S. Liou and C. J. Steffen, Jr. A new flux splitting scheme. Journal of\nComputational Physics, 107(1):23-39, 1993.\n[15] Herald E. Addy Jr. Glenn Research Center, Cleveland, Ohio\" Ice\naccretions and icing effect for modern airfoil\" NASA/TP-2000-310021\n[16] Bertrand Girard \"wind tunnel test of DERV-ISL reference models at\nsupersonic speed(Series ISLFPWT-1) August 1997 DERV-TM-\n9704.(Report)\n[17] Jubaraj Sahu \"Numerical computations of dynamic derivatives of finned\nprojectile using time accurate CFD method. AIAA 2007-6581(\nConference paper)\n[18] Robert L. Calloway, Nancy H. White. Measured and Predicted Shock\nShapes and Aerodynamic Coefficients for Blunted Cones at Incidence in\nAir at Mach 5.9. NASA Technical Paper 1652, 1980.\n[19] Menter, F.R. \"Zonal Two Equation k -w Turbulence Models for\nAerodynamic Flows\". AIAA 24th Fluid Dynamics conference,6-9 July\n1993: 93- 2906.\n[20] Turbulence Modeling for CFD by David C. Wilcox ( book on\nturbulence)\n[21] A. Jameson, W. Schmidt, and E. Turkel. Numerical Solution of the Euler\nEquations by Finite Volume Methods Using Runge-Kutta Time-\nStepping Schemes. Technical Report AIAA-81-1259, AIAA 14th Fluid\nand Plasma Dynamics Conference, Palo Alto, California, June\n1981.(conference paper)."]} |
| Databáze: | OpenAIRE |
| Externí odkaz: |
|