Advanced search
Publication Cover
International Journal of Computational Fluid Dynamics Volume 25, 2011 - Issue 9
Submit an article Journal homepage
302
Views
6
CrossRef citations to date
0
Altmetric
Articles

A hybrid scheme for the numerical simulation of shock/discontinuity problems

Niloufar Mahmoudnejad Department of Aerospace Engineering, Wichita State University, Wichita, KS, USACorrespondence[email protected]
&
Klaus A. Hoffmann Department of Aerospace Engineering, Wichita State University, Wichita, KS, USA
Pages 469-486 | Received 10 Mar 2011, Accepted 09 Sep 2011, Published online: 21 Nov 2011

References

  • Adams , N.A. and Shariff , K. 1996 . A high-resolution hybrid compact-ENO scheme for shock–turbulence interaction problems . Journal of Computational Physics , 127 : 27 – 51 .
  • Arshed , G.M. and Hoffmann , K.A. Implementation of improved WENO scheme to higher dimensions in relation to shock–turbulence interaction . 19th AIAA computational fluid dynamics . AIAA Paper 2009-3654 .
  • Bogey , C. , Cacqueray , N.D. and Bailly , C. Self-adjusting shock-capturing spatial filtering for high-order non-linear computations . 14th AIAA/CEAS aeroacoustics conference (29th AIAA aeroacoustics conference) . AIAA Paper 2008-2968 .
  • Colella , P. and Glaz , H.M. 1984 . Numerical calculation of complex shock reflections in gases. In: Proceedings of the 9th international conference on numerical methods in fluid dynamics, Saclay, France. Berlin: Springer . Lecture Notes in Physics , 218 : 154 – 158 .
  • Corcos , G.M. and Sherman , F.S. 1984 . The mixing layer: deterministic models of a turbulent flow. Part 1. Introduction and the two-dimensional flow . Journal of Fluid Mechanics , 139 : 29 – 65 .
  • Deng , X. and Mao , M. Weighted compact high-order nonlinear schemes for the Euler equations . 13th AIAA computational fluid dynamics conference . AIAA Paper 1997-1941 .
  • Deng , X. and Maekawa , H. A uniform fourth-order compact scheme for discontinuities capturing . 27th AIAA fluid dynamics conference . AIAA Meeting Papers on Disc, A9636454, AIAA Paper 96-1974
  • Ellzey , J.L. and Henneke , M.R. 1997 . The shock–vortex interaction: the origins of the acoustic wave . Journal of Fluid Dynamics Research , 21 : 171 – 184 .
  • Glaz , H.M. 1985 . A numerical study of oblique shock-wave reflections with experimental comparisons . Proceedings of the Royal Society of London A , 398 : 117 – 140 .
  • Godunov , S.K. 1969 . A difference scheme for numerical solution of discontinuous solution of hydrodynamic equations . Matematicheskii Sbornik, 47. Translated US Joint Publ. Res. Service. JPRS , 7226 : 271 – 306 .
  • Grasso , F. and Pirozzoli , S. 2000 . Shock wave–vortex interactions: shock and vortex deformations, and sound production . Journal of Theoretical and Computational Fluid Dynamics , 13 : 421 – 456 .
  • Harten , A. 1978 . The artificial compression method for computation of shocks and contact discontinuities: III. Self-adjusting hybrid schemes . Mathematics of Computation , 32 ( 142 ) : 363 – 389 .
  • Harten , A. 1983 . High resolution schemes for hyperbolic conservation laws . Journal of Computational Physics , 49 : 357 – 393 .
  • Harten , A. 1987 . Uniformly high order accurate essentially non-oscillatory schemes, III . Journal of Computational Physics , 71 : 231 – 303 .
  • Henrick , A.K. , Aslam , T.D. and Powers , J.M. 2005 . Mapped weighted essentially non-oscillatory schemes: achieving optimal order near critical points . Journal of Computational Physics , 207 : 542 – 567 .
  • Hill , D.J. and Pullin , D.I. 2004 . Hybrid tuned center-difference-WENO method for large-eddy simulation in the presence of strong shocks . Journal of Computational Physics , 194 : 435 – 450 .
  • Hixon , R. A new class of compact schemes . 36th aerospace sciences meeting and exhibit . January . pp. 12 – 15 . NV, Reno : AIAA Paper 1998-367 .
  • Inoue , O. and Hattori , Y. 1999 . Sound generation by shock–vortex interactions . Journal of Fluid Mechanics , 380 : 81 – 116 .
  • Jiang , G.-S. and Shu , C.-W. 1996 . Efficient implementation of weighted ENO scheme . Journal of Computational Physics , 126 : 202 – 228 .
  • Jiang , L. , Shan , H. and Liu , C. 2001 . Weighted compact scheme for shock capturing . International Journal of Computational Fluid Dynamics , 15 : 147 – 155 .
  • Kim , D. and Kwon , J.H. 2005 . A higher-order accurate hybrid scheme using a central flux scheme and a WENO scheme for compressible flowfield analysis . Journal of Computational Physics , 210 : 554 – 583 .
  • Kim , J.W. and Lee , D.J. 1996 . Optimized compact finite difference schemes with maximum resolution . AIAA Journal , 34 : 887 – 893 .
  • Kuhl , A.L. 1990 . Turbulent wall jet in a Mach reflection flow . Progress in Aeronautics and Astronautics , 13 : 201 – 232 .
  • Laney , C.B. 1998 . Computational gas dynamics , Cambridge: Cambridge University Press .
  • Leer , B.V. 1979 . Towards the ultimate conservative difference scheme, V. A second order sequel to Godunov's method . Journal of Computational Physics , 32 : 101 – 136 .
  • Lele , S.K. 1992 . Compact finite difference schemes with spectral-like resolution . Journal of Computational Physics , 103 : 16 – 42 .
  • Li , H. and Ben-Dor , G. 1999 . Analysis of double-Mach-reflection wave configurations with convexly curved Mach stems . Journal of Shock Waves , 9 : 319 – 326 .
  • Liu , X.D. , Osher , S. and Chan , T. 1994 . Weighted essentially non-oscillatory schemes . Journal of Computational Physics , 115 : 200 – 212 .
  • Liu , C. Smart weighted compact scheme for shock tube and shock–entropy interaction . 36th AIAA fluid dynamics conference and exhibit . AIAA Paper 2006-3708 .
  • Lo , S.C. , Blaisdell , G.A. and Lyrintzis , A.S. High-order shock capturing schemes for turbulence calculations . 45th AIAA aerospace sciences meeting and exhibit . AIAA Paper 2007-827 .
  • Martín , M.P. 2006 . A bandwidth-optimized WENO scheme for the effective direct numerical simulation of compressible turbulence . Journal of Computational Physics , 220 ( 1 ) : 270 – 289 .
  • Oliveria , M. Universal high order subroutine with new shock detector for shock boundary layer interaction . 47th AIAA aerospace sciences meeting including the New Horizons forum and aerospace exposition . AIAA Paper 2009-1139 .
  • Pirozzoli , S. 2002 . Conservative hybrid compact-WENO schemes for shock–turbulence interaction . Journal of Computational Physics , 178 : 81 – 117 .
  • Ren , Y.X. , Liu , M. and Zhang , H. 2003 . A characteristic-wise compact-WENO scheme for solving hyperbolic conservation laws . Journal of Computational Physics , 192 : 365 – 386 .
  • Roe , P.L. 1981 . Approximate Riemann solver, parameter vectors and difference schemes . Journal of Computational Physics , 43 : 357 – 372 .
  • Sandham , N.D. and Yee , H.C. Performance of low dissipative high order shock-capturing schemes for shock–turbulence interactions . NASA Ames Research Center, NASA/CR 208236. RIACS Technical Report 98.10. University of Oxford, Oxford .
  • Shen , Y. and Yang , G. 2007 . Hybrid finite compact-WENO schemes for shock calculation . International Journal for Numerical Methods in Fluids , 53 : 531 – 560 .
  • Shen , Y. and Zha , G. Generalized finite compact difference scheme for shock/complex flowfield interaction . 40th fluid dynamics conference and exhibit . AIAA Paper 2010-5098 .
  • Shi , J. , Hu , C. and Shu , C.-W. 2002 . A technique of treating negative weights in WENO schemes . Journal of Computational Physics , 175 : 108 – 127 .
  • Shi , J. , Zhang , Y.T. and Shu , C.W. 2003 . Resolution of high order WENO schemes for complicated flow structures . Journal of Computational Physics , 186 : 690 – 696 .
  • Shu , C.W. 1997 . Essentially non-oscillatory and weighted essentially non-oscillatory schemes for hyperbolic conservation laws , NASA/CR-97-206253, ICASE Report No. 97-65. Hampton, VA: NASA Langley Research Center .
  • Shu , C.W. 2001 . High order finite difference and finite volume WENO schemes and discontinuous Galerkin methods for CFD , NASA/CR-2000-210865. ICASE Report No. 2001-11. Hampton, VA: NASA Langley Research Center .
  • Shu , C.W. and Osher , S. 1988 . Efficient implementation of essentially non-oscillatory shock-capturing schemes . Journal of Computational Physics , 77 : 439 – 471 .
  • Shu , C.W. and Osher , S. 1989 . Efficient implementation of essentially non-oscillatory shock-capturing schemes, II . Journal of Computational Physics , 83 : 32 – 78 .
  • Weirs , V.G. and Candler , G.V. Optimization of weighted ENO schemes for DNS of compressible turbulence . 13th AIAA computational fluid dynamics conference . AIAA Paper 1997-1940 .
  • Woodward , P. and Colella , P. 1984 . The numerical simulation of two-dimensional fluid flow with strong shocks . Journal of Computational Physics , 54 : 115 – 173 .
  • Xie , P. and Liu , C. Weighted compact and non-compact scheme for shock tube and shock entropy interaction . 45th AIAA aerospace sciences meeting and exhibit . AIAA Paper 2007-509 .
  • Xin , L. , Xiaogang , D. and Meiliang , M. 2007 . High-order behaviors of weighted compact fifth-order nonlinear schemes . AIAA Journal , 45 ( 8)
  • Xu , Z. and Shu , C.W. 2005 . Anti-diffusive flux corrections for high order finite difference WENO schemes . Journal of Computational Physics , 205 ( 2 ) : 458 – 485 .
  • Yee , H.C. , Sandham , N.D. and Djomehri , M.J. 1999 . Low dissipative high order shock capturing methods using characteristic-based filters . Journal of Computational Physics , 150 : 199 – 238 .
  • Yee , H.C. , Vinokur , M. and Djomehri , M.J. 2000 . Entropy splitting and numerical dissipation . Journal of Computational Physics , 162 : 33 – 81 .
  • Zahran , Y.H. 2007 . Non-oscillatory central-upwind scheme for hyperbolic conservation laws . International Journal of Computational Fluid Dynamics , 21 : 11 – 19 .
  • Zaide , D.W. and Roe , P.L. Entropy-based mesh refinement, II: a new approach to mesh movement . 19th AIAA computational fluid dynamics . AIAA Paper 2009-3791 .

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.