All Issue

2025 Vol.30, Issue 3 Preview Page

Original Article

APPLICATION OF ENTROPY FIX TO COMPUTATIONS OF HYPERSONIC LAMINAR AND TURBULENT BOUNDARY LAYERS ON HIFIRE-1

엔트로피 수정 기법을 이용한 HIFiRE-1 모델의 극초음속 층류 및 난류 경계층 수치해석

J. Park1
,
M. Jeong1
,
S. Jee1
박 재현1
,
정 민재1
,
지 솔근1
1Department of Mechanical and Robotics Engineering, Gwangju Institute of Science and Technology
1광주과학기술원 기계로봇공학과
*Corresponding Author
30 September 2025. pp. 136-150
PDF XML Citation
Abstract

This study presents a case study of hypersonic laminar and turbulent boundary layers on the HIFiRE-1 model, proposed as a benchmark in the 2024 High-Fidelity CFD Verification Workshop. Computations were initially performed with the Roe flux-differencing scheme, but non-physical carbuncle phenomena appeared near the cone nose. To improve numerical stability, an entropy fix was applied by modifying the eigenvalues comprising the dissipation term. The improved simulation captured key shock structures and showed good agreement with reference data including surface pressure and heat flux. The turbulent heat flux is up to four times higher than in the laminar one, highlighting the impact of the boundary layer state on the aerothermodynamics of a high-speed vehicle.

Keywords
Hypersonic boundary layer
laminar and turbulent flow
Entropy fix
HIFiRE-1
Computational fluid dynamics
키워드
극초음속 경계층 유동
층류와 난류 유동
엔트로피 수정
하이파이어-1
전산유체역학
References
1

2005, Bahm, C., Baumann E., Martin, J., Bose, D., Beck, R. and Strovers, B., “The X-43A Hyper-X Mach 7 flight 2 guidance, navigation, and control overview and flight test results,” in AIAA/CIRA 13thInternational Space Planes and Hypersonics Systems and Technologies Conference, AIAA 2005-3275.

10.2514/6.2005-3275
2

2006, Turner, J., Horschgen, M., Jung, W., Stamminger, A. and Turner, P., “SHEFEX-hypersonic re-entry flight experiment vehicle and subsystem design, flight performance and prospects,” in 14thAIAA/AHI Space Planes and Hypersonic Systems and Technologies Conference, AIAA 2006-8115..

10.2514/6.2006-8115
3

2012, Bowcutt, K., Paull, A., Dolvin, D. and Smart, M., “HIFiRE: An international collaboration to advance the science and technology of hypersonic flight,” in Proceedings of the 28thInternational Congress of the Aeronautical Sciences, Vol.1, pp.65-76.

4

2008, Wadhams, T.P., Mundy, E., MacLean, M.G. and Holden, M.S.“Ground test studies of the HIFiRE-1 transition experiment part 1: experimental results,” J. Spacecr. Rockets, Vol.45, No.6, pp.1134-1148.

10.2514/1.38338
5

2007, Kimmel, R., Adamczak, D., Gaitonde, D., Rougeux, A. and Hayes, J., “HIFiRE-1 boundary layer transition experiment design,” in 45thAIAA Aerospace Sciences Meeting and Exhibit, AIAA 2007-0534.

10.2514/6.2007-534
6

2008, MacLean, M., Wadhams, T., Holden, M. and Johnson, H., “Ground test studies of the HIFiRE-1 transition experiment Part 2: computational analysis,” J. Spacecr. Rockets, Vol.45, No.6, pp.1149-1164.

10.2514/1.37693
7

2014, Yentsch, R.J., Gaitonde, D.V. and Kimmel, R., “Performance of turbulence modeling in simulation of the HIFiRE-1 flight test,” J. Spacecr. Rockets, Vol.51, No.1, pp.117-127.

10.2514/1.A32535
8

2023, Holst, K.R., Kim, C. and Zahr, M.J., “High-Fidelity CFD Verification Workshop 2024: Shock-Dominated Flows,” in AIAA Scitech 2023 Forum, AIAA 2023-1242.

10.2514/6.2023-1242
9

1981, Roe, P.L., “Approximate Riemann solvers, parameter vectors, and difference schemes,” J. Comput. Phys., Vol.43, No.2, pp.357-372.

10.1016/0021-9991(81)90128-5
10

1998, Gottlieb, S. and Shu, C.W., “Total variation diminishing Runge-Kutta schemes,” Math. Comput., Vol.67, No.221, pp.73-85.

10.1090/S0025-5718-98-00913-2
11

2000, Yee H.C., Vinokur, M. and Djomehri, M.J., “Entropy splitting and numerical dissipation,” J. Comput. Phys., Vol.162, No.1, pp.33-81.

10.1006/jcph.2000.6517
12

2013, MacCormack, R.W., “Carbuncle computational fluid dynamics problem for blunt-body flows,” J. Aerosp. Inf. Syst., Vol.10, No.5, pp.229-239.

10.2514/1.53684
13

2003, Kim, S.S., Kim, C., Rho, O.H. and Hong, S.K., “Cures for the shock instability: development of a shock-stable Roe scheme,” J. Comput. Phys., Vol.185, No.2, pp.342-374.

10.1016/S0021-9991(02)00037-2
14

2024, Hwang, T., Zahr, M.J., Holst, K., Freels, J., Baker, A.J., Batten, P., ... and Johnsen, E., “High-Fidelity CFD Verification Workshop 2024 summary: Shock-Dominated flows,” in AIAA Aviation Forum and Ascend, AIAA 2024-3695.

10.2514/6.2024-3695
15

1992, Spalart, P. and Allmaras S.R., “A one-equation turbulence model for aerodynamic flows,” in 30thAerospace Sciences Meeting and Exhibit, AIAA 1992-0439.

10.2514/6.1992-439
16

2012, Allmaras, S.R. and Johnson, F.T., “Modifications and clarifications for the implementation of the Spalart-Allmaras turbulence model,” in 7thInternational Conference on Computational Fluid Dynamics(ICCFD), Vol.1902, pp.1-11.

17

1998, Krist, S.L., Biedron, R.T. and Rumsey, C.L., “CFL3D user’s manual (version 5.0),” NASA Technical Memorandum 1998-208444.

18

1976, Harten, A., Hyman, J.M., Lax, P.D. and Keyfitz, B.,“On finite-difference approximations and entropy conditions for shocks,” Commun. Pure Appl. Math., Vol 29, No.3, pp.297-322.

10.1002/cpa.3160290305
19

2006, Bartels, R.E., Rumsey, C.L. and Biedron, R.T., “CFL3D Version 6.4-General Usage and Aeroelastic Analysis,” NASA Technical Memornadum 2006-214301

20

1987, Yee, H.C., “Upwind and symmetric shock-capturing shcemes,” NASA Technical Memornadum 1987-89464

21

1997, Harten, A., “High resolution schemes for hyperbolic conservation laws,” J. Comput. Phys., Vol.135, No.2, pp.260-278.

10.1006/jcph.1997.5713
22

1990, Gnoffo, P.A., “An upwind-biased, point-implicit relaxation algorithm for viscous, compressible perfect-gas flows,” NASA Technical Paper 1990-2953.

10.2514/6.1989-1972
23

https://acdl.mit.edu/HFW2022/HiFire1/Pointwise/.

24

1991, Givoli, D., “Non-reflecting boundary conditions,” J. Comput. Phys., Vol.94, No.1, pp.1-29.

10.1016/0021-9991(91)90135-8
25

2016, Garicano-Mena, J., Lami, A. and Deconinck, H., “An energy-dissipative remedy agains carbuncle: Application to hypersonic flows around blunt bodies,” Comput. Fluids, Vol.133, pp.43-54.

10.1016/j.compfluid.2016.03.028
26

2020, Smith, J., “Sandia Parallel Aerodynamics Reentry Code (SPARC) - the Future of Production and Research Aerodynamics,” Sandia National Lab, Technical Report SAND-2020-8483R.

10.2172/1648402
Information
  • Publisher :Korean Society for Computational Fluids Engineering
  • Publisher(Ko) :한국전산유체공학회
  • Journal Title :Journal of Computational Fluids Engineering
  • Journal Title(Ko) :한국전산유체공학회지
  • Volume : 30
  • No :3
  • Pages :136-150
  • Received Date : 2025-06-26
  • Revised Date : 2025-09-16
  • Accepted Date : 2025-09-18
  • DOI :https://doi.org/10.6112/kscfe.2025.30.3.136
Journal Informaiton Journal of Computational Fluids Engineering Journal of Computational Fluids Engineering
Online Submission
Archives
: Vol.28, 1996~
  • NRF
  • KOFST
  • crossref crossmark
  • crossref cited-by
  • crossref funder-registry
  • crosscheck
  • orcid
  • open access
  • ccl
Journal Informaiton Journal Informaiton - close