Adaptive Cartesian cut-cell sharp interface method ($ aC^{3} $SIM) for three-dimensional multi-phase flows (English)
- New search for: Kim, H.
- Further information on Kim, H.:
- https://orcid.org/0000-0003-1704-9700
- New search for: Liou, M.-S.
- New search for: Kim, H.
- Further information on Kim, H.:
- https://orcid.org/0000-0003-1704-9700
- New search for: Liou, M.-S.
In:
Shock Waves
;
29
, 8
; 1023-1041
;
2019
-
ISSN:
- Article (Journal) / Electronic Resource
-
Title:Adaptive Cartesian cut-cell sharp interface method ($ aC^{3} $SIM) for three-dimensional multi-phase flows
-
Contributors:Kim, H. ( author ) / Liou, M.-S. ( author )
-
Published in:Shock Waves ; 29, 8 ; 1023-1041
-
Publisher:
- New search for: Springer Berlin Heidelberg
- New search for: Springer
-
Place of publication:Berlin
-
Publication date:2019
-
ISSN:
-
ZDBID:
-
DOI:
-
Type of media:Article (Journal)
-
Type of material:Electronic Resource
-
Language:English
- New search for: 50.33 / 50.33$jTechnische Strömungsmechanik
- Further information on Basic classification
-
Keywords:
-
Classification:
BKL: 50.33 Technische Strömungsmechanik / 50.33$jTechnische Strömungsmechanik -
Source:
Table of contents – Volume 29, Issue 8
The tables of contents are generated automatically and are based on the data records of the individual contributions available in the index of the TIB portal. The display of the Tables of Contents may therefore be incomplete.
- 1007
-
Second memorial issue in honor of Dr. Meng-Sing LiouChang, C.-H. / Luo, H. et al. | 2019
- 1009
-
AUSM scheme: its application to a realistic combustor configuration, the Energy Efficient EngineMiki, K. / Moder, J. / Liou, M.-S. et al. | 2019
- 1023
-
Adaptive Cartesian cut-cell sharp interface method ($ aC^{3} $SIM) for three-dimensional multi-phase flowsKim, H. / Liou, M.-S. et al. | 2019
- 1043
-
Aerodynamic design of integrated propulsion–airframe configuration of a hybrid wing body aircraftLiou, M.-F. / Kim, H. / Lee, B. / Liou, M.-S. et al. | 2019
- 1065
-
The HLLC Riemann solverToro, E. F. et al. | 2019
- 1083
-
Limitation principle for computational fluid dynamicsLiu, C. / Zhou, G. / Shyy, W. / Xu, K. et al. | 2019
- 1103
-
An adaptive discontinuity fitting technique on unstructured dynamic gridsChang, S. / Bai, X. / Zou, D. / Chen, Z. / Liu, J. et al. | 2019
- 1117
-
Skew-symmetric splitting of high-order central schemes with nonlinear filters for computational aeroacoustics turbulence with shocksSjögreen, B. / Yee, H. C. / Wray, A. A. et al. | 2019
- 1133
-
Large eddy simulation of acoustic waves generated from a hot supersonic jetNonomura, T. / Nakano, H. / Ozawa, Y. / Terakado, D. / Yamamoto, M. / Fujii, K. / Oyama, A. et al. | 2019
- 1155
-
Nonlinear subscale turbulent models for very large eddy simulation of turbulent flowsShih, T.-H. / Moder, J. P. / Liu, N.-S. et al. | 2019
- 1181
-
Gap-induced transition via oblique breakdown at Mach 6Xue, Y. / Wang, L. / Wang, Z. J. / Fu, S. et al. | 2019
- 1191
-
Uncertainty quantification of shock–bubble interaction simulationsJin, J. / Deng, X. / Abe, Y. / Xiao, F. et al. | 2019
- 1205
-
Numerical investigation of the liquid-fueled pulse detonation engine for different operating conditionsNguyen, V. B. / Teo, C. J. / Chang, P.-H. / Li, J. M. / Khoo, B. C. et al. | 2019
- 1227
-
Computation of shock wave structure using a simpler set of generalized hydrodynamic equations based on nonlinear coupled constitutive relationsJiang, Z. / Zhao, W. / Chen, W. / Agarwal, R. K. et al. | 2019