PREFACE ......................................................... i
CONTENTS ...................................................... iii
COLOR FIGURES .................................................. xi
Gl. MORICE Ph.:
Some recent progress in CFD at ONERA ..................... 1
G2. MIYAKE Yutaka, KAJISHIMA Takeo:
A discussion on turbulent flows in pipes and
channels on the basis of large scale LES ................. 7
G3. OERTEL Jr. H.:
Validation of Navier-Stokes methods for aerospace
applications ............................................ 16
G4. TAGO Yoshio:
Numerical simulations with Fujitsu supercomputer
FACOM VP ................................................ 23
A01. SATOFUKA Nobuyuki:
Numerical simulation of the Euler and Navier-Stokes
equations on parallel computers ......................... 28
A02. CAPDEVILA H., PAHLKE K.:
Concurrent processing of CFD codes used in
aerodynamic design ...................................... 35
A03. RUSANOV V.V., BELOVA O.N., KARLIN V.A.:
About solving the PNS equations by marching method ...... 43
A05. PLATFOOT R.A., FLETCHER C.A.J.:
Computation of internal flows demonstrating severe
curvature ............................................... 46
A06. DWYER Harry A., YAM C.:
Multi-dimensional low Mach number numerical
simulations ............................................. 52
A07. W.U. Jiang Hang:
The new numerical methods for solving the convection-
dominated problems in fluid dynamics .................... 59
A08. W.U. Huamo:
A new class of accurate high resolution schemes -
analysis and applications ............................... 64
A10. LIU С., MCCORMICK S.:
Multigrid, the fast adaptive composite (FAC) grid
method for solving flow problems ........................ 74
A13. F.U. Dexun, M.A. Yanwen:
Efficiency and accuracy of numerical methods for
solving the aerodynamic equations ....................... 78
A15. BRISTEAU M.O., PIRONNEAU 0., VALLET M.G.:
Numerical analysis for compressible viscous
isentropic stationary flows ............................. 86
A16. GRASSO F.:
Numerical solution of viscous high speed flows .......... 93
A17. MATSUNO Kenichi:
A high order time-accurate scheme and its
applications to airfoil flows .......................... 106
A18. TAKI Shiro:
Numerical simulation of standing detonation induced
by oblique shock wave .................................. 113
A19. KAWAI Masafumi, ANDO Yasunori, IKEDA Hideo, FUJIMORI
Toshiro, OHMORI Yasunori, FUKUDA Masahiro:
Numerical solution of chemically reacting viscous
flows .................................................. 119
A20. MATSUMURA Hiroshi, KOBAYAKAWA Makoto:
Application of a digital control theory for
generating adaptive grids .............................. 124
A21. MALLET M., PERIAUX J., STOUFFLET B.:
Finite element methods for highly compressible
Euler/Navier-Stokes flows and related applications
in aerospace engineering ............................... 130
A23. SIDOROV A.F.:
Semi-analytical methods for solving nonlinear three-
dimensional gas dynamic problems based on special
constructions of series ................................ 137
A24. D'HUMIERES D., LALLEMAND P., RIVET J.P.:
Lattice gases for simulations of fluid flows .................. 142
A26. ZHU Zi-Qiang, BAI Xue-Song:
The transonic nonisentropic potential calculation ...... 147
A29. FORESTIER A.J., BUNG H.:
Boundary conditions in a TVD scheme for Euler
equation in a finite element formulation ............... 158
A30. KOSHIZUKA Seiichi, OKA Yoshiaki, KONDO Shunsuke:
A staggered differencing technique on boundary-
fitted curvilinear grid for incompressible Navier-
Stokes equation written with physical components ....... 163
A31. BELOTSERKOVSKIY O1eg M.:
Direct numericl modelling of free induced shear
turbulence ............................................. 170
A33. KOVENYA V.M.:
Algorithms for the Navier-Stokes equations of
compressible gas ....................................... 175
A34. TAMURA Yoshiaki, FUJII Kozo:
Use of graphic workstation for computational fluid
dynamics ............................................... 180
B01. WOLFSHTEIN Micha:
Trends and prospects in computations of turbulent
flows .................................................. 187
B03. WATANABE Takashi, NAKAMURA Ikuo, MIYAMA Masafumi:
A finite element analysis of a two-dimensional
asymmetric relaxing channel flow by the к-ε model ..... 193
B04. S.U. Ming-De:
Large eddy simulation of turbulent flow and its
prospect ............................................... 200
B06. HORIUTI Kiyoshi:
Anisotropic representation of the Reynolds stress
in large eddy simulation of turbulent channel flow ..... 206
B07. HIRAI Shuichiro, TAKAGI Toshimi, TAKADA Masahiko:
Calculation of turbulent swirling flow in a long
pipe with Reynolds stress closure ...................... 213
B09. ROZHDESTVENSKY B.L.:
Numerical simulation of turbulent flows in channels
and pipes: methods, results and prospects .............. 218
B10. GUSHCHIN V.A., KONSHIN V.N.:
Numerical simulation of the unsteady separated
fluid flows in a wide range of Reynolds numbers ........ 222
Bll. KURKAL Krishna, MUNUKUTLA Sastry:
Computational study of a symmetric turbulent wake ...... 227
B12. MYONG Hyon-Kook, KASAGI Nobuhide:
Toward an anisotropic к- е turbulence model taking
into account the wall-limiting behavior of
turbulence ............................................. 232
B13. YOSHIZAWA Yoshimasa, HOZUMI H.:
Numerical calculation of viscous flow in and
around a liquid droplet ................................ 238
B14. SONG Charles C.S.:
Turbulent flows in two and three-dimensional
diffusers: Computation and comparison with
experimental data ...................................... 244
B15. MOCHIMARU Yoshimro:
Numerical simulation of heat and fluid flow past a
sphere, using a spectral method ........................ 250
B16. INOUE Osamu:
Coherent structures of highly excited mixing layers .... 258
B17. KONDOH Tsuguo, NAGANO Yasutaka:
Numerical investigation of three-dimensional
separating and reattaching flow downstream of
a backward-facing step ................................. 263
B18. ARMFIELD S.W.:
Direct simulation of unsteady natural convection
in a cavity ............................................ 271
B19. OSHIMA Koichi, OSHIMA Yuko, IZUTSU Naoki:
Topological study of three-dimensional vortex
interactions ........................................... 277
B20. TOLSTYKH A.L:
The third order compact approximation for
incompressible flows ................................... 283
B22. ABOU BAKER A., ROESNER K.G.:
Numerical solution of the flow around a moving
cylinder ............................................... 289
B23. K.U. Hwar-Ching, TAYLOR Thomas D.:
Solutions of two- and three-dimensional
incompressible flow in complex geometries by the
pseudospectral matrix element methods .................. 294
B24. HATANAKA K., HAYASHI M., KAWAHARA, M.:
Numerical investigations of solving unsteady,
incompressible, viscous fluid flow by finite
element method ......................................... 302
B25. BAKER A.J., IANNELLI G.S.:
On a robust implicit finite element CFD algorithm
for aerodynamics ....................................... 309
B26. HABASHI Wagdi G., BARUZZI Guido S., PEETERS Martin F.:
A Newton-Galerkin algorithm for computational fluid
dynamics ............................................... 316
B27. YOSHIHARA Hideo:
Problem areas in applied computational fluid
dynamics ............................................... 324
B28. DADONE Andrea, FORTUNATO Bernardo:
Computation of steady three dimensional transonic
internal flows ......................................... 330
B29. YAMAMOTO Makoto:
Calculation of tip leakage flow with three
dimensional Euler code ................................. 337
B30. KUMAR Anand:
Flow calculation over delta-wing using the thin-
layer Navier-Stokes equations .......................... 342
B31. PIVA R.:
The boundary integral equation method for viscous
and inviscid flows ..................................... 348
B32. OHYAMA Takumi:
Boundary element analysis for run-up of nonlinear
water wave ............................................. 356
B33. KAKUDA Kazuhiko, TOSAKA Nobuyoshi:
Numerical analysis of viscous fluid flow problems
by the generalized boundary element method ............. 364
B34. NISHIMURA Hitoshi, TAKEWAKA Satoshi:
Two-dimensional water wave analysis using
Lagrangian coordinate .................................. 370
C01. HICKMAN Roy S., LOCASCIO James Gaspare:
Simulation of water waves generated by ground
motion: island coastal interaction ..................... 375
C02. CHEN Han-Lin, OSHIMA Koichi, HINADA Motonori:
Numerical analysis of thermocapillary and
evaporating flow at low Bond number .................... 380
C03. IMAMURA Fumihiko, SHUTO Nobuo:
Tsunami propagation simulation by use of numerical
dispersion ............................................. 390
C04. HOLZ Peter, LEHFELDT Rainer:
Numerical simulation techniques for currents and
sediment transport in shallow waters ................... 396
C05. NETA B., WILLIAMS R.T.:
Analysis of finite element methods for the
solutions of the vorticity-divergence form of the
shallow water equations ................................ 402
C06. SHOKIN Yu.I., KHAKIMZYANOV G.S.:
Numerical calculation of potential free-surface
flows of ideal incompressible fluids ................... 408
C07. PANDOLFI Maurizio:
Non-equilibrium hypersonic flows : Physics and
numerics ............................................... 418
C08. ZHU You-lan, CHEN Bing-mu:
Some computed results of nonequilibrium gas flow
with a complicated model ............................... 428
C09. KOROBEINIKOV V.R:
Numerical modeling of gas flow with radiative-
convective transfer of energy .......................... 434
C10. KATSUKI Masashi, MIZUTANI Yukio:
Modeling of the mean reaction rate in turbulent
premixed flames ........................................ 441
С11. NASTASE Adriana:
The design of supersonic aircraft and space
vehicles by using global optimization tech niques ...... 447
C12. TAKAHASHI Masahiro, HAYASHI A. Koichi:
Numerical study on mixing of injecting jet into
a hypersonic flow ...................................... 454
C15. SULTANGAZIN U.M.:
Discrete nonlinear models of the Boltzmann equation .... 463
C16. NANBU Kenichi:
Monte Carlo simulation of various kinetic equations .... 476
C17. OKUDA Hiroshi, NAKAMURA Tsutomu, YAGAWA Genki:
Stable finite element fluid analysis using modified
upwind method .......................................... 481
C18. USAMI Masaru, FUJIMOTO Tetsuo, KATO Seizo:
Monte Carlo simulation of heat transfer from
a spine-fin through a rarefied gas ..................... 487
C19. ELIZAROVA T.G., CHETVERUSHKIN B.N.:
Kinetical consistent finite-difference gasdynamic
schemes ................................................ 493
С21. TANAKA Junichi, NAKAMURA Yoshiaki, YASUHARA Michiru:
Problems on collision sampling in the DSMC method ...... 499
C22. SHAKHOV Evgenii M.:
The problem on small local Knudsen numbers in
computational rarefied gas dynamics .................... 505
C24. FUJIWARA Toshi, REDDY K.V.:
Propagation mechanism of detonation-three-
dimensional phenomena .................................. 510
C26. ASO Shigeru, TAN Anzhong, TAKANO Masanori, HAYASHI
Masanori:
Numerical simulations of unsteady shock reflections
by ramps ............................................... 518
C28. MATSUO Yuichi, ARAKAWA Chuichi, SAITO Shigeru,
KOBAYASHI Hiroshi:
Navier-Stokes simulations of flows around a high-
speed propeller ........................................ 523
C29. HERRMANN U., KROLL N., RADESPIEL R., ROSSOW
C.C. SCHONE J. SONAR Th.:
Analysis of three-dimensional aerospace
configurations using the Euler and Navier-Stokes
equations .............................................. 530
C30. FURUKAWA M., YAMASAKI M., INOUE M.:
A zonal approach for solving the Navier-Stokes
equations using a TVD finite volume method ............. 540
C31. PAYNE Fred R.:
Numerical aerodynamics via formal integration:
Laplace Euler Prandtl Navier-Stokes and
Reynolds equations ..................................... 548
C32. CHAKRABARTTY Sunil K.:
Computation of 2D Navier-Stokes equations .............. 554
C33. WANG Ru-Quan, GAO Zhi:
Some aspects of the simplified Navier-Stokes
equations and their numerical solutions ................ 559
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