Versteeg H.K., Malalasekera W. — An introduction to computational fluid dynamics :: Электронная библиотека попечительского совета мехмата МГУ

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Versteeg H.K., Malalasekera W. — An introduction to computational fluid dynamics

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Название: An introduction to computational fluid dynamics

Авторы: Versteeg H.K., Malalasekera W.

Аннотация:

This text aims to provide information for novice CFD users who, whilst developing CFD skills by using software, need a reader that covers the fundamentals of the fluid dynamics behind complex engineering flows and of the numerical solution algorithms on which CFD codes are based.

Язык:

Рубрика: Математика/Численные методы/Моделирование физических процессов/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1995

Количество страниц: 257

Добавлена в каталог: 20.02.2005

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID

Предметный указатель

Source terms, linearisation      87 112 201
Source terms, momentum      139
Source terms, pressure gradient      139
sources      26
Spectral method      4
Stability      6
Staggered grid      137—138 142 192
STAR-CD      4
Steady state diffusion      85 99
Stoichiometric      212—213
Strain rate      see Deformation rate
Stress      15 67
Stress tensor      67
Stress, Reynolds      63
Stress, viscous      63
Strongly implicit procedure (SIP)      167
Subsonic flow      35
Supersonic flow      35 36—39
Sweep direction      159
Symmetry boundary condition      36 192 205
Taylor Series Truncation Error (TSTE)      114 125 131 171
TDMA method      157—165 183
TDMA method, three-dimensional      159
TDMA method, two-dimensional      159
Team      9
Temperature equation      20 201—202
Tensor algebra      68
thermal conductivity      88
Thermodynamics, first law of      10
Thin shear layers      34 54—62
Three-dimensional convection-diffusion      123
Three-dimensional diffusion      100 102
Three-dimensional flow      124 182
Three-dimensional implicit method      180
Time averaged transport equations      52
Time averaged transport equations, kinetic energy      68
Time averaged transport equations, Reynolds equations      52
Time averaged transport equations, turbulence kinetic energy      69
Time averaging      49—51
Time dependent      168
Time-step      168 172 176—178 187
Transient convection-diffusion      181
Transient PISO algorithm      187
Transition      44—49
Transition, flat plate      46
Transition, jets      46
Transition, pipe flow      47
Transitional flow, Cebeci's method      48
Transitional flow, computation of      48
Transonic flow      36—39
Transport equation      25 85 103 104 135 211
Transportiveness      7 110 112—114 118 123
Tri diagonal system      156
Tri-diagonal matrix algorithm (TDMA)      157
Tri-diagonal matrix solution      131
Turbulence fluctuations      42
Turbulence intensity      50 194
Turbulence modelling      53

Turbulence models      62—84
Turbulence models, $k-\varepsilon$       64 67—75 81—83
Turbulence models, classical      62
Turbulence models, large eddy simulations      62
Turbulence models, Reynolds stress equations      64 75—78
Turbulence production      69—70
Turbulence time scale      215
Turbulence, nature of      42
Turbulence, what is?      41
Turbulent core      200
Turbulent flow      200 201
Turbulent kinetic energy      67 132 196 201
Turbulent kinetic energy, transport equation for      69
Turbulent length scale      64—65
Turbulent length scale, velocity scale      64—65
Turbulent Prandtl number      202
Turbulent scalar transport, mixing length model      65
TVD schemes      133
Two-dimensional convection-diffusion      123
Two-dimensional diffusion      99 102
Two-dimensional flow      124 182
Two-dimensional implicit method      180
Two-dimensional laminar steady flow      135 142
u-control volume      140
u-momentum equation      139 194 204
Underrelaxation      145 189
Underrelaxation factor      145
Uniform grid      105
Unsteady flow      168
Unsteady heat conduction      169
Upwind      114 125
Upwind differencing scheme      114 116—120 132—134 139
Upwind differencing scheme, assessment of      118
Validation      8
Validation, reference material for      8 81
Validation, Velocity defect law      59
Velocity corrections      143
Velocity distribution, flat plate boundary layer      61
Velocity distribution, jets      55 58
Velocity distribution, mixing layer      58
Velocity distribution, near solid walls      61
Velocity distribution, wake      58
Viscous dissipation      69—70
Viscous stresses      43 52 60 63 69 73
Viscous sub-layer      66 200
Von Karman's constant      73 200
Wall boundary condition      72 192 196
Wall bounded flows      57—62
Wall bounded flows, multi-layer structure in      58
Wall damping functions      74
Wall force      201—203
Wall functions      73 200
Wall heat flux      73 201—203
Wall shear stress      200—203
Wave equation      29
What is turbulence?      41—43
Wiggles      109 112 118
Zero gradient (boundary conditions)      197 207
Zone of influence      31

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