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Авторизация |
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Поиск по указателям |
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Versteeg H.K., Malalasekera W. — An introduction to computational fluid dynamics |
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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, 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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