Zienkiewicz O.C., Taylor L.R. — The finite element method (vol. 3, Fluid dynamics) :: Электронная библиотека попечительского совета мехмата МГУ

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Zienkiewicz O.C., Taylor L.R. — The finite element method (vol. 3, Fluid dynamics)

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Название: The finite element method (vol. 3, Fluid dynamics)

Авторы: Zienkiewicz O.C., Taylor L.R.

Аннотация:

In the years since the fourth edition of this seminal work was published, active research has developed the Finite Element Method into the pre-eminent tool for the modelling of physical systems. Written by the pre-eminent professors in their fields, this new edition of the Finite Element Method maintains the comprehensive style of the earlier editions and authoritatively incorporates the latest developments of this dynamic field. Expanded to three volumes the book now covers the basis of the method and its application to advanced solid mechanics and also advanced fluid dynamics. Volume Three: Fluid Dynamics is intended for readers studying fluid mechanics at a higher level. Although it is an ideal companion volume to Volume One: The Basis, this advanced text also functions as a "stand-alone" volume, accessible to those who have been introduced to the Finite Element Method through a different route.

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Рубрика: Математика/Численные методы/Конечные элементы/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Издание: Fifth edition

Год издания: 2000

Количество страниц: 348

Добавлена в каталог: 20.02.2005

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

Предметный указатель

Isotropic meshes      109
Isotropic thermal conductivity      8
Isotropic, viscosity      118
Iterations, Newton — Raphson      130
Iterative convergence      188
Iterative non-linear solution      96 147
Ito, H.      223 241
Jain, P.C.      120 139
Jaluria, Y.      155 166
Jameson, A.      80 90; 148 165; 189 215 216
Jami, A.      223 240
Janson,C.      146 165
Jenson, G.      146 165
Jet, axisymmetric      96
Jiang, B.N.      34 61; 135
Jimenez, J.      161 167
Jin, H.      102 137
Johan, Z.      24 28 60 61; 215
Johnson, C.      28 29 34 61; 215
Johnson, R.H.      120 139
Johnson, W.      121 140
Jones, J.      169 189
Jue, T.C.      67 77 88; 166
Jump: positive      235
Jumps, interface      294
Kakita, T.      130 141
Kallinderis, Y.      198 216
Kamath, M.G.      109 138
Kanehiro, K.      266 267 273
Kashiyama, K.      223 241
Kaviany, M.      157 166
Kawahara, M.      67 88; 224 227 239 240 241
Kawasaki, T.      223 227 241
Kawka, M.      130 141
Keel      150 153
Kelly, D.W.      19 27 28 60; 241; 255 270 271
Kennedy, J.M.      128 141
Keunings, R.      132 142
Kim, Y.H.      146 155 165
Kinematic condition      265 266
Kinematic viscosity      66 154 162
kinetic energy      121
Kinetic energy, turbulent      162
Kinzel, G.K.      130 142
Kleiber, M.      130 141
Kobayashi, S.      120 139 140
Kodama, T.      223 227 241
Kong, L.      57 169
Korteweg-de Vries equation      268
Kronecker delta      5 65
Kumar, K.S.V.      102 109 110
Kumar, S.G.R.      67 88
Kuo, J.T.      223 240
Kutta — Joukoski condition      150
Labadie, C.      38 62
Labadie, G.      223 227 241
Lag-entrainment      210 303 304
Laghrouche, O.      247 248 249 271
Lagrange multipliers      294
Lagrangian velocity increment      132
Lahoti, G.D.      120 140
Lai, G.K.      120 140
Lam, C.K.G.      161 163 164 167
Lamb, H.      4 9 12; 243 244 268 270
Lame notation      5
Laminar flow      210 302
Laminar flow, incompressible      91
Laminar flows      210
Landu, L.D.      4 12
Lapidus, A.      50 63; 215
Lapidus-type artificial diffusion      179 180
Laplace's equation      96 265 266
Laplacian form      97
Large eddy simulation (LES)      161
Large wave height      245
Large-amplitude progressive waves      268
Large-amplitude water waves      265 266
Larsson, L.      146 165
Latent heat      289
Latteaux, B.      223 227 241
Lau, L.      270 273
Laug, P.      102 109 110 137
Launder, B.E.      161 167
Lauriat, G.      159 167
Laval, H.      67 87
Law: conservation      13
Law: exponential      118
Law: idea gas      3 170
Law: plasticity      132
Law: Sutherland's      171
Lawrence Livermore Laboratory      132
Lax — Wendroff      246
Lax, P.D.      43 48 62
Layer: sponge      254
Le Balleur, J.C.      211 212 217
Leaking lid formulation      97
Lee, C.H.      120 139
Lee, J.H.S.      102 135
Lee, J.H.W.      223 240 240
Lee, J.K.      130 142
Lee, R.L.      67 87
Lee, S.C.      155 166
Lee, T.H.      146 165
Legat, V.      102 103 132 137 142
Leibnitz rule      220
Leonard, B.P.      19 60
Lesieur. M.      161 168
Levine, E.      38 62
Levy, J.F.      116 138
Lewis, R.W.      109 138; 165; 239 289 290
Lick, W.      237 241
Lid-driven cavity      100 101 103 104 111
Lifshitz, E.M.      4 12
Lighthill, M.J.      210 216; 268 270
Lin, P.X.      38 62
Linear newtonian isotropic fluid      5
Linear shape function      16
Linear triangular elements      283
Linking to boundary integrals      255
Linking to exterior solutions      255
Linking to series solutions      256
Liou, J.      38 62
Liu, Y.C.      57 63; 118 123 125 135 139 140 141; 213
Local extremum      176
Local non-reflecting boundary conditions      253
Local patch interpolation      107
Local time stepping      78 280 284
Localizing shocks      181
Locally structured mesh      108
Locked wave      269
Locking      132
Loehner, R.      38 46 47 57 62 63; 135 136 137; 165; 177 178 179 189 212 213 215 216; 241
Long Beach harbour      258
Long-wave propogation      224
Longshore currents      235
Lopez, S.      189 216
Low Mach number      65 81 84 173
Low Rayleigh number      159
Low Reynolds number models      163
Lower diagonal term      80
Lucas, T.      146 155 165
Lumped mass      42 43 78 175 177 278 284
Lynch, D.R.      223 226 239 240 241
Lyra, P.R.M.      34 61; 89; 136; 187 188 214 215 216
M2 tide      227
M6 wing: ONERA      208 209
Macauley, G.J.      260 264 265 272 273
MacCormack, R.W.      174 175 215
Mach 2      189 194 204
Mach 3 flow      187

Mach 8.15      207
Mach contours      208
Mach number      110 169 172 188 199 204 276 304
Mach number, higher      174
Mach number, inlet      84
Mach number, low      81 84
Mach number, lower      173
Magnetic field intensity vectors      246
Mahesh, K.      161 167
Majda, A.      254 271
Maji, P.K.      34 61; 88
Makinouchi, A.      130 141
Malamataris, N.      82 90
Malett, M.      176 215
Malkus, D.S.      116 138
Malone, T.D.      223 240
Manning friction coefficient      229
Manzari, M.T.      67 89; 168; 187 188 208 209 211 214 215
Mapped periodic infinite elements      260
Mapping, DtN      259
Marchal, J.M.      132 142
Marchant, M.J.      102 108 109 136 137; 206 214
Marcum, D.L.      109 138
Mareczek, G.      94 134
Marshall, R.S.      155 166
Martinelli, L.      147 148 165
Martinez, M.      223 241
Mass flow      6 74 92
Mass matrices      244
Mass matrices, consistent      175 177 284
Mass matrices, lumped      175 177 284
Mass matrix calculation      278 284
Mass matrix: consistent      43 298
Mass matrix: frequency independent      265
Mass matrix: lumped      43
Mass transfer      274 275
Mass transport      289
Mass, lumped      78
Mass: conservation of      1 6 64 66 91 219 242 291
Massarotti, N.      67 89; 155 159 166 167
Massoni, E.      130 141
Matallah, H.      132 142
Material code      275
Materials, incompressible      92
Matrices: conditioning of system      250
Matrices: consistent mass      43 175 177 284 298
Matrices: diagonal      58 72
Matrices: flux      13
Matrices: hermitian      263
Matrices: lumped mass      43 175 177 284
Matrices: mass      244
Matrices: positive definite      295
Matrices: stiffness      244 256
Mavripolis, D.J.      80 90
Maxant, M.      38 62
Maximum principal curvatures      108
Maxwell equations      243 246
McCarthy, J.H.      146 165
Mead, H.R.      211 217
Mean water level      219
Media flows: porous      274 276 286
Medium, porous      157
Mei, C.C.      146 165; 244 256 258 259 268 270 271
Melenk and Babuska method      247
Melenk, J.M.      247 271
Mellor, P.B.      121 140
Melnok, R.E.      211 217
Mesh data      275
Mesh enrichment      113 180 181
Mesh generation: adaptive      113
Mesh generation: anisotropic      109
Mesh generation: structured      275
Mesh generation: unstructured      109
Mesh refinement      110 113
Mesh refinement, adaptive      102
Mesh solution, coarse      300
Mesh subdivisions      301
Mesh updating      35 147
Mesh: adaptive      205
Mesh: fine      300
Mesh: hybrid      204
Mesh: isotropic      109
Mesh: locally structured      108
Mesh: moving      122
Mesh: structured      169 207 276 286
Mesh: surface      152
Mesh: uniform      112
Mesh: unstructured      286
Mesh: updated      36
Metais, O.      161 168
Metal forming      2 3 118
Metal forming, transient      132
Metals: hot      120
Meteorology      218 223
method      See also algorithms procedures process
Method: characteristic-Galerkin      34—36 68 176
Method: direct explicit      175
Method: direct solution      169
Method: discontinuous Galerkin      293
Method: explicit characteristic-Galerkin      40
Method: Galerkin      23
Method: hybrid      293
Method: interpolation      35
Method: lag-entrainment      210
Method: multigrid      300
Method: Petrov — Galerkin      18 33
Method: pseudo-concentration      148
Method: residual based      176
Method: shock capture      174
Method: Taylor — Galerkin      34
Method: Thwaites compressible      303
Method: two-step predictor-corrector      55
Method: wave envelope      246
Minev, P.D.      67 88
Minimum curvatures      109
Minimum step      280
Mira, P.      108 138
Mitchell, A.R.      18 19 27 60; 273
Mixed and penalty formulations      113
Mixed convection      286
Mixed discretization      116
Mixed form      116
Mixing length, Prandtl      163
Mode: fully explicit      99
Mode: incident      263
Mode: spiral      264
Models: $k-\omega$       163 164
Models: boundary integral      262
Models: Boussinesq      162
Models: computational      251
Models: DARPA submarine      149 152
Models: first-order closure      162
Models: one-equation      162
Models: transpiration velocity      210
Models: turbulence      212
Models: turbulent $k-\omega$       209
Models: turbulent $k-\varepsilon$       209
Models: two-equation      163
Modulus: bulk      5 11 64 91 92 242
Modulus: shear      5 115
Mohammadi, B.      102 109 110 137; 216
Moin, P.      161 167 168
Momentum      159 162 304
Momentum balance      242
Momentum calculations, intermediate      284
Momentum conservation      6 65 219
Momentum correction      279
Momentum equation      154
Momentum variables      284
Momentum, balance of      6

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