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Pope S.B. — Turbulent Flows

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Название: Turbulent Flows

Автор: Pope S.B.

Аннотация:

Turbulent Flows is an up-to-date and comprehensive graduate text on this important topic in fluid dynamics. The book consists of two parts: Part I provides a general introduction to turbulent flows, how they behave, how they can be described quantitatively, and their fundamental physical processes. Part II is concerned with different approaches for modeling, or simulating, turbulent flows. Key appendices present the necessary mathematical techniques. While primarily intended for engineering graduate students, this book will also be valuable to students in applied mathematics, physics, oceanography and atmospheric sciences, as well as to researchers and practicing engineers.

Язык:

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 2000

Количество страниц: 771

Добавлена в каталог: 04.06.2010

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

Предметный указатель

Kronecker delta      643
Kruger, C. H. Jr.      361 363
Kuerten, H.      603 625 629 639
kurtosis      43 46
Kurtosis, conserved scalar      175 176
Kurtosis, velocity      177 177 510
Kurtosis, velocity-derivative      256 256 260 261 262
Kuwahara, K.      633
Kuznetsov, V. R.      545
L $\ddot{o}$ fdahl, L.      433
Ladd, J. A.      461
Lagrangian      487 487 499
Lagrangian approach      12
Lagrangian approach, dispersion      495-505
Lagrangian approach, PDF methods      479-480 481
Lagrangian autocorrelation function      see Autocorrelation function
Lagrangian fields      13
Lagrangian integral timescale      485 486 499
Lagrangian IP model      477-478
Lagrangian particle method      516-529
Lagrangian particle method, summary      526
Lagrangian structure function      see Structure function
Lai, Y. G.      437
Lakshminarayana, B.      461
Laminar flow      see Boundary layer laminar etc.
Langevin equation      483-488 720 Ornstein
Langevin equation, coefficients      486
Langevin equation, consistency with Kolmogorov hypotheses      487 504
Langevin equation, evolution of characteristic function      488
Langevin equation, evolution of moments      488
Langevin, P.      483
Laplacian      652
Laplacian, conditional      546 553
Laplacian, conditional, for Gaussian field      550 551
Laplacian, conditional, in polar-cylindrical coordinates      110
LaRue, J. C.      160 170-172 174 176 376
Launder, B. E.      xxxiii 165 287 373 375 382 383 423 425 426 428 431 432 434-439 441 442 454 456 458 461
Launder, Reece and Rodi model      see LRR-IP LRR-QI
Laurence, D.      432 448
Law of the wake      305 306
Law of the wall      273 274 272-274
Law of the wall in boundary layer      303 303
Law of the wall, near-wall expansion      273 288
Law of the wall, relation to mixing length      304
Law of the wall, viscous sublayer      273
Le, H.      355 356
Least-square projection      567
Lee, M. J.      157 346 360 361
Left-hand screw      see Handedness
Lele, S. K.      430
Lengthscale      Integral lengthscale Kolmogorov Taylor
Lengthscale from and $\varepsilon$       244
Lengthscale in log-law region      288 379
Lengthscale, demarcation, $l_{DI}$       186 187 187 237
Lengthscale, demarcation, $l_{EI}$       184 187 187 242
Lengthscale, eddy      183
Lengthscale, viscous      270
Leonard stress      583 584 608 622 627
Leonard, A.      562 564 577 584
LES      558-639
LES in wavenumber space      604-618
LES in wavenumber space, energy-transfer rate      610
LES in wavenumber space, resolution requirements      606
LES in wavenumber space, spectral energy balance      609-610
LES, completeness      635-636
LES, computational cost      636-637
LES, computational cost, dependence on resolution      575
LES, deterministic      613 613
LES, fraction of energy resolved      560
LES, fraction of energy resolved, dependence on filter width      570 576-578
LES, largest unresolved motions      620 622
LES, near-wall treatments      634-635
LES, no model      633
LES, smallest resolved motions      620 621 621
LES, statistical view      613 612-615
LES, stochastic      613 614
LES-NWM      560 561
LES-NWM, boundary conditions      634-635
LES-NWM, computational cost      636
LES-NWM, resolution requirements      598-600
LES-NWR      560 561
LES-NWR, boundary conditions      634
LES-NWR, computational cost      636
LES-NWR, resolution requirements      598-600
Lesieur, M.      7 340 611 630
LESlie, D. C.      612
Level of description of models      337 (see also Appraisal of models)
Levi — Civita symbol      see Alternating symbol
Libby, P. A.      170-172 174 176
Lighthill, M. J.      680 682
Lilley, G. M.      461
Lilly analysis      579 595
Lilly analysis, Smagorinsky coefficient      588
Lilly, D. K.      560 577 580 587 589 620 623
Liouville equation      716
List, E. J.      494
Liu, J.      626
Liu, S.      603 628
Local homogeneity      190
Local isotropy      184 190
Localness      399
Log law      273-274 442 634
Log law for rough walls      297 297
Log law in boundary layer      303
Log law in channel flow      275
Log law in pipe flow      291 292
Log law, compared with power law      309 310
Log law, effect of pressure gradient      305
Log-law region      274 275 276
Log-normal distribution      48 46-49 261 262 509-511
Log-normal distribution, moments      48
Loitsyanskii, L. G.      205
Lomax, H.      308 367
Long, R. R.      308
Longitudinal      196 197
Longitudinal integral lengthscale      see Integral lengthscale
Lorenz equations      35 36 37
Lorenz, E. N.      35
LRR-IP model      424 427 423-428 441 446
LRR-IP model, corresponding GLM      476
LRR-QI model      427 425-428
Lu, S. S.      325 328
Lumley triangle      394 395 401 420
Lumley, J. L.      xviii 101 105 127 130 163 164 224 247 325 326 328 330 331 348 354 383 389 394 399 402 423 425 427 428 430-432 438 442 458 460 461 680
Lumley’s pressure-tRANSport model      430
Lund, T. S.      578 593 596 620 626 631
Lundgren, T. S.      468
Luo, J.      461
M $\acute{e}$ tais, O.      630
Mach number      128 363
Mahesh, K.      357
Makita, H.      160
Mandelbrot, B. B.      261
Mani, M.      461
Mansour, N. N.      269 328 355 429 434 436 439
Mapping closure      550 551-552 555
Marasli, B.      149
Markov process      485 503 713
Marusic, I.      314 326
Mason, P. J.      560 604 631 635
Mass-conservation equation      see Continuity equation
Material derivative      13
Material derivative, mean      84
Material line      14 22 24
Material point      14 (see also Fluid particle)
Material surface      14
Material volume      14 15
Material-frame indifference      31 32 426
Maurer, J.      258
McComb, W. D.      7 340

McGinley, C. B.      332
McMillan, O. J.      602
McWilliams, J. C.      631
Mean      41
Mean free path      10 361
Mean molecular speed      361
Mean substantial derivative      84
Mean-momentum equation      see Reynolds equations
Mechanical-to-scalar timescale ratio      164 165 547
Mehta, R. D.      143 144 395
Melling, A.      81 365
Mellor, G. L.      431
Meneguzzi, M.      352
Meneveau, C.      171 259 577 593 596 603 620 626 628
Menter, E.      384 461
Menter’s model      384
Metzler, S. P.      324
Michel, R.      300
Micromixing models      see Mixing model
Microscales      see Kolmogorov scales Taylor
Miles      631-634
Miller, P. L.      165
Millikan, C. B.      277
Minier, J.-P.      509 510
Mixed models      627-628
Mixing      5 6 545-555
Mixing layer      139-147
Mixing layer, boundary-layer equation      145
Mixing layer, conditional statistics      172 173
Mixing layer, entrainment      145
Mixing layer, forcing      179 180
Mixing layer, intermittency factor      172
Mixing layer, mean velocity      141 143
Mixing layer, PDF calculations      510
Mixing layer, PDF of scalar      174 176
Mixing layer, PDF of velocity      176 177
Mixing layer, Reynolds stress      144
Mixing layer, spatial      142
Mixing layer, spreading parameter      142 180
Mixing layer, spreading parameter, related to shear stress      147
Mixing layer, temporal      142-143
Mixing layer, turbulent kinetic energy budget      431
Mixing layer, turbulent structures      178
Mixing layer, uniform turbulent viscosity      146
Mixing layer, width      140 140 141
Mixing length      see also Mixing-length model
Mixing length in boundary layer      304 305 307
Mixing length in defect layer      308
Mixing length in log-law region      289
Mixing length in viscous sublayer      305
Mixing model      546-555
Mixing model, Gaussian-field      550-552
Mixing model, ideal      554
Mixing model, IEM      547 550 553
Mixing model, LMSE      547
Mixing model, mapping closure      551
Mixing-length model      289-290 337 366-369
Mixing-length model for free shear flows      367 368
Mixture fraction      161
Modified equation      631 633
Modified pressure      17 30 88 581
Moeng, C.-H.      631
Mohamed, M. S.      160 376
Moin, P.      155-157 268-270 273 274 277 282-285 303 330 339 346 353 355-357 371 395 424 429 433 435 439 532 540 544 560 578 599 600 603 620 625 626 631 635
Molecular mixing models      see Mixing model
Molecular scales      10 361 363
Molecule      11
Molecule, stochastic model for position      534 536
Molecule, stochastic model for position, at wall      539 539
Moments      42
Moments from characteristic function      708
Moments, standardized      43
Momentum conservation equation      16 see
Momentum conservation equation, integral      115 301
Momentum thickness      299 302
Monaghan, J. J.      525
Mongia, H. C.      509
Monin, A. S.      7 8 201 203 250 308 680 692 703
Moon, F. C.      35 37
Moser, R. D.      142-144 176 177 268-270 273 274 277 282-285 303 330 339 353-355 371 372 395 431 435 532 540 604 627
Muck, K. C.      321
Multi-scale models      458
Mungal, M. G.      4 101
Murlis, J.      327
Musonge, R.      425 427
Mydlarski, L.      160 254 255
Nakayama, P. I.      373
Naot, D.      423
Narasimha, R.      321
Navier — Stokes equations      8 17
Navier — Stokes equations in polar-cylindrical coordinates      110
Navier — Stokes equations in wavenumber space      212-215 605
Navier — Stokes equations, filtered      581-582
Navier — Stokes equations, filtered, in wavenumber space      606 609
Navier — Stokes equations, Stokes form      23
Navier — Stokes equations, transformation properties      25 24-33
Nee, V. W.      385
Nelkin, M.      262
Nelson, T. E.      386 461
Newtonian fluid      16 361
Nguyen, V. D.      157
Nilsen, V.      552
No-slip condition      17 539
Non-turbulent mean and statistics      see Intermittency conditional
Normal distribution      45-46 47
Normal distribution, characteristic function      708
Normal distribution, Moments      46
Normal distribution, standardized      46
Normal stress      87
Novikov, E. A.      590
Numerical dissipation      632
Numerical error      341 342 631
Numerical stress      632
Numerical viscosity      632 634
Oberhettinger, F.      680
Obukhov, A. M.      253 258 260 261
Okong’o, N.      633
One-component turbulence      394 395 396
One-dimensional spectrum      see Spectrum
One-equation model based on       369-373
One-equation model based on $\nu_{T}$       see Spalart — Allmaras model
Oran, E. S.      633 638
Ornstein — Uhlenbeck process      67 484 720-722
Ornstein — Uhlenbeck process, autocorrelation function      70 485 487 721
Ornstein — Uhlenbeck process, conditional PDF      720
Ornstein — Uhlenbeck process, non-differentiability      485 486
Ornstein — Uhlenbeck process, sample paths      485
Ornstein — Uhlenbeck process, spectrum      71 721
Ornstein — Uhlenbeck process, structure function      486
Orszag, S. A.      344 352 383 560
Orthogonal decomposition      328
Orthonormal basis functions      329
Orthonormal basis vectors      644 644
Oster, D.      179 180
OU process      see Ornstein — Uhlenbeck process
Outer layer      270 275 276
Outer layer, velocity scale      310
Overholt, M. R.      352
Overlap region      275 276 276-277 308-310
O’Brien, E. E.      547 551 586
Pairing      178
Panchapakesan, N. R.      101 105 127 130 163 164
Panchev, S.      7 253
Panton, R. L.      10 11
Pao, Y.-H.      140-142 236 253 510
Parlange, M. B.      628
Parneix, S.      432 448 461
Parseval’s theorem      681-682
Particle method      525 547 552
Particle position density      519-520 548

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