Bird G.A. — Molecular gas dynamics and the direct simulation of gas flows :: Электронная библиотека попечительского совета мехмата МГУ

Главная Ex Libris Книги Журналы Статьи Серии Каталог Wanted Загрузка ХудЛит Справка Поиск по индексам Поиск Форум

Авторизация

Поиск по указателям

Bird G.A. — Molecular gas dynamics and the direct simulation of gas flows

Обсудите книгу на научном форуме

Нашли опечатку?
Выделите ее мышкой и нажмите Ctrl+Enter

Название: Molecular gas dynamics and the direct simulation of gas flows

Автор: Bird G.A.

Аннотация:

Intended for scientists and engineers who wished to analyze practical non-linear gas flows at the molecular level.

Язык:

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1994

Количество страниц: 458

Добавлена в каталог: 22.09.2005

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

Предметный указатель

Random walk      211
Rarefaction wave      325—327
Rate coefficient      28 115 124
Rate equation      124
Reaction cross-section      125 133
Reciprocity condition      97
Recombination      26
Reduced mass      31
Relaxation collision number      104 117 138
Relaxation rates      116—117
Relaxation rates, DSMC result for rotation      232—237
Relaxation rates, DSMC result for vibration      242—245
Relaxation time      28
Reynolds number      383
Root mean square speed      21
Rotational collision number      228 (see also Кelaxation collision number)
Rotational radiation      144—145
Satellite contamination      387—388
Schmidt number      409
Self-diffusion coefficient      271
Shock Mach number      286
Shock wave, BGK solution      197
Shock wave, Burnett solution      293—295
Shock wave, DSMC results for      288—305
Shock wave, DSMC results for, in mixture      299—301
Shock wave, DSMC results for, with rotational energy      297
Shock wave, formation of strong      317—320
Shock wave, formation of weak      323—324
Shock wave, local Knudsen number in      287
Shock wave, Mott — Smith solution      191—194 302—305
Shock wave, Navier — Stokes solution      286—287
Shock wave, oblique      340 363 386
Shock wave, reflection of strong      320—322
Shock wave, shape factor      293
Shock wave, spherically imploding      328—321
Shock wave, thickness      286
Simple gas      5
Single particle in phase space      48
Single particle in velocity space      46
Slip at      150 190
Slip boundary condition      190 190
Slip velocity      150
Spatial correlations      256
Spatial correlations, temporal correlations      254
Specific heat      25
Specific heat, ratio      25 83
Specular reflection      97
Speed ratio      82
Sphere drag      172
Spherical symmetry      260
Square terms      127
Stagnation streamline flow      306—311
Standard conditions      19
Standard deviation      9
Statistical fluctuations      9 179 214
Statistical fluctuations in DSMC calculations      211—214 251—256
Steric factor      125
Stream velocity      13
Sub-cells      216
Substantial derivative      58
Summational invariants      58
Supersonic in corner flow      405—406
Supersonic, blunt body      (see Blunt body)
Supersonic, comer flow      394—401
Supersonic, impact on wall      384—387
Supersonic, leading edge      (see Leading edge jet)
Surface, density at      150

Surface-gas interaction      (see Gas-surface)
symbols      xiii-xvii
Taylor number      378
Taylor — Couette flow      378—383
Temperature      15
Temperature characteristic in mixture      18
Temperature characteristic of dissociation      25 412
Temperature characteristic of rotation      25 412
Temperature characteristic of vibration      25 412
Temperature characteristic, internal      15
Temperature characteristic, jump      150 190
Temperature characteristic, kinetic      14
Temperature characteristic, overall      15
Termolecular reactions      128—129
Test molecule      7 16 52 176 203
Test particle Monte Carlo method for collisionless flows      176
Thermal, backflow limit      84—86
Thermal, bound-bound      29 145—146
Thermal, bound-free      29
Thermal, diffusion      75
Thermal, DSMC result for      275—278
Thermal, equilibrium      (see Equilibrium)
Thermal, free-free      29
Thermal, most probable      78
Thermal, radiation      28
Thermal, single species      18
Thermal, speed in equilibrium gas average      78
Thermal, velocity      13
Thermodynamic      14
Thermophoresis      173—174
Time counter (TC) method      218
Transfer equation      56
Transition regime      183
Transition regime flows      203
Translational      14
Transport properties      (see Viscosity coefficient etc.)
Uncertainty principle      24
Universal gas constant      14
Variable hard sphere (VHS)      20 40—41
Variable soft sphere (VSS)      41—42
Variance reduction      181 212 428
Velocity distribution functions, Chapman — Enskog      3
Velocity distribution functions, equilibrium      3 64
Velocity distribution functions, full range      148
Velocity distribution functions, half range      150
Velocity distribution functions, Maxwellian      3 64
Velocity distribution functions, N particle      49
Velocity space      46
VHS      (see Variable hard sphere)
Vibrational excitation, anharmonic      245—246
Vibrational excitation, collision number      138 141 413
Vibrational excitation, DSMC result for      241
Vibrational excitation, energy levels      114 245—246
Vibrational excitation, harmonic oscillator      113
Viscosity DSMC result for      262—270
Viscosity in mixture      269—270
Viscosity, coefficient Chapman — Enskog result      66
Viscosity, coefficient for power-law molecules      67
Viscosity, coefficient for VHS molecules      67
Viscosity, coefficient for VSS molecules      70
Viscosity, cross-section      38
Viscosity, measured      408
Viscosity, temperature index      20 408
Viscous stress tensor      14 74
Vortices, behind vertical plate      348—352
Vortices, Taylor — Couette      378—383
VSS      (see Variable soft sphere)
Weighting factors      213 372—374 388

1 2

О проекте