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Krasnov N.F. — Aerodynamics. Part 2. Methods of aerodynamic calculations
Krasnov N.F. — Aerodynamics. Part 2. Methods of aerodynamic calculations



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Название: Aerodynamics. Part 2. Methods of aerodynamic calculations

Автор: Krasnov N.F.

Аннотация:

Aerodynamics is a branch of dynamics concerned with studying the motion of air, particularly when it interacts with a solid object. Aerodynamics is a subfield of fluid dynamics and gas dynamics, with much theory shared between them. Aerodynamics is often used synonymously with gas dynamics, with the difference being that gas dynamics applies to all gases.


Язык: en

Рубрика: Технология/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1985

Количество страниц: 432

Добавлена в каталог: 15.04.2013

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID
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Предметный указатель
Gradient, velocity      344f
Gradient, velocity, at stagnation point      50
Gradient, velocity, initial      50 53
Hayes, W.D.      410 412
Heat flux(es) at stagnation point      328 348f 360
Heat flux(es) by diffusion      319ff 359
Heat flux(es) on cone      353f
Heat flux(es) to flat nose      354f
Heat flux(es), aerodynamic      318
Heat flux(es), aerodynamic, at high altitudes      368
Heat flux(es), aerodynamic, at stagnation point      328
Heat flux(es), average over plate      337
Heat flux(es), conduction and diffusion      323f
Heat flux(es), distribution on blunt-nosed cone      353f
Heat flux(es), radiant      326
Heat flux(es), radiant, from Sun      328
Heat flux(es), radiant, maximum      327
Heat flux(es), radiant, spherical nose      327
Heat flux(es), total, to wall      360f
Heat flux(es), transition region      366
Heat transfer and catalytic reaction rate constant      362
Heat transfer and dissociation      325
Heat transfer and flight speed      362
Heat transfer by convection      324
Heat transfer by diffusion      322 356ff
Heat transfer by diffusion in boundary layer      322ff
Heat transfer by gas to wall      338
Heat transfer from heated gas      319ff
Heat transfer in boundary layer      319 322ff
Heat transfer in boundary layer on curved surface      338ff
Heat transfer in turbulent boundary layer      355f
Heat transfer on blunt-nosed cone      351
Heat transfer on spherical surface      351
Heat transfer, blunt-nosed bodies      34
Heat transfer, blunt-nosed bodies, hypersonic velocities      34
Heat transfer, coefficient      324f
Heat transfer, coefficient, and friction factor      335
Heat transfer, coefficient, laminar boundary layer      364
Heat transfer, coefficient, reference      336
Heat transfer, free-molecule flow, calculation      407ff
Heat transfer, rate, at stagnation point      349
Heating, aerodynamic      318ff
Hilton, W.      412
Hodograph      19f
Hodograph, equation      16
Hypothesis, absence of boundary layer influence      248
Hypothesis, constant shear stress over boundary layer      267
Hypothesis, continuum, application to flow studying      371
Hypothesis, kinematic similarity in fluid flow      274
Integral, Euler — Poisson      378
Integral, probability      379
Interaction, molecule-wall      374f
Interference      128ff see
Interference and compressibility      173
Interference factor(s)      133f 193 226
Interference factor(s) and wing taper ratio      151
Interference factor(s) in rolling      161f 171
Interference factor(s) in rolling, cruciform wing-body combination      162
Interference factor(s) in rolling, flat wing-body combination      162
Interference factor(s), and boundary layer of body      151f
Interference factor(s), body      173 217f
Interference factor(s), body, non-slender configuration      174
Interference factor(s), body-wing      145ff 153 171 177f
Interference factor(s), determination      143ff 196ff
Interference factor(s), empennage      207
Interference factor(s), panels      184
Interference factor(s), triangular empennage      201f
Interference factor(s), wing      173 207 217f
Interference factor(s), wing-body      145ff 153
Interference, aerodynamic      see "Interference"
Interference, body-empennage      183
Interference, body-flat wing      157ff
Interference, body-flat wing, disturbance velocity potential      135
Interference, body-flat wing, rolling angle      155ff
Interference, body-flat wing, velocity components      158
Interference, corrections      133
Interference, nature      128ff
Interference, tail unit-wing, and shock      205
Interference, wing-body      128f 183
Interference, wing-body, due to sideslip      160
Interference, wing-body, non-slender configuration      174
Interference, wing-body, normal force      143
Interference, wing-body, with sideslip      160ff
Interference, wing-empennage      130ff
Interference, wing-empennage, and angle of attack      204f
Interference, wing-empennage, subsonic velocities      189f
Interference, wing-empennage, supersonic velocities      190ff
Interference, wing-empennage, thin combination      188
Interference, wing-tail unit      132
Interference, wing-tail unit, linearized supersonic flow      131
Ionization      319
Ionov, V.P.      25 411
Irov, Yu.D.      54 64 411
Irradiance, Earth, and altitude      330
Irradiance, Sun      328f
Karpovich, E.A.      412
Keil, E.V.      54 64 411
Kibardin, Yu.A.      25 411
Koshevoi, V.N.      24 209 411
Koshkin, V.K.      413
Krasnov, N.F.      24 27 75 90 109 209 327 349 411
Kuznetsov, S.I.      25 411 413
Laminar boundary layer      250 257ff 285ff 290ff
Laminar boundary layer in compressible flow      257ff
Laminar boundary layer on flat plate      257ff 285ff
Laminar boundary layer, calculation      297ff
Laminar boundary layer, continuity equation      339
Laminar boundary layer, enthalpy recovery factor      280
Laminar boundary layer, friction factor      297
Laminar boundary layer, heat transfer coefficient      364
Laminar boundary layer, heat transfer on curved surface      338ff
Laminar boundary layer, incompressible      285
Laminar boundary layer, skin friction      282 290ff
Laminar boundary layer, stability, and Mach number at edge      312f
Laminar boundary layer, stability, and surface roughness      310f
Laminar boundary layer, stability, and wall temperature      311 313
Laminar boundary layer, thickness, and dissociation      287
Laminar boundary layer, thickness, and temperature ratio      286
Laminar boundary layer, thickness, on cone      293
Laminar boundary layer, thickness, on flat plate      293
Landau, L.D.      413
Law, Fourier's      319
Law, similarity      72f 91f 106f
Law, similarity, body of revolution in linearized flow      106f
Law, Stefan — Boltzmann      326 330
Law, velocity distribution, turbulent boundary layer      273ff
Layer, high-entropy      32
Layer, high-entropy, flow in      32f
Lebedev, A.A.      110 151 179 205 244 411
Length, characteristic      242
Length, mixing      266f
Length, mixing, in incompressible flow      267
Liepmann, H.W.      413
Lifshits, E.M.      413
Lin, C.C.      413
Lines, hinge      209f
Loading, wing      198f
Loitsyansky, L.G.      257 412
Lunev, V.V.      413
Lyubimov, A.N.      25 411 412
Manoeuvrability, craft      212f
Method, analogy      94f
Method, characteristics      61ff
Method, direct solution of equations      356
Method, Dorodnitsyn's      302
Method, Newton's      51
Method, Newton's, flow over blunt-nosed cone      51f
Method, reduced angle of attack      235ff
Method, reference parameters      299
Method, reverse-flow      197 213ff
Method, sources      82f 111
Mkhitaryan, A.M.      413
Model, Euler's      52
Model, Newton's      52
Model, vortex, body-wing combination      193f
Model, vortex, flat craft configuration      231
Model, vortex, wing-body combination      190ff
Modules, landing spacecraft      34f
Molecules, reflected, temperature      404ff
Molecules, velocity, mean square, random motion      376
Molecules, velocity, mean, random motion      376
Molecules, velocity, most probable      376
Moment in rolling      182
Moment, damping      126
Moment, pitching      101
Moment, pitching, additional due to rolling      163
Moment, pitching, body-wing combination      148
Moment, rolling, additional      185
Moment, rolling, additional, in sideslip      163
Moment, rolling, body-wing combination      186f
Moment, rolling, flat combination      186f
Moment, rolling, tail unit      207f
Moment, spiral      234f 237 239
Moment, yawing      234f
Momentum, transfer to wall      389ff
Motion      see also "Flow(s)"
Motion, body of revolution      116f
Motion, rolling      223
Nielsen, J.      190 412
Normal force      100
Normal force and aspect angle      217
Normal force and aspect angle in linearized flow      134
Normal force coefficient      101
Normal force coefficient in harmonic oscillations      119
Normal force coefficient in rotation      122
Normal force coefficient, additional, due to all-moving wing deflection      218f
Normal force coefficient, additional, due to interference      173
Normal force coefficient, additional, with V-shaped surface      183
Normal force coefficient, axisymmetric flow      101
Normal force coefficient, body of revolution      117 123
Normal force coefficient, body of revolution, slender      107ff
Normal force coefficient, body-empennage combination      220
Normal force coefficient, body-wing combination      134 143ff 153f 163 165 172
Normal force coefficient, body-wing-empennage combination      206f 220ff
Normal force coefficient, empennage      189f
Normal force coefficient, empennage, in rolling      235f
Normal force coefficient, empennage-body combination      220
Normal force coefficient, linearized flow      104
Normal force coefficient, reduction due to vortex      203
Normal force coefficient, slender cone      104
Normal force coefficient, subsonic sweptback edge      176
Normal force coefficient, supersonic sweptback edge      176
Normal force coefficient, tail part      193
Normal force coefficient, wing-body combination      180
Normal force in rolling      180ff
Normal force, additional, with V-shaped surface      183
Normal force, all-movable controls      216f
Normal force, body-empennage combination      198
Normal force, body-wing combination      132ff 143ff 153f 160f
Normal force, body-wing combination, in sideslip      169
Normal force, body-wing combination, supersonic flow      191
Normal force, body-wing-empennage combination      188ff
Normal force, developed by control surface      214ff
Normal force, due to rolling      170f
Normal force, empennage      232f
Normal force, wing-body interaction      143
Noses, blunt, shape      30ff
Noses, conical      110
Noses, flat      57f 354f
Noses, flat, velocity gradient at centre      58
Noses, ogive      93
Noses, parabolic      71ff 89
Noses, spherical, velocity distribution      50f 53
Number, Knudsen      370 373
Number, Lewis      322
Number, Mach, and pressure on cone      29f
Number, Mach, on conical surface, and velocity      29
Number, Nusselt      325f 335
Number, Nusselt, laminar boundary layer      335
Number, Nusselt, local      335
Number, Prandtl      249 280 284 322
Number, Prandtl, for air      280
Number, Prandtl, reference      336
Number, Schmidt      322 357
Opaqueness, air      327
Oscillations, harmonic, about lateral axis      119ff
Oscillations, harmonic, low-frequency      118ff
Oscillations, harmonic, normal force coefficient      120
Oscillations, harmonic, pitching moment coefficient      120
Oscillations, harmonic, pressure coefficient      119
Oscillations, harmonic, unsteady flow      116f
Panel(s) with rounded tips      182
Panel(s), flat, and circular cylinder      166ff
Panel(s), horizontal      181
Panel(s), interference factor      184
Panel(s), tail unit, local angle of aspect      132
Panel(s), triangular      182 199
Panel(s), vertical      181
Panel(s), wing, rectangular      151
Parameter(s), gas      27f 54 283
Parameter(s), inviscid flow      74f
Parameter(s), kinematic, dimensionless      122 232
Parameter(s), stagnation pressure      23
Path, free molecules      369f
Patterson, G.N.      375 412
Paulhausen      260
Pavlukhin, B.N.      54 64 411
Pitching moment coefficient      101
Pitching moment coefficient in harmonic oscillations      120
Pitching moment coefficient in rolling      164
Pitching moment coefficient in rotation      122
Pitching moment coefficient, additional      233
Pitching moment coefficient, body of revolution      117f 123 399
Pitching moment coefficient, body-wing combination      149 172
Pitching moment coefficient, body-wing-empennage combination      206f
Pitching moment coefficient, linearized flow      104
Pitching moment coefficient, slender body of revolution      108
Pitching moment coefficient, slender cone      105
Pitching moment coefficient, total      243
Plates, wing-tip      305
Pleshanov, A.S.      25 26 411
Point, separation      300f
Point, separation, and compressibility      302
Point, transition, location      309
Point, transition, wing airfoils      314
Polar(s), shock      22
Polar(s), shock, equation      16
Potential, complex      167
Potential, complex, crossflow      158
Potential, complex, disturbance velocities      158
Potential, complex, flow over circular cylinder      136
Potential, complex, horizontal panels      166
Potential, complex, vertical panels      166
Potential, disturbance      78
Prandtl, L.      266
Predvoditelev, A.S.      25 26 411
Pressure      64
Pressure coefficient      51
Pressure coefficient in harmonic oscillations      119
Pressure coefficient in rotation      122
Pressure coefficient on cone      23 27
Pressure coefficient on cone with gas dissociation and ionization      28
Pressure coefficient on cone, axisymmetric supersonic flow      24
Pressure coefficient on cone, flat-nosed      34
Pressure coefficient on conical surface      88
Pressure coefficient, body of revolution      81 97f 106
Pressure coefficient, body of revolution, additional      117
Pressure coefficient, body-wing combination      139 157
Pressure coefficient, component, axisymmetric flow      81
Pressure coefficient, component, crossflow      81
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