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David A. Mooney — Introduction to Thermodynamics and Heat Transfer
David A. Mooney — Introduction to Thermodynamics and Heat Transfer



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Название: Introduction to Thermodynamics and Heat Transfer

Автор: David A. Mooney

Аннотация:

This text provides balanced coverage of the basic concepts of thermodynamics and heat transfer. Together with the clear and numerous illustrations, student-friendly writing style, and accessible math, this is an ideal text for an introductory thermal science course for non-mechanical engineering majors.


Язык: en

Рубрика: Технология/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1953

Количество страниц: 441

Добавлена в каталог: 24.03.2013

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID
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Предметный указатель
Absolute temperature      27
Absolute thermodynamic temperature      94
Absolute velocity      288
Absorption refrigeration      327
Absorptivity      369
Absorptivity data      417
Acceleration force on a fluid stream      280
Acetylene, properties      386—389
Adiabatic compression      306 308
Adiabatic machine, efficiency      310
Adiabatic process      32
Adiabatic process, mixing      163
Adiabatic process, reversible      87 179
Adiabatic process, reversible, on t-s plot      99
Adiabatic process, reversible, with perfect gas      148
Adiabatic saturation      169
Air excess      219 220
Air expansion cooling plant      335
Air properties      386 387 391 392 394 395 409
Air table      394 395
Air, dry      215
Air-standard cycles      237
Air-water vapor mixtures      164
American Institute of Physics      40
American Society of Heating and Ventilating Engineers      140 177 340 381
American Society of Mechanical Engineers      305 355 356 357 362 409 417
American Society of Refrigerating Engineers      134 140 177 337 381
Ammonia tables      404—407
Analysis, ultimate      214
Annulus      363
Approach, temperature      379
Area, annular      363
Area, mean      346 347
Argon, properties      386 387 409
Atoms and molecules      44 51
Availability      99
Availability, loss of      102
Avogadro’s law      142
Axial flow turbine      291
Back work in Brayton cycle or gas turbine plant      253
Barnard, W.N.      213 236
Base temperature, combustion process      222
Benzene (benzol), properties      388 389 408 413 414
Binary vapor cycle      207
Binder, R.C.      305
Black body      366
Black body radiation      366—369
Boelter, L.M.K.      381
Boiler, steam      179 233
Boiling liquids      354 364
Bomb calorimeter      222
Bowman, R.A.      356
Brake thermal efficiency      242
Brayton cycle      247
Brayton cycle effect of pressure ratio      255
Brayton cycle effect of regenerator      252
Brayton cycle efficiency      249
Brayton cycle efficiency and capacity characteristics      254
Brayton cycle examples      253
Brayton cycle, reversed      334
Brayton, George B.      247
Brick, refractory, properties      412
Bucket row, linear      288
Buffer layer      358
Bulk temperature      360
Butane, properties      386—389
By-product power      205
Calorimeter bomb, or fuel      222
Calorimeter separating      134
Calorimeter steam, use of      137
Calorimeter throttling      135
Capacity of a cycle      179
Carbon      214 216 388 389
Carbon dioxide, properties      386 387 391 392 409
Carbon monoxide, properties      386 387 391 392 409
Carlson, J.R.      305
Carnet cycle      86—88 99
Carnot, N.L.S.      83
Carrier, W.H.      170 177
Carslaw, H.S.      381
Cascade refrigerating plant      329
Characteristic velocity for a turbine stage      292
Charts of properties      133 Appendix
Chemical equilibrium      231
Chemical process      see "Reaction"
Chemical reaction      see "Reaction"
Choking flow      274
Church, A.H.      323
Clausius, R., Second Law statement      89
Cleanliness factor      357
Clearance      313
Clearance effect on volumetric efficiency      315
Clearance fluid      313
Clearance volume      312
Closed cycle gas turbine plant      249
Coal      389
Coefficient, discharge of a nozzle      273
Coefficient, film      340 354
Coefficient, flow meter      282 284
Coefficient, heat transfer      339
Coefficient, heat transfer, overall      341
Coefficient, performance      325 330
Coefficient, velocity, of a nozzle      273
Colburn factor      360
Combustion data      388 389
Combustion energy equation      220
Combustion in air      216
Combustion in oxygen      215
Combustion material balance      215
Combustion processes      214
Combustion processes efficiency      232
Combustion reaction      see "Reaction"
Combustion turbine plant      257—261
Combustion, heat of      226
Combustion, incomplete      216 219
Components of velocity      289
Compressed Air and Gas Institute      323
Compressed liquid table      132
Compression      306 313
Compression processes      306
Compression ratio, Diesel cycle      244
Compression ratio, Otto cycle      241
Compression, three-stage      321
Compression, two-stage, work analysis      319
Compression, work of      307 312
Compression-ignition engine      243
Compressor      306 312 317
Compressor efficiency      310
Compressor indicator diagram      312 313
Compressor reciprocating, illustration      312 317
Compressor reciprocating, illustration, work analysis      312
Compressor refrigeration      327
Compressor, adiabatic, efficiency of      310
condensate      78 180
Condenser      78 180 353 364
Condenser refrigeration      327
Condensing steam power plant      180
Condensing vapors, heat transfer      354 364
Conduction      338
Conduction in solids      342
Conduction through cylindrical walls      345
Conductivity, thermal      342
Conductivity, thermal, data      409—413
Constant-pressure reaction      225
Constant-volume reaction      221—224
Continuity, equation of      69
Control surface      65
Control volume      65
Control volume moving      291
Convection      339
Convection, forced      357—363
Convection, forced inside tubes, formulas      359—362
Convection, forced mechanism      357—359
Convection, forced outside tubes, formulas      363
Convection, natural      365 366
Converging nozzle      270 274
Converging-diverging nozzle      270 274
Conversion of units; table      390
Correction factor, temperature difference      355 356
Counter flow      348 349 356
Critical pressure      116
Critical pressure ratio in nozzle flow      271 274
Critical radius of insulation      377
Critical state      116
Critical state data      387
Critical temperature      116
Cross flow      352 356 363
Cut-off ratio, Diesel cycle      245
CYCLE      3 see "Diesel" "Otto" "Rankine" "Regenerative" "Reheat" "Fluid"
Cycle gas      237—264
Cycle heat engine      81 82
Cycle refrigeration      324—337
Cycle vapor      178—213
Cycle, Carnot      86—88
Cycle, Carnot on t-s plot      99
Cycle, reversible, efficiency of      92
Cylindrical wall, conduction through      345
Dalton’s law      158
de Lorenzi, O.      236 389
De-humidifying process      172—175
DeLaval nozzle      see "Converging-diverging nozzle"
DeLaval turbine      285
density      4
Design characteristics and operating characteristics      295
Detonation      243
Dew-point      164
Dew-point of flue gas, example      218
Diesel cycle      243
Diesel cycle efficiency      244
Diesel cycle, variable specific heat      245
Diffuser      274 277
Diffuser efficiency      278
Dimensionless groups      360
Discharge coefficient, nozzle      273 274
Dissociation      see "Chemical equilibrium"
Divergence angle, diffuser      278
Dorsey, N.E.      139
Drop, enthalpy      292
Dry bulb      168
Dry ice      118 124
Dusinberre, G.M.      381
Eckert, E.R.G.      381
Economizer      209
Eddy conductivity      358
Effectiveness heat exchanger or regenerator      252 357
Effectiveness intercooler      323
Efficiency      see also "Cycle" "Apparatus"
Efficiency pump      191
Efficiency, adiabatic, of a compressor      310
Efficiency, brake      242
Efficiency, combustion process      232
Efficiency, engine      188
Efficiency, heat engine or cycle      82
Efficiency, isothermal, of a compressor      310
Efficiency, nozzle      273
Efficiency, nozzle-bucket      292
Efficiency, thermal      82
Efficiency, volumetric      314
Ejector      278 279 302
Ellenwood, F.O.      133 139 213 236
Elston, C.W.      305
Emissive power      367 368
Emissivity      369
Emissivity data      416 417
Emissivity factor      372
End state of actual engine or turbine process      189
Energy      1 46
Energy equation for chemical reaction      220
Energy equation, steady flow      67—77
Energy units      47
Energy, hypothesis of      46
Energy, internal      48 see
Energy, kinetic      50 64 69 72 85
Energy, molecular and atomic      44 51
Energy, potential      64 69 85
Energy, potential, due to surface tension, electricity, and magnetism      51
Engine      see also "Expansion engine" "Hot-air "Heat "Internal
Engine efficiency      188
Engine, actual      188
Enthalpy      53
Enthalpy drop      292
Enthalpy of a perfect gas      144
Enthalpy of a pure substance      120
Enthalpy of mixtures      162
Enthalpy of reaction      224 226 see "Heat
Enthalpy-entropy chart      133
entropy      42 96
Entropy of a perfect gas      147
Entropy of a pure substance      121
Entropy of mixture      163
Entropy relation to $\int dQ/T$      97
Entropy, change of, from Gas Tables      153
Entropy, principle of increase of      103
equation      see also "Name of equation"
Equation of state      111 141 142 159
Equation, chemical      215—217
Equation, combustion      215—217
Equation, continuity      69
Equation, energy, steady flow      67—77
Equilibrium between phases      116
Equilibrium diagram for water      117 118
Equilibrium, chemical      231
Equilibrium, lack of      85
Eshbach, O.W.      386
Ethane, properties      386—388
Evans, J.E., Jr.      410
Evaporator, refrigeration      327
Excess air      219
Exchanger      see "Heat exchanger"
Exhaust steam      179 205
Exhaust, gasoline engine      239
Exit-angle, bucket      289
Expansion engine, refrigeration      332—335
Expansion factor Y for flow meter      282
Expansion process in steam cycle, actual      189
Expansion ratio of a nozzle      275
Expansion ratio, Diesel cycle      245
Expansion valve in gas cooling      333
Expansion valve, refrigeration      327
Extended surface      352 354
Extensive properties      128
Extraction cycle      200
Fanning friction factor      361
Feed water      179
Feed water heater      201
Film coefficient      340 354
Film temperature      361
Firebrick, properties      412
First law of thermodynamics      47 45—63
Fliegner’s formula for air flow      303
Flow      64—79 265—305
Flow processes      64
Flow work      70
Flow, fluid      313
Flow, meters      280 284
Flow, nozzle      280
Flue gas      220
Foote, W.R.      305
Force and mass      4
Force on fluid in a curved passage      286
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