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| Staff of Research and Education Association — The Thermodynamics Problem Solver: A Complete Solution Guide to Any Textbook |
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| Предметный указатель |
Absorptivity 13-33
Activity 11-56
Adiabatic compressibility 6-25
Adiabatic flame temperature 11-21 to 11-23
Adiabatic humidifying 10-31
Adiabatic process 4-9 4-26 4-36 4-37 4-39 7-3 7-7 7-11 7-21 9-23 10-29
Adiabatic system 3-16 3-17 4-5 4-7
Adiabatic wall 3-15
Air cycle 9-1
Air fuel ratio 11-1 11-3 11-6 11-7 11-9
Air tables 9-9 9-15 9-17 9-32
Ammonia 1-20
Ammonia cycle 8-19
Availability for a particular process 5-16
Bell — Coleman cycle 9-33
Berthelot equation of state 6-39 7-29
Biot number 13-10 13-17
Boltzmann — Planck relation 11-36 11-37
Boyle temperature 6-31 6-34
Brayton cycle 9-20 9-21 9-30
Carnot cycle 4-24 9-3
Carnot cycle efficiency 8-3
Carnot engine 4-1 8-17
Carnot refrigerator 4-2 8-19
Carrier equation 10-22
Cascade refrigerator 8-19 8-28
Celsius temperature scale 1-5 to 1-7
Clausius — Clapeyron equation 6-4 to 6-10 11-44
Closed system 4-9 4-22 10-13
Coefficient of performance 8-19 8-20 8-22 8-25 8-26
Combined cycles 8-12 8-13
Combustion reaction 11-1 11-4 11-24 11-25 11-53
Compressed region 1-18 1-20
Compressibility 11-33
Compressibility factor 1-9 3-5 6-26 6-28 6-40
Compressible gas flow 13-26
Compression process 3-32 4-26
Compression ratio 7-11 9-3 9-7 9-15
Compression stroke 3-6
Compression, adiabatic 4-34 7-7 7-9
Conduction, heat transfer 13-9 13-11 13-12
Conduction, shape factor 13-7
Conductivity 13-1
Conservation of mass 3-29 3-43 8-7
Constant pressure process 4-9 4-12 7-7 7-9 11-24 11-36
Constant volume process 4-9 4-13 4-23 4-24
Continuity equation 4-26 4-36 10-30 10-34 12-2
Control volume analysis 3-30 3-43 3-50 4-21 4-27 7-9
Convective heat transfer 13-10 13-13 13-14 13-16
Cooling capacity 8-23
Critical point 6-34
Cut off ratio 9-13 9-14 9-17 9-18
Cycle comparison 8-13
Dalton's law of additive pressure 10-3 10-5 10-17
Decomposition of chlorine 11-29
density 1-3 10-22
Determination of the state of a substance 1-18 1-19
Dew point 10-14 10-15 11-2 11-7
Dew point temperature 10-15 10-16 10-19 10-32 10-33 11-4
Diesel cycle 9-12 to 9-15
Dieterici equation of state 6-37
Discharge coefficient 11-47 12-13
Dissociation reaction, extent of 11-50 11-55 11-57
Dittus — Boelter correlation 13-23
Drag force 13-21
Dry bulb temperature 10-16 10-22 10-25 10-27 10-32 10-33
Dual cycle 8-27 8-28 9-16
Effective solar beam radiation 13-34
Efficiency of compressor 5-7 8-18 8-24
Efficiency of cycles 8-1 to 8-13 9-22
Efficiency of nozzles 12-6 12-7 12-13 12-16 12-17
Efficiency of Rankine cycle 8-1 to 8-3
Efficiency of regenerative cycle 8-6 to 8-8
Efficiency of reheat cycle 8-4 8-5
Efficiency of turbine 5-22 8-18
Efficiency, adiabatic 4-30 4-31 4-33 9-5 9-34 9-35
Efficiency, internal 8-14 8-18 12-14
Efficiency, isentropic 4-36 8-3 9-32
Efficiency, volumetric 9-25 to 9-27
Emmisivity 13-16 13-29 13-30 13-33 13-38
Emmisivity, average 13-30
Emmisivity, effective 13-30
Energy of bonds 11-11 11-13
Energy, absorption 11-29 973
Energy, available 5-15 5-19 5-22 5-25
Energy, balance 3-37 4-23 4-34 7-5 7-8 7-9 8-8 10-35 11-22 11-23 12-17 13-25
Energy, kinetic 4-20 4-28 4-31 4-34 4-35 7-8 7-9 7-31
Energy, potential 4-4 4-20 4-28 4-31 4-34 4-35 7-8 7-9 7-20 7-31
Energy, unavailable 5-20 to 5-23 5-25
Enthalpy of formation 11-21
Enthalpy of fusion 6-9 11-38
Enthalpy of mixtures 10-22 10-30
Enthalpy of real gases 6-16
Enthalpy of vaporization 6-8
Enthalpy, change 3-20 4-26 4-29 4-34 4-36 4-39 9-4 10-8 10-25 10-29 10-33 11-8 11-11 11-20 11-22 11-27 11-39
Enthalpy, change of ideal gases 3-24 3-27
Enthalpy, correction chart 7-18 7-19 7-23
Enthalpy, relations 6-13 6-14 10-32
Entropy for ideal gases 6-16
Entropy, absolute 6-11 11-28
Entropy, change 4-4 to 4-18 4-21 4-29 4-36 7-1 7-6 7-9 10-8 10-10 10-11 10-23 11-28 11-34 11-36
Entropy, correction chart 7-27
Entropy, datum state 10-8 10-10
Entropy, increase 5-21
Entropy, relations 6-13 to 6-15 10-11 10-23
Equation of state 6-40 7-8 7-9 9-23
Equilibrium 1-21 4-20 11-40
Equilibrium, constant 11-49 11-58 11-59
Exothermic reaction 11-18
Expansion, adiabatic 4-38 4-39 7-10
Expansion, coefficient of 4-6 6-36 11-33
Expansion, reversible 4-38 4-39 7-5 7-10
Expansion, valve 5-6
Fahrenheit temperature scale 1-5 to 1-7
Faraday constant 11-26
First law of thermodynamics 4-1 to 4-3 4-16 4-20 4-22 4-23 4-26 4-27 4-31 4-33 4-36 4-37 4-39 4-40 6-25 7-1 7-11 7-23 7-31 10-13 10-34 11-5
First law of thermodynamics, closed systems 3-13 to 3-15
First law of thermodynamics, ideal gases 3-15 3-19 3-22 3-23 3-25 3-40 3-44
First law of thermodynamics, open systems 3-45 3-48
First law of thermodynamics, steady-state steady-flow systems 3-30 to 3-36 3-39 3-41 4-12
First law of thermodynamics, uniform-state uniform-flow systems 3-46 3-47 3-50 3-51 3-53 3-54
Flame temperature 11-19
Forced convective heat transfer coefficient 13-25
Free energy of formation 11-43 11-54 11-55
Friction factor 13-23
Fugacity 7-28 7-30 7-31
Fusion reaction 11-45
Galerkin method 13-4
Gas constant 1-10 1-14
Gas mining, probability 11-36
Gauge pressure 1-1 1-15
Generalized compressibility factor chart 7-13 7-16 7-22 10-4
Generalized enthalpy correction chart 7-18 7-20 7-24
Generalized entropy correction chart 7-24 7-25
Gibbs free energy 11-40
Gibbs functions 6-2 6-3 7-31 11-40
Gibbs — Dalton law 10-22
Grashoff number 13-14 13-16 13-18
Grey body radiation 13-27
Heat 4-3 4-7 4-13 4-23
Heat balance equation 11-8 13-22
heat capacity 6-19 6-20 10-10 10-23 11-18 11-19 11-25 11-30 11-39 11-62 11-65
heat engine 4-7 4-24 4-25
Heat flow 13-1 13-3 13-5
Heat loss 4-8
Heat of combustion 11-19 11-22
Heat of dilution 11-14
Heat of formation 11-10 11-12 11-13 11-18 11-19 11-27 11-32
Heat of reaction 11-10 11-12 11-25 11-27 11-64
Heat of solution 11-14
| Heat of sublimation 11-13
Heat of vaporization 11 -15 11-32
Heat transfer 4-3 4-35
Heat transfer at constant pressure 3-3 3-7 3-10 3-21
Heat transfer at constant volume 3-2 3-5 3-9
Heat transfer coefficient 13-21
Heat transfer for isolated systems 11-29
Heat transfer laminar boundary layer 13-20
Heat transfer rate 13-7
Heat transfer, adiabatic 10-28
Heat work 3-15
Hess law 11-27 11-39
Histogram distribution 14-1
Hooke's equation of state 6-41
Humidity, ratio 10-15 10-21 10-29 10-33
Humidity, relative 10-15 10-16 10-22 10-24 10-32
Humidity, specific 10-14 10-16 10-22 10-24 10-28 10-29 10-31 10-32
Hydraulic diameter 13-25
Ideal gas 4-9 to 4-18 4-22 4-23 4-27 4-33 4-35 4-38 4-39
Ideal gas, approximation 3-5
Ideal gas, behavior 1-8 to 1-11 1-19
Ideal gas, equation of state 1-10 1-12 4-9 4-10 4-33 4-38 4-39 6-22 6-33 7-3 7-5 7-9 9-7 9-8 9-14 9-18 9-19 10-2 10-3 10-6 10-17 10-18
Ideal gas, process 1-12 7-1
Ideal gas, relations 9-1 9-12 9-19 10-4 10-5 10-13
Impulse stage of a turbine 12-16 12-17
Incompressible substance 3-33 4-30
Internal energy 3-1 3-4 4-15 4-32 4-39 7-5 7-6 10-8 10-10 11-49
Internal energy, relations 6-14 6-17 6-18
Internal energy, specific 4-37 4-40 7-2
Irradiance 13-33
Irradiation 13-28
Irreversibility 5-6 to 5-13
Irreversibility for adiabatic mixing process 5-12
Irreversibility for ideal gases 5-10
Irreversibility for particular processes 5-8 5-9 5-11
Irreversible process 3-47 4-5 4-9 4-14 4-18 4-33 4-34 4-36 7-6 7-7
Isentropic compression 4-33 8-18 9-3 9-5 9-6 9-8 9-10 9-14 9-17 9-34
Isentropic expansion 4-32 7-3 9-2 9-8 9-18 9-22 10-11 12-11 12-12 12-16 12-19
Isentropic process 4-26 4-33 4-36 7-3 7-9 8-7 8-18 9-7 9-8 9-12 9-24 12-3 12-14
Isentropic relations 4-27 4-38 4-39 10-23
Isobaric process 4-22 7-4 7-19
Isobaric process, reversible 7-4
Isothermal compressibility coefficient 6-36
Isothermal compressibility factor 6-3
Isothermal compression 4-19
Isothermal expansion 4-17 to 4-19
Isothermal process 4-6 7-5 7-7 7-18 9-3 9-23
Isothermal reversible process 3-47 4-17 7-5 7-6
Joule — Thomson coefficient 6-22 6-23
Joule's experiment 3-16
Kantorovitch profile 13-9
Kelvin temperature scale 1-5 to 1-7
Kirchoff equation 11-40
Latent heat of fusion 4-5 6-5 11-17 11-18 11-42
Latent heat of vaporization 11-44
Law of additive pressures 10-4
Law of additive volumes 10-4
Le Chatelierfs principle 11-55
Lewis — Randall behavior 11-59
Linear sensitivity law 13-8
Lumped parameter analysis 13-10
Mach number 12-2 12-10 12-11
Manometer 1-2
Mass flow rate 4-35 4-36 8-27 10-2 10-30
Maxwell relations 6-1 6-15 6-17 6-22
Mean effective pressure 9-3 9-7 9-8 9-12 9-14 9-16 9-19
Mercury-steam power plant 8-15
Mixing process 3-13
Molar volume relation 6-29 10-4
Mole fractions 10-2 10-3 10-12 10-23 11-2 11-7 11-9 11-14 11-36
Mole fractions of vapors 10-20 11-4
Mole fractions, relations 10-1 10-3 10-19
Molecular weight 10-3 10-7 10-12
Molecular weight, average 10-1
Mollier diagram 12-21
Newton's law 1-4
Non-flow process 3-28
Nozzle flow 3-43 12-19
Nusselt number 13-13 13-14 13-16 13-18 13-25
Open system 4-9
Otto cycle 9-7 to 9-11
Overall heat transfer coefficient 13-1 13-25
Oxygen 1-12 1-17
Partial pressure 3-30 10-1 10-2 10-6 11-2 11-7 11-23 13-20
Partial pressure of vapors 10-19 10-20
Partial pressure ratio 10-11
Partial pressure relation 10-14
Partial volume 10-1 10-5
Performance coefficient 9-33 9-34
Phase change of a substance 6-4
Piston-cylinder arrangement 3-10 3-11 3-23 3-26 3-28 5-23
Poly tropic process 3-40 3-47 4-10 4-11 7-1 7-2 9-23
Power 3-31 3-33 3-40 8-2
Power maximum 5-5
Power minimum 5-2
Prandtl number 13-16 13-18 13-19 13-25
Pressure 1-1 to 1-4 1-8 1-15
Pressure of air vapor mixture 10-18
Pressure of saturation 1-8 1-19 1-24 4-6 6-7 10-18
Pressure, absolute 1-1 1-13
Pressure, coefficient of diffusor 9-32
Pressure, critical 1-9 12-13 12-19 12-20
Pressure, reduced 1-9 7-10 7-16 7-22
Pressure, total 10-2 10-3
Properties of pure substances 1-20 to 1-24 13-14
Psychrometric chart 10-25 to 10-33 11-20
Quality, determination of 1-18 1-20 9-4 9-5 12-21
Radiation heat transfer 13-27 to 13-38
Radiation, intensity 13-28
Radiation, shape factor 13-31 13-38
Radiocity 13-36
Rankine cycle 8-1 to 8-3
Rankine temperature scale 1-7
Raoult's law 10-7
Rate of heat addition 10-12
Rate of heat generation 13-18
Rate of heat transfer 13-23
Rayleigh number 13-16
Real gas 1-9 7-10
Reciprocity theorem 13-36 13-37
Redlich — Kwong equation of, state 6-33
Regenerative cycle 8-6 to 8-9
Reheat cycle 8-4 8-5
Reheat factor 12-14
Relative humidity 10-28
Resonance energy 11-11
Reversible adiabatic process 3-38 4-7 4-40 5-10 7-11 7-12 8-17 9-21 9-23
Reversible cycle 4-3 4-7
Reversible engine 4-7
Reversible process 3-28 3-49 4-7 4-9 4-11 4-14 4-19 4-27 4-31 4-34 7-6 7-7
Reynold's number 13-19 to 13-22 13-24
Ritz profile 13-9
Saturated liquid 1-18
Saturated vapor 1-18
Second law of thermodynamics 4-1 to 4-43 7-26
Semi-infinite medium 13-2 13-7
Shape factor 13-3 13-32 13-37
Solar heat transfer 13-34
Specific heat 4-5 4-8 4-10 4-14 4-22 4-23 4-35 4-39 7-3 7-4 7-9 7-10
Specific heat at constant pressure 9-1 10-8 10-9 10-10 10-12
Specific heat at constant volume 10-8 to 10-10
Specific heat equation 3-20 to 3-22
Specific heat relations 6-20 6-21 6-24
Spontaneous reaction 11-43
States of substances 1-8 1-9 1-18 1-19 11-34
Steady-state heat conduction 13-4
Steady-state steady-flow process 3-31 to 3-44 4-27 7-8 7-9 7-21 7-25 10-12
Steady-state temperature distribution 13-6
Steam tables 1-9 1-18 1-19 1-22 12-1 12-4 12-16
Stefan — Boltzmann constant 13-16 13-28 13-30
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