An introduction to fluid mechanics and heat transfer: with applications in chem. and mechan. process engineering
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | Undetermined |
| Veröffentlicht: |
Cambridge
Cambridge Univ. Pr.
1974
|
| Ausgabe: | 3. ed. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XVI, 322 S. |
Internformat
MARC
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| 100 | 1 | |a Kay, John M. |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a An introduction to fluid mechanics and heat transfer |b with applications in chem. and mechan. process engineering |
| 250 | |a 3. ed. | ||
| 264 | 1 | |a Cambridge |b Cambridge Univ. Pr. |c 1974 | |
| 300 | |a XVI, 322 S. | ||
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Datensatz im Suchindex
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|---|---|
| adam_text | CONTENTS
Preface page v
List of Symbols xiv
Dimensionless Ratios xvi
Chapter 1: Introduction and Definitions
1 1 Liquids and gases 1
1 2 Hydrostatic pressure 2
1 3 Fluids in motion 2
1 4 Viscosity 5
1 5 Temperature and heat 6
1 6 The first law of thermodynamics 7
1 7 Conduction, convection and radiation 10
1 8 Diffusion and mass transfer 11
1 9 Mathematical note 12
Chapter 2: Fluid Flow
2 1 Continuity in fluid flow 13
2 2 The general equation of continuity 13
2 3 The acceleration of a fluid element 15
2 4 Differentiation following the motion of the fluid 16
2 5 Bernoulli’s equation 16
2 6 Vortex motion 18
2 7 Flow measurement 22
Chapter 3: The Energy and Momentum Equations
3 1 The energy equation for steady flow along a streamline 29
3 2 The energy equation for steady flow in a pipe 32
3 3 The energy equation with shaft work 33
3 4 The momentum equation for steady flow 34
vii
Contentsviii
Chapter 4: Applications of the Continuity, Energy and
Momentum Equations
4 1 Sudden enlargement of a pipe page SI
4 2 Reaction on a horizontal pipe bend 38
4 3 The jet pump or ejector ,39
4 4 The Pelton wheel 41
4 5 Reaction turbines 44
4 6 Flow past a cascade of vanes 46
4 7 Flow of a gas through a nozzle 50
4 8 Normal shock wave 53
Chapter 5: Dimensional Analysis Applied to Fluid
Mechanics
5 1 Statement of the principle 56
5 2 Force or drag on a submerged body 57
5 3 Physical significance of the Reynolds number and the
force coefficient 60
5 4 Pressure drop for flow through a pipe 61
5 5 Power required to drive a fan 63
5 6 Flow with a free surface 64
5 7 Flow with surface tension 65
5 8 Gas bubbles rising through liquids 66
Chapter 6: Flow in Pipes and Channels
6 1 Friction coefficients and the Reynolds number 68
6 2 Laminar flow in pipes 69
6 3 Turbulent flow in a smooth pipe 71
6 4 Turbulent flow in a rough pipe 76
6 5 Energy and hydraulic gradients 77
6 6 Uniform flow in an open channel 79
6 7 Loss of head with turbulent flow through pipe bends
and fittings 81
Contents ix
Chapter 7 : Pumps and Compressors
7 1 Classification of pumps page 84
7 2 Flow through a centrifugal pump impeller 86
7 3 The energy equation for a centrifugal pump 88
7 4 The head-capacity curve 90
7 5 Dimensional analysis applied to a pump 91
7 6 Specific speed of a pump 94
7 7 Cavitation 94
7 8 Numerical example of a pump calculation 96
7 9 Classification of compressors 98
7 10 Flow through a centrifugal compressor 101
7 11 Dimensional analysis applied to a turbo-compressor 104
Chapter 8: Heat Conduction and Heat Transfer
8 1 Thermal conductivity 106
8 2 Continuity of heat flow in a solid 106
8 3 Steady flow of heat in one dimension 109
8 4 Steady radial flow of heat in a cylinder 113
8 5 Steady flow of heat in a thin rod or fin 115
8 6 Extended surfaces for heat transfer 117
Chapter 9: Heat Exchangers
9 1 Heat-transfer factors 120
9 2 Mean temperature difference for flow in a pipe with the
wall at uniform temperature 121,
9 3 Mean temperature difference for a counter-flow heat
exchanger 123
9 4 Efficiency of a counter-flow heat exchanger 125
9 5 Parallel-flow heat exchangers 126
9 6 Double-pass, multi-pass and cross-flow exchangers 127
Chapter 10: Dimensional Analysis Applied to Heat
Transfer
10 1 Note on dimensions for temperature and heat page 130
10 2 Forced convection—flow through a tube with heat
transfer 131
10 3 Physical significance of the Nusselt, Stanton and
Prandtl numbers 133
10 4 Forced convection in high-speed flow 139
10 5 Free convection 141
Chapter 11: Heat Transfer and Skin Friction in
Turbulent Flow
11 1 Reynolds analogy 143
11 2 Taylor-Prandtl analogy 144
11 3 Pressure drop and heat transfer for flow in a tube 147
11 4 Application to heat-exchanger design 149
Chapter 12: Equations of Motion for a Viscous Fluid
12 1 Stresses in a viscous fluid 150
12 2 Relationship between stress and rate of strain 151
12 3 Navier-Stokes equation 152
12 4 Dynamical similarity 153
12 5 Flow between parallel walls 155
12 6 Laminar flow of a viscous liquid film down a vertical wall 157
12 7 Flow past a sphere 159
12 8 Extensional flows 161
Chapter 13: Boundary Layers
13 1 The boundary-layer equations for laminar flow 163
13 2 Boundary-layer thickness 165
13 3 Separation and transition 166
13 4 The momentum equation for the boundary layer 168
13 5 Approximate solution for laminar boundary-layer flow 170
13 6 Approximate method for turbulent boundary-lay er flow 173
Contents xi
Chapter 14: Turbulent Flow
14 1 Fluctuating velocity components and the Reynolds
stresses page 177
14 2 Mixing length theories 179
14 3 The Prandtl momentum transfer theory 182
14 4 The universal velocity profile 185
14 5 Logarithmic resistance formulae for turbulent flow in
pipes 188
14 6 The velocity profile and resistance formula for rough
pipes 189
Chapter 15: Potential Flow
15 1 The use of in viscid flow theory 191
15 2 Potential and stream functions 191
15 3 Examples of potential functions 192
15 4 Potential flow round a cylinder 193
15 5 Magnus effect 195
Chapter 16: Diffusion and Mass Transfer
16 1 The diffusion law 196
16 2 Diffusion of a gas according to the kinetic theory 196
16 3 Steady molecular diffusion 198
16 4 The equation of continuity for mass transfer in a fluid 199
16 5 Similarity for mass transfer in fluid flow 201
16 6 Mass transfer in turbulent flow 204
Chapter 17: The Energy Equation and Heat Transfer
17 1 The energy equation for an element of fluid 207
17 2 Similarity for heat transfer in fluid flow 209
17 3 The energy equation for a boundary layer 211
17 4 Approximate solution for heat transfer in a laminar
boundary layer 213
17 5 The energy equation with turbulent flow 215
Contentsxii
Chapter 18: Forced Convection
18 1 Forced convection in laminar flow _ page 217
18 2 Forced convection in a laminar boundary layer 218
18 3 Forced convection with laminar flow in a pipe 220
18 4 Forced convection in turbulent flow 223
Chapter 19: Compressible Flow in Pipes and Nozzles
19 1 Compressible flow through a convergent nozzle 228
19 2 Compressible flow through a convergent-divergent
nozzle 231
19 3 Shock waves 234
19 4 Pitot tube in a high-velocity stream 236
19 5 Compressible flow in a pipe with friction 237
Chapter 20: Open-channel Flow
20 1 Non-uniform flow with friction 241
20 2 Flow over a weir 244
20 3 Hydraulic jump 246
20 4 Flow below a sluice gate 248
Chapter 21: Solid Particles in Fluid Flow
21 1 Shape factors and mean diameters 250
21 2 Particle-size distribution 252
21 3 Solid particles in fluid streams 255
21 4 Separation of solid particles from fluids 258
21 5 Cyclone collectors 259
21 6 Venturi scrubber 261
Chapter 22: Flow through Packed Beds and Fluidized
Solids
22 1 Viscous flow through a bed of solid particles 262
22 2 General analysis of flow through packed beds 264
22 3 Filtration 266
22 4 Fluidized solids 270
22 5 Expansion of fluidized beds 271
22 6 Heat and mass transfer in packed beds and fluidized
solids 273
Contents xiii
Chapter 23: Condensation and Evaporation
23 1 Film condensation page 276
23 2 Heat transfer to boiling liquids 278
23 3 Condensers and evaporators 282
Appendices
1 Engineer’s Guide to Vector Analysis 284
2 Equations op Motion for an Inviscid Fluid 287
3 VORTICITY AND CIRCULATION 289
4 Stress Components in a Viscous Fluid and the
Equations of Motion 290
5 Laminar Boundary-layer Flow 295
6 Heat Transfer with Laminar Flow in a Pipe 297
7 Conversion Factors 300
Examples 302
Outline Solutions 311
Index 320
|
| adam_txt |
CONTENTS
Preface page v
List of Symbols xiv
Dimensionless Ratios xvi
Chapter 1: Introduction and Definitions
1 1 Liquids and gases 1
1 2 Hydrostatic pressure 2
1 3 Fluids in motion 2
1 4 Viscosity 5
1 5 Temperature and heat 6
1 6 The first law of thermodynamics 7
1 7 Conduction, convection and radiation 10
1 8 Diffusion and mass transfer 11
1 9 Mathematical note 12
Chapter 2: Fluid Flow
2 1 Continuity in fluid flow 13
2 2 The general equation of continuity 13
2 3 The acceleration of a fluid element 15
2 4 Differentiation following the motion of the fluid 16
2 5 Bernoulli’s equation 16
2 6 Vortex motion 18
2 7 Flow measurement 22
Chapter 3: The Energy and Momentum Equations
3 1 The energy equation for steady flow along a streamline 29
3 2 The energy equation for steady flow in a pipe 32
3 3 The energy equation with shaft work 33
3 4 The momentum equation for steady flow 34
vii
Contentsviii
Chapter 4: Applications of the Continuity, Energy and
Momentum Equations
4 1 Sudden enlargement of a pipe page SI
4 2 Reaction on a horizontal pipe bend 38
4 3 The jet pump or ejector ,39
4 4 The Pelton wheel 41
4 5 Reaction turbines 44
4 6 Flow past a cascade of vanes 46
4 7 Flow of a gas through a nozzle 50
4 8 Normal shock wave 53
Chapter 5: Dimensional Analysis Applied to Fluid
Mechanics
5 1 Statement of the principle 56
5 2 Force or drag on a submerged body 57
5 3 Physical significance of the Reynolds number and the
force coefficient 60
5 4 Pressure drop for flow through a pipe 61
5 5 Power required to drive a fan 63
5 6 Flow with a free surface 64
5 7 Flow with surface tension 65
5 8 Gas bubbles rising through liquids 66
Chapter 6: Flow in Pipes and Channels
6 1 Friction coefficients and the Reynolds number 68
6 2 Laminar flow in pipes 69
6 3 Turbulent flow in a smooth pipe 71
6 4 Turbulent flow in a rough pipe 76
6 5 Energy and hydraulic gradients 77
6 6 Uniform flow in an open channel 79
6 7 Loss of head with turbulent flow through pipe bends
and fittings 81
Contents ix
Chapter 7 : Pumps and Compressors
7 1 Classification of pumps page 84
7 2 Flow through a centrifugal pump impeller 86
7 3 The energy equation for a centrifugal pump 88
7 4 The head-capacity curve 90
7 5 Dimensional analysis applied to a pump 91
7 6 Specific speed of a pump 94
7 7 Cavitation 94
7 8 Numerical example of a pump calculation 96
7 9 Classification of compressors 98
7 10 Flow through a centrifugal compressor 101
7 11 Dimensional analysis applied to a turbo-compressor 104
Chapter 8: Heat Conduction and Heat Transfer
8 1 Thermal conductivity 106
8 2 Continuity of heat flow in a solid 106
8 3 Steady flow of heat in one dimension 109
8 4 Steady radial flow of heat in a cylinder 113
8 5 Steady flow of heat in a thin rod or fin 115
8 6 Extended surfaces for heat transfer 117
Chapter 9: Heat Exchangers
9 1 Heat-transfer factors 120
9 2 Mean temperature difference for flow in a pipe with the
wall at uniform temperature 121,
9 3 Mean temperature difference for a counter-flow heat
exchanger 123
9 4 Efficiency of a counter-flow heat exchanger 125
9 5 Parallel-flow heat exchangers 126
9 6 Double-pass, multi-pass and cross-flow exchangers 127
Chapter 10: Dimensional Analysis Applied to Heat
Transfer
10 1 Note on dimensions for temperature and heat page 130
10 2 Forced convection—flow through a tube with heat
transfer 131
10 3 Physical significance of the Nusselt, Stanton and
Prandtl numbers 133
10 4 Forced convection in high-speed flow 139
10 5 Free convection 141
Chapter 11: Heat Transfer and Skin Friction in
Turbulent Flow
11 1 Reynolds analogy 143
11 2 Taylor-Prandtl analogy 144
11 3 Pressure drop and heat transfer for flow in a tube 147
11 4 Application to heat-exchanger design 149
Chapter 12: Equations of Motion for a Viscous Fluid
12 1 Stresses in a viscous fluid 150
12 2 Relationship between stress and rate of strain 151
12 3 Navier-Stokes equation 152
12 4 Dynamical similarity 153
12 5 Flow between parallel walls 155
12 6 Laminar flow of a viscous liquid film down a vertical wall 157
12 7 Flow past a sphere 159
12 8 Extensional flows 161
Chapter 13: Boundary Layers
13 1 The boundary-layer equations for laminar flow 163
13 2 Boundary-layer thickness 165
13 3 Separation and transition 166
13 4 The momentum equation for the boundary layer 168
13 5 Approximate solution for laminar boundary-layer flow 170
13 6 Approximate method for turbulent boundary-lay er flow 173
Contents xi
Chapter 14: Turbulent Flow
14 1 Fluctuating velocity components and the Reynolds
stresses page 177
14 2 Mixing length theories 179
14 3 The Prandtl momentum transfer theory 182
14 4 The universal velocity profile 185
14 5 Logarithmic resistance formulae for turbulent flow in
pipes 188
14 6 The velocity profile and resistance formula for rough
pipes 189
Chapter 15: Potential Flow
15 1 The use of in viscid flow theory 191
15 2 Potential and stream functions 191
15 3 Examples of potential functions 192
15 4 Potential flow round a cylinder 193
15 5 Magnus effect 195
Chapter 16: Diffusion and Mass Transfer
16 1 The diffusion law 196
16 2 Diffusion of a gas according to the kinetic theory 196
16 3 Steady molecular diffusion 198
16 4 The equation of continuity for mass transfer in a fluid 199
16 5 Similarity for mass transfer in fluid flow 201
16 6 Mass transfer in turbulent flow 204
Chapter 17: The Energy Equation and Heat Transfer
17 1 The energy equation for an element of fluid 207
17 2 Similarity for heat transfer in fluid flow 209
17 3 The energy equation for a boundary layer 211
17 4 Approximate solution for heat transfer in a laminar
boundary layer 213
17 5 The energy equation with turbulent flow 215
Contentsxii
Chapter 18: Forced Convection
18 1 Forced convection in laminar flow _ page 217
18 2 Forced convection in a laminar boundary layer 218
18 3 Forced convection with laminar flow in a pipe 220
18 4 Forced convection in turbulent flow 223
Chapter 19: Compressible Flow in Pipes and Nozzles
19 1 Compressible flow through a convergent nozzle 228
19 2 Compressible flow through a convergent-divergent
nozzle 231
19 3 Shock waves 234
19 4 Pitot tube in a high-velocity stream 236
19 5 Compressible flow in a pipe with friction 237
Chapter 20: Open-channel Flow
20 1 Non-uniform flow with friction 241
20 2 Flow over a weir 244
20 3 Hydraulic jump 246
20 4 Flow below a sluice gate 248
Chapter 21: Solid Particles in Fluid Flow
21 1 Shape factors and mean diameters 250
21 2 Particle-size distribution 252
21 3 Solid particles in fluid streams 255
21 4 Separation of solid particles from fluids 258
21 5 Cyclone collectors 259
21 6 Venturi scrubber 261
Chapter 22: Flow through Packed Beds and Fluidized
Solids
22 1 Viscous flow through a bed of solid particles 262
22 2 General analysis of flow through packed beds 264
22 3 Filtration 266
22 4 Fluidized solids 270
22 5 Expansion of fluidized beds 271
22 6 Heat and mass transfer in packed beds and fluidized
solids 273
Contents xiii
Chapter 23: Condensation and Evaporation
23 1 Film condensation page 276
23 2 Heat transfer to boiling liquids 278
23 3 Condensers and evaporators 282
Appendices
1 Engineer’s Guide to Vector Analysis 284
2 Equations op Motion for an Inviscid Fluid 287
3 VORTICITY AND CIRCULATION 289
4 Stress Components in a Viscous Fluid and the
Equations of Motion 290
5 Laminar Boundary-layer Flow 295
6 Heat Transfer with Laminar Flow in a Pipe 297
7 Conversion Factors 300
Examples 302
Outline Solutions 311
Index 320 |
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| illustrated | Not Illustrated |
| index_date | 2024-07-02T16:03:30Z |
| indexdate | 2024-07-09T20:46:27Z |
| institution | BVB |
| language | Undetermined |
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| spelling | Kay, John M. Verfasser aut An introduction to fluid mechanics and heat transfer with applications in chem. and mechan. process engineering 3. ed. Cambridge Cambridge Univ. Pr. 1974 XVI, 322 S. txt rdacontent n rdamedia nc rdacarrier Strömungsmechanik (DE-588)4077970-1 gnd rswk-swf Wärmeübertragung (DE-588)4064211-2 gnd rswk-swf Wärmeübertragung (DE-588)4064211-2 s DE-604 Strömungsmechanik (DE-588)4077970-1 s Nedderman, R. M. Verfasser aut HEBIS Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015089438&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Kay, John M. Nedderman, R. M. An introduction to fluid mechanics and heat transfer with applications in chem. and mechan. process engineering Strömungsmechanik (DE-588)4077970-1 gnd Wärmeübertragung (DE-588)4064211-2 gnd |
| subject_GND | (DE-588)4077970-1 (DE-588)4064211-2 |
| title | An introduction to fluid mechanics and heat transfer with applications in chem. and mechan. process engineering |
| title_auth | An introduction to fluid mechanics and heat transfer with applications in chem. and mechan. process engineering |
| title_exact_search | An introduction to fluid mechanics and heat transfer with applications in chem. and mechan. process engineering |
| title_exact_search_txtP | An introduction to fluid mechanics and heat transfer with applications in chem. and mechan. process engineering |
| title_full | An introduction to fluid mechanics and heat transfer with applications in chem. and mechan. process engineering |
| title_fullStr | An introduction to fluid mechanics and heat transfer with applications in chem. and mechan. process engineering |
| title_full_unstemmed | An introduction to fluid mechanics and heat transfer with applications in chem. and mechan. process engineering |
| title_short | An introduction to fluid mechanics and heat transfer |
| title_sort | an introduction to fluid mechanics and heat transfer with applications in chem and mechan process engineering |
| title_sub | with applications in chem. and mechan. process engineering |
| topic | Strömungsmechanik (DE-588)4077970-1 gnd Wärmeübertragung (DE-588)4064211-2 gnd |
| topic_facet | Strömungsmechanik Wärmeübertragung |
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