Rolls Royce
The Jet Engine
Rolls Royce
The Jet Engine
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The Jet Engine provides a complete, accessibledescription of the working and underlying principles of the gasturbine. * Accessible, non-technical approach explaining the workings ofjet engines, for readers of all levels * Full colour diagrams, cutaways and photographs throughout * Written by RR specialists in all the respective fields * Hugely popular and well-reviewed book, originally published in2005 under Rolls Royce's own imprint
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The Jet Engine provides a complete, accessibledescription of the working and underlying principles of the gasturbine. * Accessible, non-technical approach explaining the workings ofjet engines, for readers of all levels * Full colour diagrams, cutaways and photographs throughout * Written by RR specialists in all the respective fields * Hugely popular and well-reviewed book, originally published in2005 under Rolls Royce's own imprint
Produktdetails
- Produktdetails
- Verlag: John Wiley & Sons / John Wiley & Sons Inc
- Seitenzahl: 288
- Erscheinungstermin: 14. August 2015
- Abmessung: 284mm x 225mm x 22mm
- Gewicht: 1424g
- ISBN-13: 9781119065999
- ISBN-10: 1119065992
- Artikelnr.: 42057108
- Verlag: John Wiley & Sons / John Wiley & Sons Inc
- Seitenzahl: 288
- Erscheinungstermin: 14. August 2015
- Abmessung: 284mm x 225mm x 22mm
- Gewicht: 1424g
- ISBN-13: 9781119065999
- ISBN-10: 1119065992
- Artikelnr.: 42057108
Rolls-Royce are the second largest jet engine manufacturer, powering more than 30 types of commercial aircraft with almost 13,000 engines in service around the world. As part of their mission, Rolls Royce have a strong commitment to educational activities, including a stated objective to reach 6 million people through their STEM outreach activities by 2020.
section one: Design THIS SECTION ON ENGINE DESIGN LOOKS AT HOW THE JET ENGINE CAME TO BE WHAT IT IS TODAY
AND WHY - AND WHAT ENGINEERS NEED TO CONSIDER WHEN TRANSLATING AN IDEA INTO A PROVEN
WORKING ENGINE. 6 1.1 theory and basic mechanics principles 10
gas turbines 10
aero engines 14
turbojet 15
turbofan 16
turboshafts and turboprops 16
mechanical arrangements 18 22 1.2 experience the early days 26
civil and military 28
silicon and titanium 30
land and sea 32
impact 33
development 33 36 1.3 design and development Design 40 "requirements 40
customers 40
process 41
from design to development 41 Development 42 "experimental process 42
certification 43 > civil 43 > military 47 > energy 50 > marine 51 54 1.4 environmental impact Noise 58 "control 58
sources 59
testing 64
research 65 Emissions 66 "life-cycle 66
species 67
airports and LTO cycle 69
trends 69 72 1.5 performance design point performance 76
off-design 77
ratings 79
transient 79
starting 81
testing 82
civil 84
military 84
industrial 85
marine 86 THIS SECTION
COMPONENT DEFINITION
STARTS AT THE FRONT OF THE ENGINE AND FOLLOWS THE AIRFLOW THROUGH TO THE REAR. IT THEN LOOKS AT THE OTHER COMPONENTS AND SYSTEMS THAT NEED TO BE INTEGRATED WITH THE ENGINE. section two define 92 2.1 fans and compressors configurations 96
aerodynamics 96
subsystems 101
industrial and marine 108
rigs 109
future 109 112 2.2 combustors combustion 116
architecture 117
fuel injectors 120
cooling 122
modelling 124
testing 124
integrity 124
challenges 126 130 2.3 turbines principles 134
types 134
design methodology 137
energy transfer 137
cooling 138
components 140
evolving considerations 144 148 2.4 transmissions rotor support structures 152
gearboxes 154
shafts 158
bearings 159 164 2.5 fluid systems Air systems 168 "bleed 170
elements 170
operating envelope 173
design challenge 173
integrity 173
monitoring 174 Fuel systems 174 "operation 174
description 175
aircraft interaction 175
FADEC 176
heat management 179
fuels 179 Oil system 180 "description 180
components 182
design challenge 186
integrity 187
monitoring 187
oils 187 190 2.6 control systems principles 194
control laws 194
components 196
civil 197
military 202
helicopter 202
marine 203
energy 203 section three deliver THERE ARE GOOD REASONS WHY THE JET ENGINE DELIVERS IN SERVICE: THE NATURE OF THE JET ENGINE DESCRIBED IN SECTION ONE; THE ENGINEERING EXCELLENCE OF SECTION TWO; AND THE ABILITIES TO MANUFACTURE
MAINTAIN
AND ADAPT. 208 3.1 manufacture and assembly Manufacture 212 "materials 212
casting 212
machining 213
drilling 214
joining 216
blisks 218
finish 219
composites 219
inspection 219 Assembly 221 "module assembly 221
engine build 223 226 3.2 installations externals 230
civil 231
military 236
stealth 237
test beds 238
energy and marine 238
fire 240
ice 241
reheat 243
V/STOL and vectoring 244 248 3.3 maintenance On-wing maintenance 252 "scheduled 252
unscheduled 252
monitoring 252
ETOPS 254
testing 255 Off-wing overhaul 255 "cleaning 256
inspection 257
repair 257
balancing 259
testing 260
engine management 261
industrial 262
marine 262 266 3.4 the future today 270
tomorrow 271
technologies 275
materials 275
compression 275
combustion 276
turbines 276
noise 277
more electric 277 280 glossary and conversion factors 282 the index 288 bibliography
credits
and thanks
AND WHY - AND WHAT ENGINEERS NEED TO CONSIDER WHEN TRANSLATING AN IDEA INTO A PROVEN
WORKING ENGINE. 6 1.1 theory and basic mechanics principles 10
gas turbines 10
aero engines 14
turbojet 15
turbofan 16
turboshafts and turboprops 16
mechanical arrangements 18 22 1.2 experience the early days 26
civil and military 28
silicon and titanium 30
land and sea 32
impact 33
development 33 36 1.3 design and development Design 40 "requirements 40
customers 40
process 41
from design to development 41 Development 42 "experimental process 42
certification 43 > civil 43 > military 47 > energy 50 > marine 51 54 1.4 environmental impact Noise 58 "control 58
sources 59
testing 64
research 65 Emissions 66 "life-cycle 66
species 67
airports and LTO cycle 69
trends 69 72 1.5 performance design point performance 76
off-design 77
ratings 79
transient 79
starting 81
testing 82
civil 84
military 84
industrial 85
marine 86 THIS SECTION
COMPONENT DEFINITION
STARTS AT THE FRONT OF THE ENGINE AND FOLLOWS THE AIRFLOW THROUGH TO THE REAR. IT THEN LOOKS AT THE OTHER COMPONENTS AND SYSTEMS THAT NEED TO BE INTEGRATED WITH THE ENGINE. section two define 92 2.1 fans and compressors configurations 96
aerodynamics 96
subsystems 101
industrial and marine 108
rigs 109
future 109 112 2.2 combustors combustion 116
architecture 117
fuel injectors 120
cooling 122
modelling 124
testing 124
integrity 124
challenges 126 130 2.3 turbines principles 134
types 134
design methodology 137
energy transfer 137
cooling 138
components 140
evolving considerations 144 148 2.4 transmissions rotor support structures 152
gearboxes 154
shafts 158
bearings 159 164 2.5 fluid systems Air systems 168 "bleed 170
elements 170
operating envelope 173
design challenge 173
integrity 173
monitoring 174 Fuel systems 174 "operation 174
description 175
aircraft interaction 175
FADEC 176
heat management 179
fuels 179 Oil system 180 "description 180
components 182
design challenge 186
integrity 187
monitoring 187
oils 187 190 2.6 control systems principles 194
control laws 194
components 196
civil 197
military 202
helicopter 202
marine 203
energy 203 section three deliver THERE ARE GOOD REASONS WHY THE JET ENGINE DELIVERS IN SERVICE: THE NATURE OF THE JET ENGINE DESCRIBED IN SECTION ONE; THE ENGINEERING EXCELLENCE OF SECTION TWO; AND THE ABILITIES TO MANUFACTURE
MAINTAIN
AND ADAPT. 208 3.1 manufacture and assembly Manufacture 212 "materials 212
casting 212
machining 213
drilling 214
joining 216
blisks 218
finish 219
composites 219
inspection 219 Assembly 221 "module assembly 221
engine build 223 226 3.2 installations externals 230
civil 231
military 236
stealth 237
test beds 238
energy and marine 238
fire 240
ice 241
reheat 243
V/STOL and vectoring 244 248 3.3 maintenance On-wing maintenance 252 "scheduled 252
unscheduled 252
monitoring 252
ETOPS 254
testing 255 Off-wing overhaul 255 "cleaning 256
inspection 257
repair 257
balancing 259
testing 260
engine management 261
industrial 262
marine 262 266 3.4 the future today 270
tomorrow 271
technologies 275
materials 275
compression 275
combustion 276
turbines 276
noise 277
more electric 277 280 glossary and conversion factors 282 the index 288 bibliography
credits
and thanks
section one: Design THIS SECTION ON ENGINE DESIGN LOOKS AT HOW THE JET ENGINE CAME TO BE WHAT IT IS TODAY
AND WHY - AND WHAT ENGINEERS NEED TO CONSIDER WHEN TRANSLATING AN IDEA INTO A PROVEN
WORKING ENGINE. 6 1.1 theory and basic mechanics principles 10
gas turbines 10
aero engines 14
turbojet 15
turbofan 16
turboshafts and turboprops 16
mechanical arrangements 18 22 1.2 experience the early days 26
civil and military 28
silicon and titanium 30
land and sea 32
impact 33
development 33 36 1.3 design and development Design 40 "requirements 40
customers 40
process 41
from design to development 41 Development 42 "experimental process 42
certification 43 > civil 43 > military 47 > energy 50 > marine 51 54 1.4 environmental impact Noise 58 "control 58
sources 59
testing 64
research 65 Emissions 66 "life-cycle 66
species 67
airports and LTO cycle 69
trends 69 72 1.5 performance design point performance 76
off-design 77
ratings 79
transient 79
starting 81
testing 82
civil 84
military 84
industrial 85
marine 86 THIS SECTION
COMPONENT DEFINITION
STARTS AT THE FRONT OF THE ENGINE AND FOLLOWS THE AIRFLOW THROUGH TO THE REAR. IT THEN LOOKS AT THE OTHER COMPONENTS AND SYSTEMS THAT NEED TO BE INTEGRATED WITH THE ENGINE. section two define 92 2.1 fans and compressors configurations 96
aerodynamics 96
subsystems 101
industrial and marine 108
rigs 109
future 109 112 2.2 combustors combustion 116
architecture 117
fuel injectors 120
cooling 122
modelling 124
testing 124
integrity 124
challenges 126 130 2.3 turbines principles 134
types 134
design methodology 137
energy transfer 137
cooling 138
components 140
evolving considerations 144 148 2.4 transmissions rotor support structures 152
gearboxes 154
shafts 158
bearings 159 164 2.5 fluid systems Air systems 168 "bleed 170
elements 170
operating envelope 173
design challenge 173
integrity 173
monitoring 174 Fuel systems 174 "operation 174
description 175
aircraft interaction 175
FADEC 176
heat management 179
fuels 179 Oil system 180 "description 180
components 182
design challenge 186
integrity 187
monitoring 187
oils 187 190 2.6 control systems principles 194
control laws 194
components 196
civil 197
military 202
helicopter 202
marine 203
energy 203 section three deliver THERE ARE GOOD REASONS WHY THE JET ENGINE DELIVERS IN SERVICE: THE NATURE OF THE JET ENGINE DESCRIBED IN SECTION ONE; THE ENGINEERING EXCELLENCE OF SECTION TWO; AND THE ABILITIES TO MANUFACTURE
MAINTAIN
AND ADAPT. 208 3.1 manufacture and assembly Manufacture 212 "materials 212
casting 212
machining 213
drilling 214
joining 216
blisks 218
finish 219
composites 219
inspection 219 Assembly 221 "module assembly 221
engine build 223 226 3.2 installations externals 230
civil 231
military 236
stealth 237
test beds 238
energy and marine 238
fire 240
ice 241
reheat 243
V/STOL and vectoring 244 248 3.3 maintenance On-wing maintenance 252 "scheduled 252
unscheduled 252
monitoring 252
ETOPS 254
testing 255 Off-wing overhaul 255 "cleaning 256
inspection 257
repair 257
balancing 259
testing 260
engine management 261
industrial 262
marine 262 266 3.4 the future today 270
tomorrow 271
technologies 275
materials 275
compression 275
combustion 276
turbines 276
noise 277
more electric 277 280 glossary and conversion factors 282 the index 288 bibliography
credits
and thanks
AND WHY - AND WHAT ENGINEERS NEED TO CONSIDER WHEN TRANSLATING AN IDEA INTO A PROVEN
WORKING ENGINE. 6 1.1 theory and basic mechanics principles 10
gas turbines 10
aero engines 14
turbojet 15
turbofan 16
turboshafts and turboprops 16
mechanical arrangements 18 22 1.2 experience the early days 26
civil and military 28
silicon and titanium 30
land and sea 32
impact 33
development 33 36 1.3 design and development Design 40 "requirements 40
customers 40
process 41
from design to development 41 Development 42 "experimental process 42
certification 43 > civil 43 > military 47 > energy 50 > marine 51 54 1.4 environmental impact Noise 58 "control 58
sources 59
testing 64
research 65 Emissions 66 "life-cycle 66
species 67
airports and LTO cycle 69
trends 69 72 1.5 performance design point performance 76
off-design 77
ratings 79
transient 79
starting 81
testing 82
civil 84
military 84
industrial 85
marine 86 THIS SECTION
COMPONENT DEFINITION
STARTS AT THE FRONT OF THE ENGINE AND FOLLOWS THE AIRFLOW THROUGH TO THE REAR. IT THEN LOOKS AT THE OTHER COMPONENTS AND SYSTEMS THAT NEED TO BE INTEGRATED WITH THE ENGINE. section two define 92 2.1 fans and compressors configurations 96
aerodynamics 96
subsystems 101
industrial and marine 108
rigs 109
future 109 112 2.2 combustors combustion 116
architecture 117
fuel injectors 120
cooling 122
modelling 124
testing 124
integrity 124
challenges 126 130 2.3 turbines principles 134
types 134
design methodology 137
energy transfer 137
cooling 138
components 140
evolving considerations 144 148 2.4 transmissions rotor support structures 152
gearboxes 154
shafts 158
bearings 159 164 2.5 fluid systems Air systems 168 "bleed 170
elements 170
operating envelope 173
design challenge 173
integrity 173
monitoring 174 Fuel systems 174 "operation 174
description 175
aircraft interaction 175
FADEC 176
heat management 179
fuels 179 Oil system 180 "description 180
components 182
design challenge 186
integrity 187
monitoring 187
oils 187 190 2.6 control systems principles 194
control laws 194
components 196
civil 197
military 202
helicopter 202
marine 203
energy 203 section three deliver THERE ARE GOOD REASONS WHY THE JET ENGINE DELIVERS IN SERVICE: THE NATURE OF THE JET ENGINE DESCRIBED IN SECTION ONE; THE ENGINEERING EXCELLENCE OF SECTION TWO; AND THE ABILITIES TO MANUFACTURE
MAINTAIN
AND ADAPT. 208 3.1 manufacture and assembly Manufacture 212 "materials 212
casting 212
machining 213
drilling 214
joining 216
blisks 218
finish 219
composites 219
inspection 219 Assembly 221 "module assembly 221
engine build 223 226 3.2 installations externals 230
civil 231
military 236
stealth 237
test beds 238
energy and marine 238
fire 240
ice 241
reheat 243
V/STOL and vectoring 244 248 3.3 maintenance On-wing maintenance 252 "scheduled 252
unscheduled 252
monitoring 252
ETOPS 254
testing 255 Off-wing overhaul 255 "cleaning 256
inspection 257
repair 257
balancing 259
testing 260
engine management 261
industrial 262
marine 262 266 3.4 the future today 270
tomorrow 271
technologies 275
materials 275
compression 275
combustion 276
turbines 276
noise 277
more electric 277 280 glossary and conversion factors 282 the index 288 bibliography
credits
and thanks