Design methodologies for space transportation systems:
Gespeichert in:
| 1. Verfasser: | |
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Reston, VA
AIAA
2001
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| Schriftenreihe: | AIAA education series
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| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Literaturangaben. - CD-ROM-Beil. u.d.T.: Analysis resources and software |
| Beschreibung: | XXI, 866 S. Ill., graph. Darst. 1 CD-ROM (12 cm) |
| ISBN: | 1563474727 |
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Datensatz im Suchindex
| _version_ | 1804135931149549568 |
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| adam_text | Titel: Design methodologies for space transportation systems
Autor: Hammond, Walter E
Jahr: 2001
Table of
Contents
Preface..............................................xvii
Acknowledgments.......................................xxi
Chapter 1. Overview of the Systems Engineering and Vehicle
Design Process..............................................................................1
1.1 Introduction ..........................................................................1
1.2 Systems Engineering..............................................................3
1.3 Space Transportation System Design Considerations....................19
1.4 Integration Model for the Vehicle Design Process........................23
1.5 Computerized Design Synthesis................................................31
1.6 Software................................................................................32
1.7 Other Design Functions ..........................................................42
1.7 Summary..............................................................................43
References............................................................................43
Further Reading......................................................................44
Chapter 2. Conceptual Design and Tradeoffs Process........................45
2.1 Introduction: Encapsulation of the Space Transportation
System Design Process............................................................45
2.2 Overview of the Design Process................................................46
2.3 Design Process Summary........................................................51
2.4 Design Creation......................................................................55
2.5 Establishing Vehicle System Characteristics................................58
2.6 Methods for Conceptual Design: Closed-Form Impulsive
Velocity Calculations..............................................................62
2.7 Preliminary Design ................................................................67
2.8 Recoverable vs Expendable Systems Analysis............................84
2.9 A Holistic Approach is Needed................................................114
2.10 Summary..............................................................................115
References............................................................................115
Chapter 3. Taking a Closer Look at the Design Sequence..................119
3.1 Introduction ..........................................................................119
3.2 Overview of the System Design Process....................................120
xi
xii
3.3 Design Sequence: From Conceptual, to Preliminary, ^
to Detailed Design............ • .......................................J60
3.4 Design Process and Procedures Guidelines.................
3.5 Summary.......................................
References............................................................................j ^
Further Reading...................................
1 (kl
Chapter 4. Aerothermodynamics Discipline....................................^
4.1 Introduction .....................................
4.2 Testing..................................................................................„
4.3 Computational Flow Simulation........................
4.4 Role of Aerothermodynamics in the Space Vehicle Design Process 176
4.5 Aerodynamic Design Function Applied to Space Vehicles............182
4.6 Industrial CFD........................................................................j ^
4.7 Aerodynamic Shape Optimization ............................................197
4.8 Application of Control Theory..................................................199
4.9 NASP CFD Work....................................................................211
4.10 Some Hypersonic Flow Analysis Codes......................................212
4.11 Opportunity to Reengineer the Design Process............................216
4.12 Summary..............................................................................226
References............................................................................227
Further Reading......................................................................232
Chapter 5. Thermal Heating and Design..........................................233
5.1 Introduction..........................................................................233
5.2 Types of Heat Transfer............................................................233
5.3 Thermal Analysis....................................................................237
5.4 Types of Thermal Protection Systems for Space Vehicles..............239
5.5 Thermal Design for Space Transportation Systems......................241
5.6 Space Vehicle Thermal Heating Considerations ..........................251
5.7 Aerothermal Analysis Considerations........................................254
5.8 Some Aerothermal Analysis and Simulation Codes......................257
5.9 Leveraging............................................................................268
5.10 Need for Collaborative Engineering Process................................270
5.11 Summary..............................................................................271
References..........................................................................272
Chapter 6. Structures and Materials........................279
6.1 Historical Introduction............................................279
6.2 Structural Materials Considerations ............................280
6.3 Structures Design Function....................................291
6.4 Materials and Processes................................302
6.5 Integrated Design and Manufacturing..........................30§
6.6 Computationally Driven Materials Developments 310
6.7 Materials and Manufacturing Design Functions . 312
xiii
6.8 Material Design/Analysis Tasks................................................314
6.9 Recent Progress in Structures and Materials................................315
6.10 Future Trends in Materials and Manufacturing............................316
6.11 Processing and Fabrication Technology......................................329
6.12 Manufacturing Considerations..................................................339
6.13 Summary..............................................................................345
References............................................................................346
Further Reading ....................................................................346
Chapter 7. Propulsion Systems........................................................347
Nomenclature........................................................................347
7.1 Introduction..........................................................................349
7.2 Rocket-Thrust Equations and Performance Parameters ................352
7.3 Liquid Propulsion Systems......................................................369
7.4 Solid Propulsion Systems........................................................381
7.5 Hybrid Rocket Propulsion........................................................384
7.6 Gelled Propellants..................................................................387
7.7 Airbreathing Propulsion Systems..............................................389
7.8 Electric Propulsion Systems ....................................................402
7.9 Nuclear Propulsion Systems....................................................408
7.10 Other Propulsion Methods ......................................................420
7.11 Summary..............................................................................428
References............................................................................429
Further Reading ....................................................................431
Chapter 8. Flight Mechanics and Trajectories..................................433
8.1 Introduction..........................................................................433
8.2 Space Transportation System Trajectory Design..........................436
8.3 Space Vehicle Trajectory Design Tasks......................................438
8.4 Basics of GNC ..........................................442
8.5 Navigation and Guidance Applied to Space
Transportation Systems ..............................453
8.6 Guidance and Navigation Tasks................................................463
8.7 Flight Mechanics and Trajectories Applications..........................466
8.8 Summary...........................................................485
References............................................................................486
Further Reading ....................................................................486
Chapter 9. Avionics, Computers, and Control Systems......................487
9.1 Introduction..........................................................................487
9.2 Avionics Design Function........................................................494
9.3 Avionics Design Tasks............................................................499
9.4 Sensors ................................................................................501
9.5 Computers............................................................................505
9.6 Integrated Control and Health Monitoring..................................506
xiv
9.7 Control Systems for Launch Vehicles....................
9.8 Vehicle Control System Design Tasks........................................^ °
9.9 Fly-by-Wire Control Systems.........................
9.10 Fly-by-Light Flight Control Systems ........................................^
9.11 Summary..............................................................................~
References......................................
Further Reading ..................................
Chapter 10. Multidisciplinary Design Optimization and Simulation 529
10.1 Introduction..........................................................................^
10.2 Airframe/Propulsion System Integration....................................532
10.3 Calculus-Based Methods ........................................................534
10.4 Optimization Using Response Surfaces......................................539
10.5 Expert Systems......................................................................546
10.6 Genetic Algorithms for Optimization........................................548
10.7 Simulated Annealing..............................................................553
10.8 Neural Networks....................................................................555
10.9 Selecting Methods and Combining Methods ..............................557
10.10 Guidelines for Building Good Simulation Code..........................558
10.11 Multidisciplinary Design Optimization Applied to Today s
Aerospace Systems................................................................561
10.12 Conclusions..........................................................................577
References............................................................................578
Chapter 11. Human Factors and Life Support..................................583
11.1 Introduction..........................................................................583
11.2 Natural and Induced Environments............................................585
11.3 Environmental Control and Life-Support Systems........................596
11.4 Controlled Ecological Life-Support Systems..............................606
11.5 Future Bioengmeering Applications..........................................608
11.6 Guidelines for Human Rating of Spacecraft................................611
References............................................................................613
Further Reading ....................................................................615
Chapter 12. Payloads and Integration..............................................617
12.1 Introduction........................
12.2 Payload Classification ...................
12.3 Payload Considerations ..........................g23
12.4 Payload Design and Sizing.............................. ^7
12.5 Launch Vehicle/Payload Interfaces........... ................629
12.6 Launch Site Operations ................................ggj
12.7 Payload/Launch Vehicle Integration..........635
12.8 Launch and Mission Operations........... ^..................637
12.9 Conclusions and Summary........... .............
XV
References............................................................................639
Further Reading ....................................................................640
Chapter 13. Launch and Mission Operations..................641
13.1 Introduction..........................................................................641
13.2 Mission Requirements Analysis................................................643
13.3 Launch Vehicles....................................................................645
13.4 Objectives and Approaches to Launch Operations........................655
13.5 Launch Vehicle Ground Processing ..........................................661
13.6 Test Organization and Responsibility........................................665
13.7 Test Processing Equipment Requirements..................................668
13.B Launch Vehicle Range Requirements........................................670
13.9 Telemetry Systems Requirements..............................................673
13.10 Vehicle Launch Operations......................................................676
13.11 Reducing Operations Costs......................................................687
13.12Future Launch and Mission Operations......................................691
13.13 S ome Operations Lessons Learned............................................695
13.14 Summary..............................................................................696
References............................................................................697
Further Reading ....................................................................698
Chapter 14. Safety and Mission Assurance.............................699
14.1 Introduction..........................................................................699
14.2 Ensuring Mission Success........................................................699
14.3 Risk Management..................................................................705
14.4 Risk Analysis Techniques........................................................707
14.5 Process Hazard Analysis Techniques ........................................723
14.6 Designing for Safety in Space Vehicle Program..........................734
14.7 Prelaunch Operations Safety....................................................745
14.8 Launch, On-Orbit, Abort, and Recovery Operations Safety ..........746
14.9 Quality and Mission Assurance................................................751
14.10 Transportability and Maintainability Analysis............................756
14.11 Some Lessons Learned in Risk Management..............................763
References............................................................................763
Further Reading ....................................................................764
Appendix A: Some Space Transportation Systems
Lessons Learned..........................................................................767
Appendix B: Equations and Approaches for Modeling
Space Transportation Systems......................................................781
Appendix C: Historical Perspective on Space Transportation......795
Appendix D: Case Study: Base Drag and Base Aeroheating
for Space Vehicles........................................................................821
|
| adam_txt |
Titel: Design methodologies for space transportation systems
Autor: Hammond, Walter E
Jahr: 2001
Table of
Contents
Preface.xvii
Acknowledgments.xxi
Chapter 1. Overview of the Systems Engineering and Vehicle
Design Process.1
1.1 Introduction .1
1.2 Systems Engineering.3
1.3 Space Transportation System Design Considerations.19
1.4 Integration Model for the Vehicle Design Process.23
1.5 Computerized Design Synthesis.31
1.6 Software.32
1.7 Other Design Functions .42
1.7 Summary.43
References.43
Further Reading.44
Chapter 2. Conceptual Design and Tradeoffs Process.45
2.1 Introduction: Encapsulation of the Space Transportation
System Design Process.45
2.2 Overview of the Design Process.46
2.3 Design Process Summary.51
2.4 Design Creation.55
2.5 Establishing Vehicle System Characteristics.58
2.6 Methods for Conceptual Design: Closed-Form Impulsive
Velocity Calculations.62
2.7 Preliminary Design .67
2.8 Recoverable vs Expendable Systems Analysis.84
2.9 A Holistic Approach is Needed.114
2.10 Summary.115
References.115
Chapter 3. Taking a Closer Look at the Design Sequence.119
3.1 Introduction .119
3.2 Overview of the System Design Process.120
xi
xii
3.3 Design Sequence: From Conceptual, to Preliminary, ^
to Detailed Design. • .J60
3.4 Design Process and Procedures Guidelines.
3.5 Summary.
References.j ^
Further Reading.
1 (kl
Chapter 4. Aerothermodynamics Discipline.^
4.1 Introduction .
4.2 Testing.„
4.3 Computational Flow Simulation.
4.4 Role of Aerothermodynamics in the Space Vehicle Design Process 176
4.5 Aerodynamic Design Function Applied to Space Vehicles.182
4.6 Industrial CFD.j ^
4.7 Aerodynamic Shape Optimization .197
4.8 Application of Control Theory.199
4.9 NASP CFD Work.211
4.10 Some Hypersonic Flow Analysis Codes.212
4.11 Opportunity to Reengineer the Design Process.216
4.12 Summary.226
References.227
Further Reading.232
Chapter 5. Thermal Heating and Design.233
5.1 Introduction.233
5.2 Types of Heat Transfer.233
5.3 Thermal Analysis.237
5.4 Types of Thermal Protection Systems for Space Vehicles.239
5.5 Thermal Design for Space Transportation Systems.241
5.6 Space Vehicle Thermal Heating Considerations .251
5.7 Aerothermal Analysis Considerations.254
5.8 Some Aerothermal Analysis and Simulation Codes.257
5.9 Leveraging.268
5.10 Need for Collaborative Engineering Process.270
5.11 Summary.271
References.272
Chapter 6. Structures and Materials.279
6.1 Historical Introduction.279
6.2 Structural Materials Considerations .280
6.3 Structures Design Function.291
6.4 Materials and Processes.302
6.5 Integrated Design and Manufacturing.30§
6.6 Computationally Driven Materials Developments 310
6.7 Materials and Manufacturing Design Functions . 312
xiii
6.8 Material Design/Analysis Tasks.314
6.9 Recent Progress in Structures and Materials.315
6.10 Future Trends in Materials and Manufacturing.316
6.11 Processing and Fabrication Technology.329
6.12 Manufacturing Considerations.339
6.13 Summary.345
References.346
Further Reading .346
Chapter 7. Propulsion Systems.347
Nomenclature.347
7.1 Introduction.349
7.2 Rocket-Thrust Equations and Performance Parameters .352
7.3 Liquid Propulsion Systems.369
7.4 Solid Propulsion Systems.381
7.5 Hybrid Rocket Propulsion.384
7.6 Gelled Propellants.387
7.7 Airbreathing Propulsion Systems.389
7.8 Electric Propulsion Systems .402
7.9 Nuclear Propulsion Systems.408
7.10 Other Propulsion Methods .420
7.11 Summary.428
References.429
Further Reading .431
Chapter 8. Flight Mechanics and Trajectories.433
8.1 Introduction.433
8.2 Space Transportation System Trajectory Design.436
8.3 Space Vehicle Trajectory Design Tasks.438
8.4 Basics of GNC .442
8.5 Navigation and Guidance Applied to Space
Transportation Systems .453
8.6 Guidance and Navigation Tasks.463
8.7 Flight Mechanics and Trajectories Applications.466
8.8 Summary.485
References.486
Further Reading .486
Chapter 9. Avionics, Computers, and Control Systems.487
9.1 Introduction.487
9.2 Avionics Design Function.494
9.3 Avionics Design Tasks.499
9.4 Sensors .501
9.5 Computers.505
9.6 Integrated Control and Health Monitoring.506
xiv
9.7 Control Systems for Launch Vehicles.
9.8 Vehicle Control System Design Tasks.^ °
9.9 Fly-by-Wire Control Systems.
9.10 Fly-by-Light Flight Control Systems .^
9.11 Summary.~
References.
Further Reading .
Chapter 10. Multidisciplinary Design Optimization and Simulation 529
10.1 Introduction.^
10.2 Airframe/Propulsion System Integration.532
10.3 Calculus-Based Methods .534
10.4 Optimization Using Response Surfaces.539
10.5 Expert Systems.546
10.6 Genetic Algorithms for Optimization.548
10.7 Simulated Annealing.553
10.8 Neural Networks.555
10.9 Selecting Methods and Combining Methods .557
10.10 Guidelines for Building Good Simulation Code.558
10.11 Multidisciplinary Design Optimization Applied to Today's
Aerospace Systems.561
10.12 Conclusions.577
References.578
Chapter 11. Human Factors and Life Support.583
11.1 Introduction.583
11.2 Natural and Induced Environments.585
11.3 Environmental Control and Life-Support Systems.596
11.4 Controlled Ecological Life-Support Systems.606
11.5 Future Bioengmeering Applications.608
11.6 Guidelines for Human Rating of Spacecraft.611
References.613
Further Reading .615
Chapter 12. Payloads and Integration.617
12.1 Introduction.
12.2 Payload Classification .
12.3 Payload Considerations .g23
12.4 Payload Design and Sizing.' ^7
12.5 Launch Vehicle/Payload Interfaces. .629
12.6 Launch Site Operations .ggj
12.7 Payload/Launch Vehicle Integration.635
12.8 Launch and Mission Operations.' ' ^.637
12.9 Conclusions and Summary. .
XV
References.639
Further Reading .640
Chapter 13. Launch and Mission Operations.641
13.1 Introduction.641
13.2 Mission Requirements Analysis.643
13.3 Launch Vehicles.645
13.4 Objectives and Approaches to Launch Operations.655
13.5 Launch Vehicle Ground Processing .661
13.6 Test Organization and Responsibility.665
13.7 Test Processing Equipment Requirements.668
13.B Launch Vehicle Range Requirements.670
13.9 Telemetry Systems Requirements.673
13.10 Vehicle Launch Operations.676
13.11 Reducing Operations Costs.687
13.12Future Launch and Mission Operations.691
13.13 S ome Operations Lessons Learned.695
13.14 Summary.696
References.697
Further Reading .698
Chapter 14. Safety and Mission Assurance.699
14.1 Introduction.699
14.2 Ensuring Mission Success.699
14.3 Risk Management.705
14.4 Risk Analysis Techniques.707
14.5 Process Hazard Analysis Techniques .723
14.6 Designing for Safety in Space Vehicle Program.734
14.7 Prelaunch Operations Safety.745
14.8 Launch, On-Orbit, Abort, and Recovery Operations Safety .746
14.9 Quality and Mission Assurance.751
14.10 Transportability and Maintainability Analysis.756
14.11 Some Lessons Learned in Risk Management.763
References.763
Further Reading .764
Appendix A: Some Space Transportation Systems
Lessons Learned.767
Appendix B: Equations and Approaches for Modeling
Space Transportation Systems.781
Appendix C: Historical Perspective on Space Transportation.795
Appendix D: Case Study: Base Drag and Base Aeroheating
for Space Vehicles.821 |
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| index_date | 2024-07-02T16:08:33Z |
| indexdate | 2024-07-09T20:48:20Z |
| institution | BVB |
| isbn | 1563474727 |
| language | English |
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| spelling | Hammond, Walter E. Verfasser aut Design methodologies for space transportation systems Walter E. Hammond Analysis resources and software Reston, VA AIAA 2001 XXI, 866 S. Ill., graph. Darst. 1 CD-ROM (12 cm) txt rdacontent n rdamedia nc rdacarrier AIAA education series Literaturangaben. - CD-ROM-Beil. u.d.T.: Analysis resources and software Astronautics Systems engineering Reusable space vehicles Design and construction Space ships Design and construction Raumfahrttechnik (DE-588)4177061-4 gnd rswk-swf Raumfahrttechnik (DE-588)4177061-4 s DE-604 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015177823&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Hammond, Walter E. Design methodologies for space transportation systems Astronautics Systems engineering Reusable space vehicles Design and construction Space ships Design and construction Raumfahrttechnik (DE-588)4177061-4 gnd |
| subject_GND | (DE-588)4177061-4 |
| title | Design methodologies for space transportation systems |
| title_alt | Analysis resources and software |
| title_auth | Design methodologies for space transportation systems |
| title_exact_search | Design methodologies for space transportation systems |
| title_exact_search_txtP | Design methodologies for space transportation systems |
| title_full | Design methodologies for space transportation systems Walter E. Hammond |
| title_fullStr | Design methodologies for space transportation systems Walter E. Hammond |
| title_full_unstemmed | Design methodologies for space transportation systems Walter E. Hammond |
| title_short | Design methodologies for space transportation systems |
| title_sort | design methodologies for space transportation systems |
| topic | Astronautics Systems engineering Reusable space vehicles Design and construction Space ships Design and construction Raumfahrttechnik (DE-588)4177061-4 gnd |
| topic_facet | Astronautics Systems engineering Reusable space vehicles Design and construction Space ships Design and construction Raumfahrttechnik |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015177823&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT hammondwaltere designmethodologiesforspacetransportationsystems AT hammondwaltere analysisresourcesandsoftware |