05583nam 2200733Ia 450 991100662480332120200520144314.097866127371769781282737174128273717197800805592230080559220(CKB)1000000000746939(EBL)428522(OCoLC)476273891(SSID)ssj0000240568(PQKBManifestationID)12049774(PQKBTitleCode)TC0000240568(PQKBWorkID)10266175(PQKB)11721830(MiAaPQ)EBC428522(PPN)170599566(FR-PaCSA)88811702(CaSebORM)9780750685801(FRCYB88811702)88811702(EXLCZ)99100000000074693920090409d2009 uy 0engur|n|---|||||txtccrSafety design for space systems /Gary Musgrave, Axel Larsen, Tommaso Sgobba1st editionOxford Butterworth-Heinemann20091 online resource (988 p.)Description based upon print version of record.9780750685801 0750685808 Includes bibliographical references and index.Front Cover; Safety Design for Space Systems; Copyright Page; Contents; Preface; Introduction; About the Editors; About the Contributors; Chapter 1: Introduction to Space Safety; 1.1 Nasa and Safety; 1.4 The Book; Chapter 2: The Space Environment: Natural and Induced; 2.3 Microgravity; 2.4 Acoutics; 2.4.1 Acoustics Safety Issues; 2.5 Radiation; 2.5.1 Ionizing Radiation; 2.6 Natural and Induced Thermal Environments; 2.6.1 Introduction to the Thermal Environment; 2.6.4 The Induced Thermal Environment; 2.6.5 Other Lunar and Planetary Environment Considerations; 2.7.3 Combined EffectsReferencesChapter 3: Overview of Bioastronautics; 3.1.4 Neurovestibular System; 3.2.4 Neurovestibular System; 3.2.5 Radiation; 3.3.3 In-Flight Medical Monitoring; 3.4 Crew Survival; 3.5 Conclusion; References; Chapter 4: Basic Principles of Space Safety; 4.2.3 Fail-Safe Design; 4.2.5 Monitoring, Recovery, and Escape; 4.3 The Safety Review Process; 4.3.2 The Safety Panels; References; Chapter 5: Human Rating Concepts; Chapter 6: Life Support Systems Safety; 6.2 Trace Contaminant Control; References; Chapter 7: Emergency Systems; 7.1.1 Legal and Diplomatic BasisChapter 8: Collision Avoidance Systems8.1 Docking Systems and Operations; 8.1.1 Docking Systems as a Means for Spacecraft Orbital Mating; 8.1.3 Design Features Ensuring the Safety and Reliability of Russian Docking Systems; 8.1.4 Analyses and Tests Performed for Verification of Safety and Reliability of Russian Docking Systems; Acknowledgment; 8.2 Descent and Landing Systems; 8.2.2 Known Parachute Anomalies and Lessons Learned; Chapter 9: Robotic Systems Safety; 9.3.1 Electrical and Electromechanical Malfunctions; 9.4.6 Built in Test; References; Chapter 10: Meteoroid and Debris Protection10.2.2 Leak Location System and Operational Design Considerations10.2.4 Kit Design and Certification Considerations (1 is too many; 100 are not enough); Chapter 11: Noise Control Design; 11.2.1 Noise Control Strategy; 11.2.2 Acoustic Analysis; 11.3.2 Path Noise Control; Chapter 12: Materials Safety; 12.1.1 Materials Offgassing Controls; 12.1.2 Materials Testing; 12.1.3 Spacecraft Module Testing; 12.2.1 What Is Stress-Corrosion Cracking?; 12.2.6 Stress-Corrosion Cracking in Propulsion Systems; Chapter 13: Oxygen Systems Safety; 13.2 Oxygen Generators13.2.1 Electrochemical Systems for Oxygen ProductionChapter 14: Avionics Safety; 14.1 Introduction to Avionics Safety; 14.2.8 Electrical Ground and Bond Connections for Shields; 14.3.2 Total Computer Control: Fail Safe; 14.5.1 Fundamentals; 14.6 Arc Tracking; 14.6.1 A New Failure Mode; 14.6.3 Likelihood of an Arc Tracking Event; 14.7 Corona Control in High Voltage Systems; 14.8 Extravehicular Activity Considerations; 14.8.1 Displays and Indicators Used in Space; 14.8.5 Computer or Operational Control of Inhibits14.9 Spacecraft electromagnetic interference and electromagnetic compatibility controlProgress in space safety lies in the acceptance of safety design and engineering as an integral part of the design and implementation process for new space systems. Safety must be seen as the principle design driver of utmost importance from the outset of the design process, which is only achieved through a culture change that moves all stakeholders toward front-end loaded safety concepts. This approach entails a common understanding and mastering of basic principles of safety design for space systems at all levels of the program organisation. Fully supported by the International AsAstronauticsSafety measuresSpace vehiclesDesign and constructionAstronauticsSafety measures.Space vehiclesDesign and construction.629.40289629.40289Musgrave Gary1822693Larsen Axel1822694Sgobba Tommaso1822695International Association for the Advancement of Space Safety.MiAaPQMiAaPQMiAaPQBOOK9911006624803321Safety design for space systems4389034UNINA