Evifa-Portal

ISBN: 9789401138581

Language: English

Pages: Online-Ressource , online resource

Edition: Springer eBook Collection. Humanities, Social Sciences and Law

Parallel Title: Erscheint auch als

Keywords: Science (General) ; Social sciences. ; Humanities.

Abstract: 1 Reliability -- 1.1 Introduction -- 1.2 What is Reliability? Why Want Reliability? Principles of Achieving Reliability -- 1.3 Quantifying Reliability -- 1.4 The Methods of Systems Reliability Synthesis -- 1.5 Need for Reliability Data -- 2 Principles of Reliability Data Bases -- 2.1 Purposes -- 2.2 Construction -- 2.3 Data Acquisition -- 2.4 Physical Implementation -- 2.5 Development and Operation -- 3 Analysis Methodologies -- 3.1 Restrictions Owing to Data Base Assumptions -- 3.2 Constant Fault-Rate or Failure-Rate Methods -- 3.3 Non-Constant Fault-Rate Methods; The Weibull Distribution -- 3.4 More General Data Structures -- 4 Some Achievements Due to the Development of Data Banks -- 4.1 Introduction -- 4.2 The Nuclear Industry -- 4.3 Aircraft Industry -- 4.4 Electronics Industry -- 4.5 Chemical Industry -- 4.6 Data -- 4.7 Computational Considerations -- 4.8 Data Needs or Requirements -- 4.9 Other Factors Worthy of Consideration -- 4.10 Staffing -- 5 Facts: Most Comprehensive Information System For Industrial Safety -- 5.1 Introduction -- 5.2 The TNO Organization -- 5.3 Looking Back on the Start of FACTS -- 5.4 Information Handling -- 5.5 Cause Classification -- 5.6 Data Base Structure -- 5.7 Storage of Original Documents -- 5.8 Applications and the Use of FACTS -- 5.9 New Advances in FACTS -- 5.10 Latest Developments -- 5.11 PC-FACTS -- 6 Reliability Data Collection In Process Plants -- 6.1 General Remarks -- 6.2 Data Collection -- 6.3 Data Treatment and Examples -- 6.4 Uncertainty, Applicability and Caution -- 7 The Centralized Reliability Data Organization (Credo); an Advanced Nuclear Reactor Reliability, Availability, and Maintainability Data Bank and Data Analysis Center -- 7.1 The Basis for CREDO -- 7.2 CREDO—An Historical Perspective -- 7.3 Data Initially Identified for Inclusion -- 7.4 CREDO Component Description and Classification -- 7.5 Design of Data Input -- 7.6 CREDO’S Data Base Management System -- 7.7 Statistical Data Analysis and Processing -- 7.8 CREDO Development Experience -- 7.9 Achievements and Future Directions of CREDO -- 8 The Fabrication Reliability Data Analysis System Dante-QC1 -- 8.1 Introduction -- 8.2 Concept of the DANTE Code System -- 8.3 Data Base Configuration -- 8.4 Processing Function -- 8.5 Application of DANTE for PIE Data Analysis -- 8.6 Future Directions -- 9 Reliability Data Banks at Electricite De France (EDF) -- 9.1 The Origins -- 9.2 History and Objectives of the EDF Data Banks -- 9.3 SRDF -- 9.4 Conclusion -- 10 IAEA’s Experience In Compiling A Generic Component Reliability Data Base -- 10.1 Introduction -- 10.2 IAEA’s Generic Component Reliability Data Base -- 10.3 Problem Areas Connected with Generic Data Bases -- 10.4 Conclusion -- Appendix: Data Sources Included in the Generic Component Reliability Data Base -- 11 The European Reliability Data System—Erds: Status And Future Developments -- 11.1 Introduction -- 11.2 General Description of ERDS -- 11.3 The Component Event Data Bank (CEDB) -- 12 Development of A Large Data Bank -- 12.1 Introduction -- 12.2 The Data Bank System -- 12.3 Student Collection Scheme -- 12.4 The Item Inventory -- 12.5 Coded Storage -- 12.6 Output Data -- 12.7 Generic Reliability Data Output Enquiry and Reply Service -- 12.8 Reliability Improvements -- 13 Reliability Data Banks—Friend, Foe or A Waste of Time? -- 13.1 Introduction -- 13.2 The Personalities -- 13.3 The DataBase Design -- 13.4 The Component Inventory Data -- 13.5 The Component History Data -- 13.6 Dependent Failures -- 13.7 Data Analysis -- 13.8 Pooled Reliability Data -- 13.9 The Successes -- 13.10 Conclusions -- 14 Developments -- 14.1 Introduction -- 14.2 Changes in Data Handling -- 14.3 Data Base Software -- 14.4 Methodology and Technology Led Changes -- 14.5 New Data Bases -- 14.6 R & M 2000 -- 14.7 Changes in Attitude -- 15 Overview; Into the Future -- 15.1 Forty Years of Always Being Wrong and Always Being Right -- 15.2 The Next Forty Years -- 15.3 Using External Data Sources and Making Up Data -- 15.4 Justifying a Reliability Data Base.

Description / Table of Contents: 1 Reliability1.1 Introduction -- 1.2 What is Reliability? Why Want Reliability? Principles of Achieving Reliability -- 1.3 Quantifying Reliability -- 1.4 The Methods of Systems Reliability Synthesis -- 1.5 Need for Reliability Data -- 2 Principles of Reliability Data Bases -- 2.1 Purposes -- 2.2 Construction -- 2.3 Data Acquisition -- 2.4 Physical Implementation -- 2.5 Development and Operation -- 3 Analysis Methodologies -- 3.1 Restrictions Owing to Data Base Assumptions -- 3.2 Constant Fault-Rate or Failure-Rate Methods -- 3.3 Non-Constant Fault-Rate Methods; The Weibull Distribution -- 3.4 More General Data Structures -- 4 Some Achievements Due to the Development of Data Banks -- 4.1 Introduction -- 4.2 The Nuclear Industry -- 4.3 Aircraft Industry -- 4.4 Electronics Industry -- 4.5 Chemical Industry -- 4.6 Data -- 4.7 Computational Considerations -- 4.8 Data Needs or Requirements -- 4.9 Other Factors Worthy of Consideration -- 4.10 Staffing -- 5 Facts: Most Comprehensive Information System For Industrial Safety -- 5.1 Introduction -- 5.2 The TNO Organization -- 5.3 Looking Back on the Start of FACTS -- 5.4 Information Handling -- 5.5 Cause Classification -- 5.6 Data Base Structure -- 5.7 Storage of Original Documents -- 5.8 Applications and the Use of FACTS -- 5.9 New Advances in FACTS -- 5.10 Latest Developments -- 5.11 PC-FACTS -- 6 Reliability Data Collection In Process Plants -- 6.1 General Remarks -- 6.2 Data Collection -- 6.3 Data Treatment and Examples -- 6.4 Uncertainty, Applicability and Caution -- 7 The Centralized Reliability Data Organization (Credo); an Advanced Nuclear Reactor Reliability, Availability, and Maintainability Data Bank and Data Analysis Center -- 7.1 The Basis for CREDO -- 7.2 CREDO-An Historical Perspective -- 7.3 Data Initially Identified for Inclusion -- 7.4 CREDO Component Description and Classification -- 7.5 Design of Data Input -- 7.6 CREDO’S Data Base Management System -- 7.7 Statistical Data Analysis and Processing -- 7.8 CREDO Development Experience -- 7.9 Achievements and Future Directions of CREDO -- 8 The Fabrication Reliability Data Analysis System Dante-QC1 -- 8.1 Introduction -- 8.2 Concept of the DANTE Code System -- 8.3 Data Base Configuration -- 8.4 Processing Function -- 8.5 Application of DANTE for PIE Data Analysis -- 8.6 Future Directions -- 9 Reliability Data Banks at Electricite De France (EDF) -- 9.1 The Origins -- 9.2 History and Objectives of the EDF Data Banks -- 9.3 SRDF -- 9.4 Conclusion -- 10 IAEA’s Experience In Compiling A Generic Component Reliability Data Base -- 10.1 Introduction -- 10.2 IAEA’s Generic Component Reliability Data Base -- 10.3 Problem Areas Connected with Generic Data Bases -- 10.4 Conclusion -- Appendix: Data Sources Included in the Generic Component Reliability Data Base -- 11 The European Reliability Data System-Erds: Status And Future Developments -- 11.1 Introduction -- 11.2 General Description of ERDS -- 11.3 The Component Event Data Bank (CEDB) -- 12 Development of A Large Data Bank -- 12.1 Introduction -- 12.2 The Data Bank System -- 12.3 Student Collection Scheme -- 12.4 The Item Inventory -- 12.5 Coded Storage -- 12.6 Output Data -- 12.7 Generic Reliability Data Output Enquiry and Reply Service -- 12.8 Reliability Improvements -- 13 Reliability Data Banks-Friend, Foe or A Waste of Time? -- 13.1 Introduction -- 13.2 The Personalities -- 13.3 The DataBase Design -- 13.4 The Component Inventory Data -- 13.5 The Component History Data -- 13.6 Dependent Failures -- 13.7 Data Analysis -- 13.8 Pooled Reliability Data -- 13.9 The Successes -- 13.10 Conclusions -- 14 Developments -- 14.1 Introduction -- 14.2 Changes in Data Handling -- 14.3 Data Base Software -- 14.4 Methodology and Technology Led Changes -- 14.5 New Data Bases -- 14.6 R & M 2000 -- 14.7 Changes in Attitude -- 15 Overview; Into the Future -- 15.1 Forty Years of Always Being Wrong and Always Being Right -- 15.2 The Next Forty Years -- 15.3 Using External Data Sources and Making Up Data -- 15.4 Justifying a Reliability Data Base.

DOI: 10.1007/978-94-011-3858-1

URL: Volltext (lizenzpflichtig)

URL: lizenzpflichtig