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E-grāmata: Handbook of Reliability, Availability, Maintainability and Safety in Engineering Design

  • Formāts: PDF+DRM
  • Izdošanas datums: 17-Feb-2009
  • Izdevniecība: Springer London Ltd
  • Valoda: eng
  • ISBN-13: 9781848001756
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Handbook of Reliability, Availability, Maintainability and Safety in Engineering DesignPalielināt
  • Formāts: PDF+DRM
  • Izdošanas datums: 17-Feb-2009
  • Izdevniecība: Springer London Ltd
  • Valoda: eng
  • ISBN-13: 9781848001756
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Handbook of Reliability, Availability, Maintainability and Safety in Engineering Design studies the combination of various methods of designing for reliability, availability, maintainability and safety, as well as the latest techniques in probability and possibility modelling, mathematical algorithmic modelling, evolutionary algorithmic modelling, symbolic logic modelling, artificial intelligence modelling, and object-oriented computer modelling, in a logically structured approach to determining the integrity of engineering design.Handbook of Reliability, Availability, Maintainability and Safety in Engineering Design not only encompasses a depth of research into engineering design methods and techniques ranging from quantitative probability theory and expert judgement in Bayesian analysis to qualitative possibility theory, fuzzy logic and uncertainty in Markov analysis; from reliability block diagrams, fault trees, event trees and cause-consequence diagrams to Petri nets, genetic algorithms and artificial neural networks; but it also covers a breadth of research into the concept of integrity in engineering design. Such breadth of research is represented by the inclusion of the topics of reliability and performance, availability and maintainability, and safety and risk, in an overall concept of designing for integrity during the different phases of the engineering design process. These topics add significant value to the theoretical expertise and practical experience of process, chemical, civil, mechanical, electrical, and electronic engineers, by considering process engineering design from the point of view of "what should be achieved" to meet criteria for designing for reliability, availability, maintainability and safety.

This handbook studies the combination of various methods of designing for reliability, availability, maintainability and safety, as well as the latest techniques in probability and possibility modeling, mathematical algorithmic modeling, evolutionary algorithmic modeling, symbolic logic modeling, artificial intelligence modeling and object-oriented computer modeling.

Recenzijas

From the reviews:





"[ I] would like to recommend this for all design engineers as it provides the most comprehensive coverage of the engineering design problems and analytical tools for achieving the design." K.B. Misra, Editor-in-Chief, International Journal of Performability Engineering (2009)





Stapelberg (Griffith Univ. and engineering consultant, Australia) brings his extensive background and experience to this comprehensive, well-organized handbook, which addresses the different facets of evaluating integrity in engineering design. All in all, this handbook provides a thorough treatment of the methodology for assessing integrity in engineering design of systems and equipment. Summing Up: Recommended. Academic audiences, undergraduate seniors and above, professional engineering designers and analysts, general readers. (R. Kolar, Choice, Vol. 47 (6), February, 2010)

Part I Engineering Design Integrity Overview
1 Design Integrity Methodology
3
1.1 Designing for Integrity
4
1.1.1 Development and Scope of Design Integrity Theory
12
1.1.2 Designing for Reliability, Availability, Maintainability and Safety
14
1.2 Artificial Intelligence in Design
21
1.2.1 Development of Models and AIB Methodology
22
1.2.2 Artificial Intelligence in Engineering Design
25
2 Design Integrity and Automation
33
2.1 Industry Perception and Related Research
34
2.1.1 Industry Perception
34
2.1.2 Related Research
35
2.2 Intelligent Design Systems
37
2.2.1 The Future of Intelligent Design Systems
37
2.2.2 Design Automation and Evaluation Design Automation
38
Part II Engineering Design Integrity Application
3 Reliability and Performance in Engineering Design
43
3.1 Introduction
43
3.2 Theoretical Overview of Reliability and Performance in Engineering Design
45
3.2.1 Theoretical Overview of Reliability and Performance Prediction in Conceptual Design
60
3.2.2 Theoretical Overview of Reliability Assessment in Preliminary Design
72
3.2.3 Theoretical Overview of Reliability Evaluation in Detail Design
90
3.3 Analytic Development of Reliability and Performance in Engineering Design
107
3.3.1 Analytic Development of Reliability and Performance Prediction in Conceptual Design
107
3.3.2 Analytic Development of Reliability Assessment in Preliminary Design
133
3.3.3 Analytic Development of Reliability Evaluation in Detail Design
190
3.4 Application Modelling of Reliability and Performance in Engineering Design
241
3.4.1 The RAMS Analysis Application Model
242
3.4.2 Evaluation of Modelling Results
271
3.4.3 Application Modelling Outcome
285
3.5 Review Exercises and References
288
4 Availability and Maintainability in Engineering Design
295
4.1 Introduction
296
4.2 Theoretical Overview of Availability and Maintainability in Engineering Design
302
4.2.1 Theoretical Overview of Availability and Maintainability Prediction in Conceptual Design
308
4.2.2 Theoretical Overview of Availability and Maintainability Assessment in Preliminary Design
349
4.2.3 Theoretical Overview of Availability and Maintainability Evaluation in Detail Design
385
4.3 Analytic Development of Availability and Maintainability in Engineering Design
415
4.3.1 Analytic Development of Availability and Maintainability Prediction in Conceptual Design
416
4.3.2 Analytic Development of Availability and Maintainability Assessment in Preliminary Design
436
4.3.3 Analytic Development of Availability and Maintainability Evaluation in Detail Design
456
4.4 Application Modelling of Availability and Maintainability in Engineering Design
486
4.4.1 Process Equipment Models (PEMs)
486
4.4.2 Evaluation of Modelling Results
500
4.4.3 Application Modelling Outcome
518
4.5 Review Exercises and References
520
5 Safety and Risk in Engineering Design
529
5.1 Introduction
530
5.2 Theoretical Overview of Safety and Risk in Engineering Design
537
5.2.1 Forward Search Techniques for Safety in Engineering Design
541
5.2.2 Theoretical Overview of Safety and Risk Prediction in Conceptual Design
588
5.2.3 Theoretical Overview of Safety and Risk Assessment in Preliminary Design
607
5.2.4 Theoretical Overview of Safety and Risk Evaluation in Detail Design
627
5.3 Analytic Development of Safety and Risk in Engineering Design
676
5.3.1 Analytic Development of Safety and Risk Prediction in Conceptual Design
678
5.3.2 Analytic Development of Safety and Risk Assessment in Preliminary Design
687
5.3.3 Analytic Development of Safety and Risk Evaluation in Detail Design
702
5.4 Application Modelling of Safety and Risk in Engineering Design
725
5.4.1 Artificial Intelligence-Based (AIB) Blackboard Model
726
5.4.2 Evaluation of Modelling Results
776
5.4.3 Application Modelling Outcome
790
5.5 Review Exercises and References
791
A Design Engineer's Scope of Work 799
B Bibliography of Selected Literature 807
Index 811
Dr Frederick Rudolph Stapelberg is a registered professional engineer, also holding a Doctorate in Business Administration. He is currently Director for the engineering consultancy Industrial Consulting Services (ICS). In addition, Dr Stapelberg is Adjunct Professor to the Centre for Infrastructure Engineering and Management at Griffith University, Queensland, Australia and is a member of the executive management team for the Cooperative Research Centre for Integrated Engineering Asset Management.
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