Advances in System Reliability Engineering /

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" Advances in System Reliability Engineering / "
edited by Mangey Ram, J. Paulo Davim.

Document Type	:	BL
Record Number	:	872533
Title & Author	:	Advances in System Reliability Engineering /\ edited by Mangey Ram, J. Paulo Davim.
Publication Statement	:	London :: Elsevier Ltd. :: Academic Press,, 2018.
Page. NO	:	1 online resource
ISBN	:	0128159065
	:	: 0128162724
	:	: 9780128159064
	:	: 9780128162729
Contents	:	Front Cover; Advances in System Reliability Engineering; Copyright; Contents; Contributors; Editors Biography; Preface; Acknowledgments; Chapter 1: Delay-Time-Based Maintenance Modeling for Technical Systems-Theory and Practice; 1. Introduction; 2. Delay-Time Models for Single-Unit Systems; 2.1. Delay-Time Models for Single-Unit Systems With a Two-Stage Failure Process; 2.1.1. DTM for a Single-Defect Case; 2.1.2. DTM for a Multidefect Case; 2.1.3. Approximation Modeling Case; 2.1.4. Preparedness Systems Maintenance Case; 2.1.5. Postponed Maintenance Case
	:	2.2. Delay-Time Models for Single-Unit Systems With a Three-Stage Failure Process2.3. Other Maintenance Models for Single-Unit Systems Where DTA Has Been Used; 3. Delay-Time Models for Multiunit Systems; 3.1. Delay-Time Models for Complex Systems; 3.1.1. Delay-Time-Based Models With Parameters Estimation; 3.1.2. Basic DT Models for Complex Systems; 3.1.3. Hybrid Delay-Time Based Models; 3.1.4. Delay-Time-Based Model Applications; 3.1.5. Other Maintenance Models Where DTA Has Been Used; 3.2. Delay-Time Models for Systems With Nonseries Reliability Structures; 4. Case Study
	:	3.3. Human Actions Analysis3.4. Analysis of Plant Response; 3.5. Acceptance Criteria Selection; 3.6. Selection of Modification Alternatives; 3.7. Definition of Design and Operational Requirements; 4. Probabilistic Safety Analysis (PSA); 4.1. Scope of PSA; 4.2. Initiating Event Analysis; 4.3. Database/Operational Practices Analysis; 4.4. Reliability/Availability Analysis; 4.5. Human Reliability Analysis (HRA); 4.6. Scenario Modeling; 4.7. Event Sequence Frequency Assessment; 4.8. Consequence Assessment; 4.9. Risk Assessment and Integration; 4.10. Safety Goal Definition
	:	4.11. Selection of Modification Alternatives4.12. Design and Operational Requirements; 5. Techniques for Safety Analysis; 5.1. Available Techniques for DSA and PSA; 5.2. Choosing Adequate Techniques for DSA and PSA; 6. PSA as a Complement to DSA; 7. Case Study; 7.1. Deterministic Safety Analysis (DSA) Applied to the Case Study; 7.2. Probabilistic Safety Analysis (PSA) Applied to the Case Study; 8. Conclusions; Acknowledgments; References; Further Reading; Chapter 3: Reliability-Game Theory; 1. Problems and Basic Concepts; 2. Analysis for Reliability Problems; 2.1. Model 1
	:	5. Summary and Directions for Future ResearchReferences; Chapter 2: Deterministic and Probabilistic Safety Analyses; 1. Introduction; 2. Concepts on Safety Analysis; 2.1. As Low as Reasonably Practicable (ALARP); 2.2. Defense-in-Depth; 2.3. Design Basis Accidents (DBAs); 2.4. Deterministic Safety Analysis (DSA); 2.5. Endpoint Distance; 2.6. Exclusion Area; 2.7. Hazard; 2.8. Probabilistic Safety Analysis (PSA); 2.9. Risk; 2.10. Safety; 2.11. Single Failure; 3. Deterministic Safety Analysis (DSA); 3.1. Identification of Design Basis Events; 3.2. Equipment Performance Analysis
Abstract	:	Recent Advances in System Reliability Engineering describes and evaluates the latest tools, techniques, strategies, and methods in this topic for a variety of applications. Special emphasis is put on simulation and modelling technology which is growing in influence in industry, and presents challenges as well as opportunities to reliability and systems engineers. Several manufacturing engineering applications are addressed, making this a particularly valuable reference for readers in that sector.
Subject	:	Reliability (Engineering)
Subject	:	Time delay systems.
Subject	:	Wind power.
Subject	:	Reliability (Engineering)
Subject	:	TECHNOLOGY ENGINEERING-- Engineering (General)
Subject	:	TECHNOLOGY ENGINEERING-- Reference.
Subject	:	Time delay systems.
Subject	:	Wind power.
Dewey Classification	:	‭620.00452‬
LC Classification	:	‭TA169‬
Added Entry	:	Davim, J. Paulo
	:	Ram, Mangey

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