Systems Subject to Repair and Maintenance Actions
Systems Subject to Repair and Maintenance Actions

Author: Diederik Lugtigheid

Publisher:

Published: 2008

Total Pages: 592

ISBN-13: 9780494400050

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In maintenance and reliability, the use of systems that are repairable is growing every year, as consumers and manufacturers are gradually moving away from "throw-away" products for economical and environmental reasons. In contrast to non-repairable systems for which the only decision to be made is the "when to replace" decision, for repairable systems the decisions to be made are more complex. Not only needs the "when to replace" decision be addressed, but in addition also the "when to repair" and "what to repair" decisions. This makes the optimization of repairable systems complex. Furthermore, the formulation of repairable systems optimization problems is influenced by the business context that surrounds the system under consideration. Therefore, at least in theory, numerous repairable system optimization models can be formulated, where each is defined by the system itself and the business context it belongs to. The first model, called the General Repair Restriction Model (GRRM), addresses the question when to replace or repair a repairable system over a finite horizon when the number of repairs to which the system can be subjected to is restricted. Also, the system owner does not have information on the detailed repair activities that are being carried out, and/or cannot control the "what to repair" decision due to the outsourcing of system repairs to specialized repair centres. A dynamic programming approach will be used to derive the structure of the optimal policies. The second model, called the Repair and Maintenance Indicator Model (RMI), addresses the same question when the system owner does have access to detailed repair information and can control the "what to repair" decision. The RMI model is a new repairable system model, and is aimed to accommodate a greater variety of repairable systems. Besides the capability to address the "what to repair" question, the RMI model can also identify the most critical parts of a system, which may be of particular importance to OEMs (Original Equipment Manufacturers) when prioritizing design modifications aimed to improve system reliability. The general purpose of the RMI model (in contrast to models previously published in the literature) is to establish a clear decision rule in terms of the parts to be replaced in each repair, and therefore goes beyond the traditional "age-reduction" or "intensity-reduction" factors which have been frequently used to specify the "degree of repair" whenever the system is in the repair shop. This will be of particular benefit for tradepersons in the repair shop, as the RMI model will establish not only the "degree of repair" but also how to accomplish this "degree" in more practical terms. Besides the theoretical results, for both models several examples and case studies will be presented. The case studies are based on real problems commonly encountered in industry. The case studies show that both models are realistic, with considerable practical applications. In this thesis, two repairable system optimization models will be addressed. These two models are based on two commonly found business contexts in industry (in particular the mining industry), but have not been addressed so far in the maintenance and reliability literature.

Design for Maintainability
Design for Maintainability

Author: Louis J. Gullo

Publisher: John Wiley & Sons

Published: 2021-02-23

Total Pages: 400

ISBN-13: 1119578515

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How to design for optimum maintenance capabilities and minimize the repair time Design for Maintainability offers engineers a wide range of tools and techniques for incorporating maintainability into the design process for complex systems. With contributions from noted experts on the topic, the book explains how to design for optimum maintenance capabilities while simultaneously minimizing the time to repair equipment. The book contains a wealth of examples and the most up-to-date maintainability design practices that have proven to result in better system readiness, shorter downtimes, and substantial cost savings over the entire system life cycle, thereby, decreasing the Total Cost of Ownership. Design for Maintainability offers a wealth of design practices not covered in typical engineering books, thus allowing readers to think outside the box when developing maintainability design requirements. The books principles and practices can help engineers to dramatically improve their ability to compete in global markets and gain widespread customer satisfaction. This important book: Offers a complete overview of maintainability engineering as a system engineering discipline Includes contributions from authors who are recognized leaders in the field Contains real-life design examples, both good and bad, from various industries Presents realistic illustrations of good maintainability design principles Provides discussion of the interrelationships between maintainability with other related disciplines Explores trending topics in technologies Written for design and logistics engineers and managers, Design for Maintainability is a comprehensive resource containing the most reliable and innovative techniques for improving maintainability when designing a system or product.

Handbook of Maintenance Management and Engineering
Handbook of Maintenance Management and Engineering

Author: Mohamed Ben-Daya

Publisher: Springer Science & Business Media

Published: 2009-07-30

Total Pages: 745

ISBN-13: 1848824726

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To be able to compete successfully both at national and international levels, production systems and equipment must perform at levels not even thinkable a decade ago. Requirements for increased product quality, reduced throughput time and enhanced operating effectiveness within a rapidly changing customer demand environment continue to demand a high maintenance performance. In some cases, maintenance is required to increase operational effectiveness and revenues and customer satisfaction while reducing capital, operating and support costs. This may be the largest challenge facing production enterprises these days. For this, maintenance strategy is required to be aligned with the production logistics and also to keep updated with the current best practices. Maintenance has become a multidisciplinary activity and one may come across situations in which maintenance is the responsibility of people whose training is not engineering. This handbook aims to assist at different levels of understanding whether the manager is an engineer, a production manager, an experienced maintenance practitioner or a beginner. Topics selected to be included in this handbook cover a wide range of issues in the area of maintenance management and engineering to cater for all those interested in maintenance whether practitioners or researchers. This handbook is divided into 6 parts and contains 26 chapters covering a wide range of topics related to maintenance management and engineering.

Maintenance models for systems subject to measurable deterioration
Maintenance models for systems subject to measurable deterioration

Author: Robin Pieter Nicolai

Publisher: Rozenberg Publishers

Published: 2008

Total Pages: 198

ISBN-13: 9051709978

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Complex engineering systems such as bridges, roads, flood defence structures, and power pylons play an important role in our society. Unfortunately such systems are subject to deterioration, meaning that in course of time their condition falls from higher to lower, and possibly even to unacceptable, levels. Maintenance actions such as inspection, local repair and replacement should be done to retain such systems in or restore them to acceptable operating conditions. After all, the economic consequences of malfunctioning infrastructure systems can be huge. In the life-cycle management of engineering systems, the decisions regarding the timing and the type of maintenance depend on the temporal uncertainty associated with the deterioration. Hence it is of importance to model this uncertainty. In the literature, deterioration models based on Brownian motion and gamma process have had much attention, but a thorough comparison of these models lacks. In this thesis both models are compared on several aspects, both in a theoretical as well as in an empirical setting. Moreover, they are compared with physical process models, which can capture structural insights into the underlying process. For the latter a new framework is developed to draw inference. Next, models for imperfect maintenance are investigated. Finally, a review is given for systems consisting of multiple components.

Advanced Techniques for Maintenance Modeling and Reliability Analysis of Repairable Systems
Advanced Techniques for Maintenance Modeling and Reliability Analysis of Repairable Systems

Author: Garima Sharma

Publisher: John Wiley & Sons

Published: 2023-11-07

Total Pages: 228

ISBN-13: 1394174438

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ADVANCED TECHNIQUES FOR MAINTENANCE MODELING AND RELIABILITY ANALYSIS OF REPAIRABLE SYSTEMS This book covers advanced models and methodologies for reliability analysis of large, complex, and critical repairable systems that undergo imperfect maintenance actions in industries having MRO facilities and also covers real-life examples from the field of aviation. The content presented in this book is inspired by the existing limitations of the generalized renewal process (GRP) model and the problems confronted by the maintenance, repair, and operations (MRO) facilities in industries dealing with large and complex repairable systems. Through this book, the authors have attempted to equip the MRO facilities with more advanced scientific tools and techniques by addressing various limitations related to the reliability analysis of repairable systems. The book is dedicated to various imperfect maintenance-based virtual age models and methodologies to bridge various research gaps present in the available literature. A summary of deliverables is as follows: Presents the basic concepts of maintenance and provides a virtual age model that can accommodate all maintenance; Provides the basic concepts of censoring in repairable systems along with the concept of black box and failure modes. Also highlighted is how the proposed work will be useful for industries conducting failure modes and effect analysis (FMEA) and estimating the mean residual life (MRL) of repairable systems; Presents methodology that applies risk-based threshold on intensity function and provides a threshold to declare the system/component as high failure rate components (HFRCs); Identifying a system as HFRCs is an important task, but for an industry dealing with critical systems, preventing the system from being HFRC is more important, since the risk involved in such systems would be very high. Thus, the book presents a progressive maintenance policy (PMP) for repairable systems; Focusses on qualitative analysis of repair quality. Assuming repair quality as a subjective variable, the authors have presented various factors that affect the repair quality most and modeled their interdependency using Bayesian networks (BN). Audience Professional reliability engineers, reliability administrators, consultants, managers, and post-graduate students in engineering schools. The book belongs to any engineering, technical, and academic institution concerned with manufacturing, production, aviation, defense, and software industries.

Maintenance for Industrial Systems
Maintenance for Industrial Systems

Author: Riccardo Manzini

Publisher: Springer Science & Business Media

Published: 2009-11-09

Total Pages: 479

ISBN-13: 1848825757

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New, global and extended markets are forcing companies to process and manage increasingly differentiated products with shorter life cycles, low volumes and reduced customer delivery times. In today’s global marketplace production systems need to be able to deliver products on time, maintain market credibility and introduce new products and services faster than competitors. As a result, a new production paradigm of a production system has been developed and a supporting management decision-making approach simultaneously incorporating design, management, and control of the production system is necessary so that this challenge can be effectively and efficiency met. "Maintenance Engineering and its Applications in Production Systems" meets this need by introducing an original and integrated idea of maintenance: maintenance for productivity. The volume starts with the introduction and discussion of a new conceptual framework based on productivity, quality, and safety supported by maintenance. Subsequent chapters illustrate the most relevant models and methods to plan, organise, implement and control the whole maintenance process (reliability evaluation models and prediction, maintenance strategies and policies, spare parts management, computer maintenance management software – CMMS, and total productive maintenance – TPM, etc.). Several examples of problems supported by solutions, and real applications to help and test the reader’s comprehension are included. "Maintenance Engineering and its Applications in Production Systems" will certainly be valuable to engineering students, doctoral and post-doctoral students and also to maintenance practitioners, as well as managers of industrial and service companies.

Replacement Models with Minimal Repair
Replacement Models with Minimal Repair

Author: Lotfi Tadj

Publisher: Springer Science & Business Media

Published: 2011-03-31

Total Pages: 277

ISBN-13: 0857292153

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Replacement Models with Minimal Repair is a collection of works by several well-known specialists on the subject of minimal repair in replacement policies. It gives an exhaustive list of minimal repair models for the effective planning of minimal repair and maintenance actions. Written in an engaging style, Replacement Models with Minimal Repair balances complex mathematical models with practical applications. It is divided into six parts that cover: mathematical modeling of minimal repair; preventive maintenance models and optimal scheduling of imperfect preventive maintenance activities; a new warranty servicing strategy with imperfect repair; mathematical models combining burn-in procedure and general maintenance policies; methods for parameters’ estimation of minimal repair models; and product support. Replacement Models with Minimal Repair is for anyone with an interest in minimal repair and its impact on maintenance policies and strategies. It is a particularly useful resource for researchers, practitioners, and graduate students.

Selective Maintenance for Systems Under Imperfect Maintenance Policy
Selective Maintenance for Systems Under Imperfect Maintenance Policy

Author: Mayank Kumar Pandey

Publisher:

Published: 2014

Total Pages: 180

ISBN-13:

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Due to the advent of complex engineering systems in the last few decades, reliability and maintenance issues are gaining more attention than ever. Maintenance is important to keep a system running and ensure that it performs its functions satisfactorily. Often, there are limited resources to complete the maintenance of a system. Such a limitation may arise due to limited budget, time, or repairman availability, etc. Under these circumstances, it is required to optimally allocate the available resources in a way that selected components within a system and maintenance actions performed on the selected components assure satisfactory performance of the system after maintenance. This maintenance policy is called selective maintenance. At the time of maintenance, it is not always necessary that a system is replaced. It may undergo other maintenance options instead, such as minimal repair (when a failed system is as bad as old after maintenance) or imperfect maintenance (better than minimal repair but not as good as a new component). This Ph.D. research studies the selective maintenance modeling for systems when imperfect maintenance is also possible in addition to replacement and minimal repair. Models are developed in this thesis to reflect the effect of different maintenance actions on system reliability. In juxtaposition with these models, selective maintenance policy is developed for systems. A maintenance policy is influenced by several factors such as the age of the system, failure modes in the system, maintenance history, and the performance levels of the system. At first in this thesis, the effect of the system age and maintenance budget on the maintenance decision is modeled and selective maintenance is performed. A single mission selective maintenance model is developed for a system that can exist in any of the two possible states: working and failed (also called binary system), and all failures within the system are maintainable. Maintenance may or may not affect different failure modes in a system, and accordingly the system can be maintainable and non-maintainable with respect to these failure modes. Therefore, the presence of these two types of failures in a binary system is also studied and a single mission selective maintenance problem is solved. If maintenance is required more than once in a given planning horizon, then the single mission selective maintenance is no longer adequate. In these conditions, the time to perform maintenance is important in order to keep a system reliable throughout the planning horizon. Hence, maintenance scheduling is required for a system along with the selective maintenance decision during each of the maintenance breaks. Thus, the selective maintenance scheduling problem is solved for a binary system in this thesis. Conventionally, it is assumed that a system has binary states. But a system may also have more than two performance states. For such a multistate system, the binary selective maintenance model is not applicable. Therefore, a comprehensive model is developed in this thesis for selective maintenance of a multistate system. The proposed selective maintenance models are applied to different examples. The results demonstrate the effectiveness and advantages of the proposed models.

Complex System Maintenance Handbook
Complex System Maintenance Handbook

Author: Khairy Ahmed Helmy Kobbacy

Publisher: Springer Science & Business Media

Published: 2008-04-15

Total Pages: 649

ISBN-13: 1848000111

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This utterly comprehensive work is thought to be the first to integrate the literature on the physics of the failure of complex systems such as hospitals, banks and transport networks. It has chapters on particular aspects of maintenance written by internationally-renowned researchers and practitioners. This book will interest maintenance engineers and managers in industry as well as researchers and graduate students in maintenance, industrial engineering and applied mathematics.