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This book focuses on spearheading the integration of maintainability and green facility management right from the design stage. The text introduces the concept of green maintainability, and discusses considerations to maximize the performance by achieving resource and energy efficiency, while minimizing the total life cycle cost in embodied energy; environmental impact and consumption of matter/energy throughout the life cycle of a facility, by "doing it right the first time". In this edition, existing chapters have been brought up to date, to include contemporary sustainability concerns, such as: sustainability design, construction and materials, and maintainability of green features. Maintainability of Facilities is written for practitioners and students in architecture, engineering, building, real estate, construction, project management, facilities management, quantity and building surveying.
This book focuses on spearheading the integration of maintainability, starting right from the design stage. To enable such integration, improving the knowledge of maintainability and setting maintainability benchmarks are two key issues. These objectives are fulfilled with the development of a comprehensive defect library, a material manual and a maintainability scoring system. These tools serve to define acceptable standards in design and construction practices, thus enhancing long-term maintainability of facilities.Maintainability of Facilities: For Building Professionals aims to improve the standard and quality of design, construction and maintenance practices to produce efficient facilities that require minimum maintenance. The text covers technical issues related to maintainability of major components of a facility, and discusses the implications and selection of materials for high maintainability.The target readers are practitioners and students in architecture, engineering, building, real estate, construction, project management, facilities management, quantity and building surveying.
Focuses on spearheading the integration of maintainability, right from the design stage. This title aims to improve the standard and quality of design, construction and maintenance practices to produce efficient facilities that require minimum maintenance. It covers the technical issues related to maintainability of major components of a facility.
This book introduces a maintenance model that will assist decision-makers in their choice of building maintenance policies. The model is stochastic and condition-based that analyses the impact of different maintenance strategies on the durability and performance of different buildings envelope elements (facades, windows, and roofs). As non-structural elements, the maintenance of buildings envelope can be disregarded stakeholders. However, as first barrier to the external environment, these elements are critical to buildings' overall performance and are expected to meet aesthetic, comfort, safety, and durability requirements. The methodology presented is innovative. The maintenance model is based on a Petri net formalism and includes degradation, inspection, maintenance, and renewal processes. The model provides key information, such as: i) the impact of different maintenance strategies on the service life and durability of the building components; ii) the impact of maintenance on their performance over time; iii) the life cycle costs; and iv) the impact of maintenance on the buildings' use. The book will be of use to a variety of professionals in the construction sector.
With the motto of 'doing it right the first time', this book focuses on spearheading the integration of designers, constructors and Facility Management, by providing easy-to-read tables summarising knowledge learned from past mistakes and maintainability benchmarks. Based on the predictive/preventive approach, the tables serve to define acceptable standards in design, construction and operation practices, to ensure the standard and quality of design, construction and maintenance practices for high maintainability at the outset of the planning/design stage. The text covers technical issues related to major components of a facility for basements, wet areas, façades, common areas, roofs and M&E.Related Link(s)
"This book focuses on spearheading the integration of maintainability and sustainable facility management right from the planning & design stage. It introduces the concept of green maintainability and discusses considerations to maximize the performance; resource and energy efficiency, while minimizing a facility's total life cycle cost; embodied energy; carbon emission; environmental impact and consumption of matter/energy throughout its life cycle by "doing it right the first time". In this edition, the latest relevant codes of practices, regulations and standards are included. All chapters have been brought up to date to include contemporary sustainability concerns, such as sustainability design, construction and materials, and maintainability of green features. A new chapter on "Common Areas" has been added. Every chapter is summarized with an easy-to-use table to make the book more practical and user-friendly. Maintainability of Facilities is written for practitioners and students in architecture, engineering, building, real estate, construction, project management, facilities management, quantity and building surveying"--
The term Maintenance of a building refers to the work done for keeping an existing building in a condition where it can perform its intended functions. Usually, the buildings last only for 40 to 50 years in a good shape just because of regular inspection and maintenance that enable timely identification of deteriorated elements. Overlooked dilapidation, inadequate maintenance and lack of repair works may lead to limited life span of a building. This comprehensive book, striving to focus on the maintenance, repair & rehabilitation and minor works of a building, presents useful guidelines that acquaint the readers with the traditional as well as modern techniques for upkeeping and repairing of buildings already constructed. Dexterously organised into five parts, this book in Part I deals with the maintenance of buildings. Description of the construction chemicals, concrete repair chemicals, special materials used for repair, and repair of various parts of a building is given in Part II. Strengthening of reinforced concrete members by shoring, underpinning, plate bonding, RC jacketing and FRP methods are explored in Part III, which also highlights rebuilding of RC slabs and protection of earth slopes. Part IV of the book exposes the reader to the minor works done in a building such as construction of compound walls, gates, waters sumps, house garage, relaying of floors, joining two adjacent rooms and so on. Part V is based on some allied topics involving control on termites and fungus in buildings as well as introduction of Vaastu Shastra and its main recommendations for a single house in a plot. Using an engaging style, this book will prove to be a must-read for the undergraduate and postgraduate students of civil engineering as well as for the polytechnic and ITI diploma students. Besides, the book will also be of immense benefit to the technical professionals across the country. KEY FEATURES • The text displays several figures to make the concepts clear. • Chapter-end references make the text suitable for further study. • Appendices at the end of the text provide extra information on non-destructive field tests for survey of the condition of concrete buildings and rough estimation of the construction and maintenance costs of buildings.
Get the big picture in facility management and engineering for greater safety, efficiency, and economy A complete desktop reference, Facilities Engineering and Management Handbook -- by Paul Smith, Anand Seth, Roger Wessel, David Stymiest, William Porter and Mark Neitlich -- gives you all the tools you need for analyzing, comparing, anticipating, and managing the implications of engineering, maintenance, operating, and design decisions, and integrating facility systems for best results. The Handbook's life-cycle approach helps you put all relevant issues in context -- cost, durability, maintainability, operability, safety, and more -- so you can: Make farsighted, well-integrated decisions Coordinate architectural, structural, mechanical, electrical, HVAC, control instrumentation, and other needs in any type of building Handle today's concerns and technologies, such as smart buildings and telecommunications networks Visualize solutions with hundreds of illustrations Find information on all needed codes and standards governing facility design, installation, operation, and maintenance Evaluate loads on mechanical and other systems Use computer-aided systems Prepare a whole-facility economic analysis Apply useful guidance on complex specialized facilities, such as airports and industrial process plants—plus integrated complexes such as malls and government installations Plan for and integrate fire, safety, security, data, communications, lightning, controls, fuel, power, plumbing, and many other types of systems
Since 1994, the European Conferences of Product and Process Modelling (www.ecppm.org) have provided a review of research, development and industrial implementation of product and process model technology in the Architecture, Engineering, Construction and Facilities Management (AEC/FM) industry. Product/Building Information Modelling has matured sig
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.