This third book from editors Rick Best and Jim Meikle brings together and presents insights into a number of key concepts in the study of construction firms, projects and the group of activities that loosely define the construction industry. The value for readers comes from the collection of a variety of topics in a single volume, which provide a basic understanding of the complexities of construction as more than a set of practical concerns such as labour management and materials handling. Instead, the focus is on analysis of the industry and its component parts from the viewpoints of construction economists and others seeking to understand the drivers and challenges that shape an area of economic activity that is a major contributor in all economies. The aim of this book is to provide an overview and discussion of several aspects of what makes construction tick. It is unlike other industry sectors in many ways, being project-based with often intense competition for work. Where the first book, Measuring Construction, focused on particular areas associated with quantifying various aspects of construction activity and the second, Accounting for Construction, looked more at how we record and report on construction activity, Describing Construction gives readers the views of experts in the field of how the construction industry is described, what its make-up is, it even asks the question: is construction a single industry? This book will change the way most readers understand the 'construction industry', whatever that may be, not from the point of view of visible on-site activities, but through a scientific approach to analysis and understanding of how projects, firms and various sectors of the industry work and how things are changing and may continue to change in future. It is essential reading for students and researchers in construction management, quantity surveying, architecture and engineering.

Explores practical aspects of designing a detection layout. Enables users in interpreting a detector datasheet and coverage analysis. Teaches readers working on a project to cut through the marketing of detection and design an effective system. The inclusion of real-life experiences on projects will provide engineers with clear examples of where things can, and often do, go wrong.

Explores practical aspects of designing a detection layout. Enables users in interpreting a detector datasheet and coverage analysis. Teaches readers working on a project to cut through the marketing of detection and design an effective system. The inclusion of real-life experiences on projects will provide engineers with clear examples of where things can, and often do, go wrong.

1. Guides facility engineers and managers with a clear and logical exposition of topics, developments, and valuable regulatory frameworks for appropriate preparation and compliance. 2. Provides detailed explanations of procedures for emission reduction and improved efficiency and productivity. 3. Emphasizes the importance of continuing education in compliance to prevent high penalties for facilities. 4. Includes real-life applications and case studies on reducing energy baseline and current operating methods, providing formulas and calculations. 5. Addresses regulatory knowledge for operating systems in cities with a dense population in the US and countries with similar regulatory frameworks.

The Open Access version of this book, available at http://www.taylorfrancis.com, has been made available under a Creative Commons [Attribution-Non Commercial-No Derivatives (CC-BY-NC-ND)] 4.0 license. Funded by Linneaus University. It provides guidance on the design of timber buildings for fire safety, developed within the global network Fire Safe Use of Wood (FSUW) and with reference to Eurocode 5 and other international codes. It introduces the behaviour of fires in timber buildings and describes strategies for providing safety if unwanted fires occur. It provides guidance on building design to prevent any fires from spreading while maintaining the load-bearing capacity of structural timber elements, connections and compartmentation. Also included is information on the reaction-to-fire of wood products according to different classification systems, as well as active measures of fire protection, and quality of workmanship and inspection as means of fulfilling fire safety objectives. Presents global guidance on fire safety in timber buildings Provides a wide perspective, covering the whole field of fire safety design Uses the latest scientific knowledge, based on recent analytical and experimental research results Gives practical examples illustrating the importance of good detailing in building design Fire Safe Use of Wood in Buildings is ideal for all involved in the fire safety of buildings, including architects, engineers, firefighters, educators, regulatory authorities, insurance companies and professionals in the building industry.

This book introduces the fundamental design concepts of Eurocode 3 for steel structures in building construction, and their practical application. Following a discussion of the basis of design, above all the principles of the limit state approach, the material standards and their use are detailed. The fundamentals of structural analysis and modeling are presented, followed by the design criteria and approaches for various types of structural members. The following chapters expand on the principles and applications of elastic and plastic design, each exemplified by the step-by-step design calculation of a braced steel-framed building and an industrial building, respectively. Besides providing the necessary theoretical concepts for a good understanding, this manual intends to be a supporting tool for practicing engineers. To that end, numerous worked examples are provided throughout the book, concerning the analysis of steel structures and the design of elements under several types of actions. These examples facilitate the application of Eurocode regulations in practice. The second edition contains more worked examples and extended explications on issues like torsion.

Combined experience of well-regarded academic and professional author who has a long and illustrious career in the region Broad market across growing Australian construction sector, over 11000 students in any one year plus professionals starting careers Includes case studies, discussion questions, online support materials

The Future of Modular Architecture presents an unprecedented proposal for mass-customized mid- and high-rise modular housing that can be manufactured and distributed on a global scale. Advocating for the adoption of open-source design based on a new modular standard, the book shows how the construction industry and architectural practice may soon be radically reshaped. By leveraging the existing intermodal freight transport system, global supply chains can be harnessed to realize the long-held promise that housing will be a well-designed and affordable industrial product. We are on the cusp of a transformative change in the way we design and build our cities. Author David Wallance argues that modular architecture is profoundly intertwined with globalization, equitable urbanism, and sustainable development. His book addresses these timely issues through a specific approach grounded in fundamental concepts. Going beyond the individual modular building, Wallance forecasts the emergence of a new type of design, manufacturing, and construction enterprise. Written in an approachable style with illustrated examples, the book is a must read for professionals in architecture and design, city planning, construction, real estate, as well as the general reader with an interest in these topics.

Describes the outbreak of compartment fires, and the mechanisms for best controlling them Derives simple analytical relationships from first principles and shows how to compare the derived equations with experimental data Provides the calculational procedures and computer models needed to design a building for safety Cites the most up to date standards and references throughout Includes numerous chapter problems to test student readers' understanding of fire behavior

This guide to estimating uncertainties in the measurement, prediction and assessment of noise and vibration applies across environmental noise and vibration, occupational noise and vibration exposure, and building and architectural acoustics. The book collates information from the various Standards and from research, with explanation, examples and case studies. It enables estimation of uncertainty in the measurement and prediction of acoustic quantities, suitable for use in environmental impact and occupational exposure assessments. It is for acoustic consultants, mechanical and building service engineers, architect and building professionals and environmental health officers. Bob Peters worked for more than forty years in acoustics and noise control - teaching, research, consultancy. He was a principal acoustic consultant with Applied Acoustic Design, a senior research fellow at London South Bank University, and a tutor on Institute of Acoustics distance learning courses.

Solid-Liquid Thermal Energy Storage: Modeling and Applications provides a comprehensive overview of solid-liquid phase change thermal storage. Chapters are written by specialists from both academia and industry. Using recent studies on the improvement, modeling, and new applications of these systems, the book discusses innovative solutions for any potential drawbacks. This book: Discusses experimental studies in the field of solid-liquid phase change thermal storage Reviews recent research on phase change materials Covers various innovative applications of phase change materials (PCM) on the use of sustainable and renewable energy sources Presents recent developments on the theoretical modeling of these systems Explains advanced methods for enhancement of heat transfer in PCM This book is a reference for engineers and industry professionals involved in the use of renewable energy systems, energy storage, heating systems for buildings, sustainability design, etc. It can also benefit graduate students taking courses in heat transfer, energy engineering, advanced materials, and heating systems.

* Introduces ethical dilemmas aspiring construction professionals will face on the job-and the critical thinking skills to reason their way out of them * Completely revised and updated to reflect changes in construction technology, workforce composition, and working environments * Updated to include brand-new chapters on social media, privacy and technology, and construction during a disease outbreak or natural disaster alongside chapters on perennial issues surrounding the environment, diversity, compliance and more * Enriched with real-life case studies drawn from the authors' decades of industry experience * Ideal reading for courses in professional ethics, leadership, construction law, workforce readiness, and continuing education * Includes downloadable PowerPoints, question banks, and other resources for instructors

Introduction to Construction Management, Second Edition, is the beginner's guide to key concepts, terms, processes and practices associated with modern construction management. The new edition has been fully updated with new data, case studies and enhancements and remains the most practical and accessible book on the subject available. Significant new topics have been added including construction ethics, coverage of mental health and wellbeing in the industry, project delivery and Construction 4.0, to make this the most cutting-edge book available for students on construction and engineering management courses. Supported by diagrams, illustrations and case studies, the book starts with a general introduction to the industry and covers the relevant management theory before providing applied coverage of: Production management Commercial management Quality management Health and Safety management Environmental management This is the most approachable text available for anyone starting to learn about construction management at any level.

-Showcases practical ways PreK-12 teachers can implement sustainable projects and practices in their classrooms and schools, from beginner projects (recycling, composting, gardens) to school-wide initiatives (energy audits, building community partnerships). -Includes real-world case studies from the US and elsewhere, including action photos and detailed walkthroughs of green schools in action. -Focuses on low- or no-budget projects for teachers, as well as those that foster the development of critical thinking skills, promote project-based learning, and consider the environment as a learning tool. -Includes additional resources for teachers and schools to further embed sustainability in their programs and curriculum.

Originally published in 1948, A History of Cast Iron in Architecture is a comprehensive history of the part that has been played by cast iron in architecture and the allied arts in Britain. Any history of the rise and development of the iron-founding industry becomes virtually a history of the First Industrial Revolution. Examining the use of cast iron by builders and architects from late medieval times to the middle of the 20th Century the authors have also recorded a miniature history of British Industry. The introduction throws light on the early developments of iron-founding. The main sections of the book describe the rise and expansion of the cast-iron industry and its gradually increasing significance in architecture from 1650 to 1945. There are over 500 illustrations.

Fire and combustion presents a significant engineering challenge to mechanical, civil and dedicated fire engineers, as well as specialists in the process and chemical, safety, buildings and structural fields. We are reminded of the tragic outcomes of 'untenable' fire disasters such as at King's Cross underground station or Switzerland's St Gotthard tunnel. In these and many other cases, computational fluid dynamics (CFD) is at the forefront of active research into unravelling the probable causes of fires and helping to design structures and systems to ensure that they are less likely in the future.
Computational fluid dynamics (CFD) is routinely used as an analysis tool in fire and combustion engineering as it possesses the ability to handle the complex geometries and characteristics of combustion and fire. This book shows engineering students and professionals how to understand and use this powerful tool in the study of combustion processes, and in the engineering of safer or more fire resistant (or conversely, more fire-efficient) structures.
No other book is dedicated to computer-based fire dynamics tools and systems. It is supported by a rigorous pedagogy, including worked examples to illustrate the capabilities of different models, an introduction to the essential aspects of fire physics, examination and self-test exercises, fully worked solutions and a suite of accompanying software for use in industry standard modeling systems.
-Computational Fluid Dynamics (CFD) is widely used in engineering analysis; this is the only book dedicated to CFD modeling analysis in fire and combustion engineering
-Strong pedagogic features mean this book can be used as a text forgraduate level mechanical, civil, structural and fire engineering courses, while its coverage of the latest techniques and industry standard software make it an important reference for researchers and professional engineers in the mechanical and structural sectors, and by fire engineers, safety consultants and regulators
-Strong author team (CUHK is a recognized centre of excellence in fire eng) deliver an expert package for students and professionals, showing both theory and applications. Accompanied by CFD modeling code and ready to use simulations to run in industry-standard ANSYS-CFX and Fluent software.

- Applies VR/AR based methodology for Architecture and Design field of research; - Presents case studies which used VR/AR for Architecture and Design; - Provides a multidisciplinary point-of-view of VR/AR and its application in Architecture and Design; - Clarifies concepts of VR/AR and their application in the field of Architecture and Design.

* Shares classroom-tested strategies for maximizing undergraduates' learning in built environment disciplines * Adapts teaching methods from the authors' award-winning classrooms, studios, and labs to any higher education setting * Provides an ideal resource for built environment faculty, from first timers to veteran educators * Distills the latest research on teaching and learning in design and construction disciplines

This book contains the invited lectures presented at the 3th International Symposium on Geotechnical Engineering for the Preservation of Monuments and Historic Sites (IS NAPOLI 2022, Naples, Italy, 22-24 June 2022). It collects the opening address, the third Kerisel Lecture, four keynote lectures and eleven panel lectures, and provides a broad impression of 1. the current state of knowledge and 2. the techniques used worldwide for the preservation of built heritage. When confronted with structures relevant to local and global history, there is only one way to select the best possible conservation solution: the multidisciplinary approach. Therefore, the invited speakers have been selected with different pertinent skills, to represent this complexity from the points of view of geotechnical engineers, structural engineers, architects and conservation experts. The book will be useful to researchers, practitioners, administrations and all those working or interested in the preservation of built heritage.

* Takes the reader through the entire development process from land acquisition to completion and refinancing or sale * Aimed out aspiring professionals looking to move into development from other areas * Includes a glossary of terms

Thousands of buildings have also been identified with flammable cladding, many landlords and renters will have had financial challenges which have resulted from this or other similar defects issues and could relate to this book. This book is contemporary, unique as it focuses the latest significant built environment issues, and is relevant to a wide range of readers, including construction and property management discipline students, government policy makers, construction and property professionals and general consumers.

This new and substantially revised edition of Heritage Planning: Principles and Process offers an extensive overview of the burgeoning fields of heritage planning and conservation. Positioning professional practice within its broader applied and theoretical contexts, the authors provide a firm foundation for understanding the principles, history, evolution, debates, and tools that inform heritage planning, while also demonstrating how to effectively enact these processes. Few published works focus on the practice of heritage planning. The first edition of this book was developed to fill this gap, and this second edition builds upon it. The book has been expanded in scope to incorporate new research and approaches, as well as a wide range of international case studies. New themes reflect the emerging recognition that sustainability, climate resilience, human rights, social justice, and reconciliation are fundamental to the future of planning. Heritage Planning is indispensable reading, not only for professionals who transform the built environment, but for anyone who wants to understand the ideas and practices of heritage planning and conservation. For the benefit of student readers, twelve chapters-designed to accommodate the academic semester-are augmented with concise summaries, key terms and definitions, questions, and learning objectives.

Unique contribution to Construction Management and Infrastructure Development literature Highly practical guidance for policy makers looking to use construction to stimulate economic growth

Synergistic Design of Sustainable Built Environments introduces and illustrates a novel systems approach that fosters both design excellence and a leap toward a more biocentric (ecologically sustainable) design paradigm. The book provides a deeper understanding of the theories and principles of biocentric design and offers detailed descriptions of the synergistic design process of integrating theories and principles into practice. It also presents extensive thermal and visual built environment design strategies, along with qualitative and quantitative information that designers can use to generate feasible solutions in response to varying climate and occupant comfort. Features: Examines the principles and practices of the synergistic design (a fusion of anthropocentric and biocentric) of sustainable built environments and how they relate to practical applications. Presents climatic data and its analysis along with sun-path diagrams for numerous cities to aid in the design of sustainable built environments in multiple regional contexts. Includes numerous case studies of sustainable built environments in varying climatic zones. Explains how renewable energy (solar, wind, biomass, geothermal, hydro, fuel cells) can be successfully integrated in the built environment. This forward-thinking and highly illustrated book will be an invaluable reference to all those concerned with sustainable built environments and related architectural issues.

This book covers a wide range of topics relating to the health and wellbeing of the construction workforce. Based on more than a decade of work examining various aspects of workers' health and wellbeing, the book addresses a key topic in construction management: how the design of work environments, construction processes and organisation of work impact upon construction workers' physical and psychological health. Occupational health is a significant problem for the construction industry. However, the subject of health is usually treated as an afterthought in other books which emphasise safety issues. Traditional management approaches (focused on the prevention of accidents and injuries) are arguably ill-suited to addressing issues of workers' health and wellbeing. The evidenced informed approach in this book provides a rich analysis of how construction workers' health and wellbeing are impacted by working in the construction industry, and critical information about how organisations (and decision-makers within them) can create workplaces and practices that are supportive and enable construction workers to maintain healthy and productive working lives. Including chapter summaries and discussion questions to encourage student readers to reflect on and formulate their own viewpoints about the issues raised in each chapter, the book has the potential to be used as a textbook in undergraduate or postgraduate occupational health and safety, or construction management courses dealing with occupational health and safety. It could also be used as supplementary, recommended reading in undergraduate or postgraduate programs in architecture, engineering or management.