Digital Transformation in the Construction Industry: Sustainability, Resilience, and Data-Centric Engineering delivers timely and much sought-after guidance related to novel, digital-first practices and the latest technological tools whose gradual adoption is being embraced to significantly reshape the way buildings and other infrastructure assets are designed, constructed, operated, and maintained. The book contains methodological and practice-informed investigations by scholars and researchers from across the globe, providing a wealth of knowledge relevant for, and applicable to, different geographical and economic contexts that are coherently collated in this comprehensive resource.This systematic analysis of cutting-edge developments [such as such as Building Information Modeling (BIM), Internet of Things (IoT), Artificial Intelligence (AI), Machine Learning (ML), Big Data, Augmented Reality (AR), Virtual Reality (VR), 3D Printing, and Structural Health Monitoring (SHM)] is accompanied by discussions on challenges and opportunities that digitalization engenders. Additionally, real-word case studies enrich the coverage, highlighting how these innovative solutions can contribute to establish working efficiencies which can at the same time aid the impactful realization of globally recognized sustainability goals.
Today, software applications make cost estimation and management easier than ever before, but the role played by a construction professional who undertakes financial control and performance of a project remains as crucial as ever. Digital Management of Construction Costs provides readers with a route to understand how technology is dynamically transforming the construction sector and informs them of digital-first practices that can lead to more accurate forecasting and budgeting during the planning process, benchmarking, and monitoring throughout the expected delivery timeline. Theoretical principles and methodological techniques are accompanied by applied investigations of cases where improved efficiencies brought about by the uptake of novel solutions have led to successful bids or project completion. Added value is also provided by findings of the literature review, a framework conceptualized within the context of digitalization, and a discussion on future directions and implications.Written by experts in academia who aim to foster further subject matter research by compiling a useful reference resource, this book proves to be beneficial to both early-career practitioners and professionals in a more advanced stage of their career who wish to keep abreast of the most recent developments in their field.
Recent Developments and Innovations in the Sustainable Production of Concrete covers the various aspects of sources, materials, and waste products in concrete production, innovation in materials-new technological developments, and the upgradation of existing concrete production systems. Importantly, it covers the so-called EEE aspects (Economy, Energy, and Environment), not touched by other books. The books also highlights the sustainability aspects of concrete production when recycled materials are added. Case studies are used to demonstrate the practical aspect of concrete production, including the machine learning approach.
Maintenance Engineering for Buildings: Digital Solutions and Sustainable Practices offers a thorough body of knowledge on organizational frameworks, assessment models, and digital tools to carry out maintenance procedures aimed at keeping edifices and many other assets in the urban landscape not only in good working condition, but also compliant with regulatory safety requirements and environmental standards. As well as covering current research and the best practice in the field, the volume is enriched by a number of case studies taken from the educational sector which explore how recent developments and other trends from are being applied in different geographical and economic contexts.This reference work stands out for its invaluable relevance to audiences both in industry and academia, while also serving as an excellent reference resource for future works in the area.
Sustainability and Toxicity of Building Materials: Manufacture, Use and Disposal Stages provides a review of toxicity impacts from building materials, including the consideration of the toxicity in the extraction and manufacture of the materials and eventual dismantling and disposal. This book also offers the potential to stimulate future developments in this area, both in terms of knowledge-building and methods for future research. With the increasing emphasis on sustainable construction, it has become important to better understand the impacts of common materials. Civil and structural engineers, postgraduates, researchers as well as architects will find this book to be useful in selecting sustainable building materials.While many building and furnishing materials are safe to use, in recent decades, some have had to be redesigned due to recognition that they contained problem chemicals like formaldehyde. Unfortunately, there is still limited understanding of the toxic impacts of many synthetic chemicals which means that the risks in this area are not well recognized. With increasing interest in using limited resources more sustainably, definitions of what is sustainable should be expanded to move from the focus on energy and carbon impacts to also include more explicit consideration of toxicity impacts.
Energy-Efficient Retrofit of Buildings by Interior Insulation: Materials, Methods and Tools offers readers comprehensive coverage of current research in German Language Countries. Chapters provide an overview on the development of energy efficiency for building retrofits and the role of internal insulation, cover materials with chapters on Brick, Wood, Plaster, Clay, and Natural Stone, explain the impact of internal insulation in those materials and how to cope with problems such as moisture build, mold and algae growth, provide practical advice on how to apply internal insulation in the most effective way, including Salt Efflorescence, Noise Protection, Fire Prevention, and more. The practical approach of the book, with examples in all chapters, makes it valuable for Civil and Architectural Engineers involved with building retrofit. The book may also be useful to researchers in the field of Building Physics due to the breadth of the coverage.
Highway Engineering: Planning, Design, and Operations, Second Edition, presents a clear and rigorous exposition of highway engineering concepts, including project development and the relationship between planning, operations, safety and highway types. The book includes important topics such as corridor selection and traverses, horizontal and vertical alignment, design controls, basic roadway design, cross section elements, intersection and interchange design, and the integration of new vehicle technologies and trends. It also presents end of chapter exercises to further aid understanding and learning. This edition has been fully updated with the current design policies and reference manuals essential for highway, transportation, and civil engineers who are required to work to these standards.
Sustainable Construction Technologies: Life-Cycle Assessment provides practitioners with a tool to help them select technologies that are financially advantageous even though they have a higher initial cost. Chapters provide an overview of LCA and how it can be used in conjunction with other indicators to manage construction. Topics covered include indoor environment quality, energy efficiency, transport, water reuse, materials, land use and ecology, and more. The book presents a valuable tool for construction professionals and researchers that want to apply sustainable construction techniques to their projects. Practitioners will find the international case studies and discussions of worldwide regulation and standards particularly useful.
Rehabilitation of Concrete Structures with Fiber Reinforced Polymer is a complete guide to the use of FRP in flexural, shear and axial strengthening of concrete structures. Through worked design examples, the authors guide readers through the details of usage, including anchorage systems, different materials and methods of repairing concrete structures using these techniques. Topics include the usage of FRP in concrete structure repair, concrete structural deterioration and rehabilitation, methods of structural rehabilitation and strengthening, a review of the design basis for FRP systems, including strengthening limits, fire endurance, and environmental considerations. In addition, readers will find sections on the strengthening of members under flexural stress, including failure modes, design procedures, examples and anchorage detailing, and sections on shear and torsion stress, axial strengthening, the installation of FRP systems, and strengthening against extreme loads, such as earthquakes and fire, amongst other important topics.
Net Zero Energy Buildings (NZEB): Concepts, Frameworks and Roadmap for Project Analysis and Implementation provides readers with the elements they need to understand, combine and contextualize design decisions on Net Zero Energy Buildings. The book is based on learned lessons from NZEB design, construction, operation that are integrated to bring the most relevant topics, such as multidisciplinarity, climate sensitivity, comfort requirements, carbon footprints, construction quality and evidence-based design. Chapters introduce the context of high performance buildings, present overviews of NZEB, cover the performance thresholds for efficient buildings, cover materials, micro-grid and smart grids, construction quality, performance monitoring, post occupancy evaluation, and more.