This book presents the select proceedings of International Conference on Civil Engineering: Innovative Development in Engineering Advances (ICC IDEA 2023). This book covers the latest research in the areas of construction engineering and management, urban planning and design, building energy conservation and green architecture, materials science and engineering, innovation in construction materials, and information technology in civil engineering. The book is useful for researchers and professionals in civil engineering.
How to adapt existing building stock is a problem being addressed by local and state governments worldwide. In most developed countries we now spend more on building adaptation than on new construction and there is an urgent need for greater knowledge and awareness of what happens to commercial buildings over time. Sustainable Building Adaptation: innovations in decision-making is a significant contribution to understanding best practice in sustainable adaptations to existing commercial buildings by offering new knowledge-based theoretical and practical insights. Models used are grounded in results of case studies conducted within three collaborative construction project team settings in Australia and the Netherlands, and exemplars are drawn from the Americas, Asia, Japan, Korea and Europe to demonstrate the application of the knowledge more broadly. Results clearly demonstrate that the new models can assist with informed decision-making in adaptation that challenges some of the prevailing solutions based on empirical approaches and which do not accommodate the sustainability dimension. The emphasis is on demonstrating how the new knowledge can be applied by practitioners to deliver professionally relevant outcomes. The book offers guidance towards a balanced approach that incorporates sustainable and optimal approaches for effective management of sustainable adaptation of existing commercial buildings.
This book provides a unique guide to value management and sustainability in construction to researchers and professional. The book provides a better understanding of the concept of value management, the basis of sustainable construction and thereafter, demonstrates how using the principles of value management can help to achieve successful construction projects that are financially viable, socially beneficial and do not damage the environment. The book serves as an introduction to value management for scholars and researchers at all levels; and also as a practical guide for construction professionals, employers and other stakeholders in the construction industry.
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. - Provides a framework for analyzing sustainable construction technologies and economic viability - Introduces key credit criteria for different sustainable construction technologies - Covers the most relevant construction areas - Includes technologies that can be employed during the process of construction, or to the product of the construction process, i.e. buildings - Analyzes international rating systems and provides supporting case studies
This book presents a selection of recent research works that provide best practice solutions, case studies and practical advice on the implementation of sustainable construction techniques. The topics covered include innovations in building sustainability assessment, sustainable construction and materials, service-life prediction, construction 4.0, digitalization of the construction process, and circular economy. Reviewing the current state of knowledge, the book will benefit scientists, students, practitioners, lecturers and other interested parties in a range of scientific and engineering disciplines, e.g. civil, materials and mechanical engineering.
The construction industry is currently experiencing accelerating developments concerning societal demands along with project complexity, internationalization and digitalization. In an attempt to grasp the consequences of these demands on productivity and innovation, this edited book addresses how innovation is likely to take place with a more long-term perspective on the construction sector. While existing literature focuses on organizational discontinuity and fragmentation as the main reasons for the apparent lack of innovation in the industry, this book highlights the connectivity of construction actors, resources and activities as fundamental for understanding how innovation takes place.Through 15 empirically grounded chapters, the book shows how innovation is part of construction processes on various levels, including project, firm and industry, and that these innovation processes are characterized by organizational and technological connectivity over time. Written by European business management scholars, the chapters cover empirical cases and examples from both a multi-organizational and a multi-international perspective in terms of covering the viewpoints of different industry actors and the contexts of several different European countries including: Sweden, Norway, the UK, Italy, France, Hungary and Poland. By illustrating how connectivity is part of innovation processes in the creation of single-product innovations, of various innovations within and across projects, as well as a fundamental aspect of the processes in which innovations cross nations, the book provides a new angle on how to understand construction innovation and where the industry might (or needs to) be heading next. This book is essential reading for anyone interested in construction management, project management, engineering management, innovation studies, business and management studies.
If we can carry in our pockets more computing power than the Apollo program needed to put a man on the moon, why can't we solve problems like climate change, famine, or poverty? The answer lies, in part, in the distinctive challenges of creating innovations that address today's pressing environmental and social problems. In this groundbreaking book, Andrew Hargadon shows why sustainable innovation—the development of financially viable products that support a healthy environment and communities—is so difficult when compared to creating the next internet ventures or mobile apps that disregard these criteria. While other books treat innovation across sectors equally, Hargadon argues that most effective innovation strategies hinge on attention to the context in which they are pursued. Instead of relying on a stale set of "best practices," executives must craft their own strategies based on the particulars of their industries and markets. But, there are some rules of the road that foster a triple bottom line; this book provides a research-based framework that outlines the critical capabilities necessary to drive sustainable innovation: a long-term commitment, nexus work, science and policy expertise, recombinant innovation, and robust design. Sustainable Innovation draws on a wide range of historical and contemporary examples to show business readers and their companies how to stand on the shoulders of successful pioneers.
How can innovation in the construction industry be strengthened? What instruments and approaches are being used by governments to promote it? What works and under what circumstances? These key questions have profound implications. This book presents a framework for the analysis of innovation models and systems in construction and an international comparison of these systems, with a focus on their application in practical policy development.
A paradigm shift is happening at this moment. Firms and consumers are aware of the fact that they cause environmental pollution, depletion of resources and are responsible for the dangers involved. At the same time awareness is growing that they need to and will develop the appropriate solutions in the time to come. The idea that sustainable, cyclic businesses are more logical than consumption-oriented and waste-dumping ones seems fascinating to a growing number of people. For this change to happen new thinking and behavior is needed. Firms and consumers play a central role in a sustainable business. Companies deliver what consumers buy and vice versa. In a sustainable paradigm, companies are able to develop and produce sustainably. Therefore, companies need new management concepts for sustainable investment, manufacturing, logistics and marketing and for sustainable management. In Managing Environmentally Sustainable Innovation, Bossink evaluates the innovation chain in a process of five consecutive stages, articulates five levels at which people collectively manage the chain, and analyzes the interplay between the two. Acquainting the reader with the complexities of innovation, as well as which complexities are active in the management of environmental sustainability, this book offers guiding principles and a toolbox for the management of environmentally sustainable innovation in construction.
