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ISEPD-4 Proceedings of the 4th International Sympsoium on Eco-Materials Processing & Design, Gyungpodae, Korea, February 4-6, 2003
ISEPD-VII Proceedings of the Conference on 7th International Symposium on Eco-Materials Processing & Design, January 8-11, 2006, Chengdu, China
Selected, peer reviewed papers from the 13th International Symposium on Eco-Materials Processing and Design (ISEPD-13), January 7 - 10, 2012, Guilin, China
This book provides a state-of-the-art collection of recent papers on eco-materials processing and design as presented at the 6th Pacific Rim Conference on Ceramic and Glass Technology (PacRim6) in September of 2005 in Maui, Hawaii.
This papers collection was published by results of 17th International Symposium on Eco-Materials Processing and Design ( January 8 - 11, 2016, Haikou, China) and devoted to modern achievements in the field of research traditional materials, nanomaterials, nanotechnology, semiconductors, functional ceramics and eco-friendly materials and etc. This collection will be useful for the wide range of researchers from area of modern materials science
Sustainable Manufacturing and Design draws together research and practices from a wide range of disciplines to help engineers design more environmentally sustainable products. Sustainable manufacturing requires that the entire manufacturing enterprise adopts sustainability goals at a system-level in decision-making, hence the scope of this book covers a wide range of viewpoints in response. Advice on recyclability, zero landfill design, sustainable quality systems, and product take-back issues make this a highly usable guide to the challenges facing engineering designers today. Contributions from around the globe are included, helping to form an international view of an issue that requires a global response. - Addresses methods to reduce energy and material waste through manufacturing design - Helps to troubleshoot manufacturability problems that can arise in sustainable design - Includes coverage of the legislative, cultural and social impacts of sustainable manufacturing, promoting a holistic view of the subject
Eco-Materials and Green Energy for a Sustainable Future emphasizes the synergy between eco-materials and green energy solutions, highlighting their combined power to reduce carbon emissions, conserve resources, and create a more resilient and sustainable future. It provides a detailed discussion on cutting-edge green energy technologies and their potential to transform the energy landscape. Covering a range of applications and emerging technologies that are moving toward sustainable and green energy, this book includes topics on nano-batteries, nanoparticle treatments of toxic textile industry wastewater, and green building materials. It explores thin-film solar cells and luminescent materials in solar energy. This book considers green synthesis methods, such as plant extracts and microorganisms, with applications in regenerative medicine. This book will interest researchers and senior undergraduate and graduate students studying renewable energy sources, green materials engineering and chemistry, and sustainability.
Reintroducing Materials for Sustainable Design provides instrumental theory and practical guidance to bring materials back into a central role in the design process and education. To create designs that are sustainable and respond to current environmental, economic and cultural concerns, practitioners and educators require a clear framework for materials use in design and product manufacturing. While much has been written about sustainable design over the last two decades, outlining systems of sustainability and product criteria, to design for material circularity requires a detailed understanding of the physical matter that constitutes products. Designers must not just know of materials but know how to manipulate them and work with them creatively. This book responds to the gap by offering a way to acquire the material knowledge necessary to design physical objects for sustainability. It reinforces the key role and responsibility of designers and encourages designers to take back control over the ideation and manufacturing process. Finally, it discusses the educational practice involved and the potential implications for design education following implementation, addressing didactics, facilities and expertise. This guide is a must-read for designers, educators and researchers engaged in sustainable product design and materials.
Biomass, Biofuels, Biochemicals: Circular Bioeconomy: Technologies for Biofuels and Biochemicals provides comprehensive information on strategies and approaches that facilitate the integration of technologies for the production of bio-based fuels, chemicals and other value-added products from wastes with waste biorefinery concepts and green strategies. The book also covers lifecycle assessment and techno-economic analyses of integrated biorefineries within a circular bioeconomy framework. As there has been continual research on new designs in production and consumerist approaches as we move towards sustainable development by scientists of various disciplines, law makers, environmental activists and industrialists, this book provides the latest details. Resources consumption and environment degradation necessitates a transition of our linear economy towards sustainable social and technical systems. As fossil resources are only projected to fulfill the needs of the population for the next couple of centuries, new tactics and standards must be created to ensure future success. - Covers recent developments and perspectives on biofuels and chemicals production - Provides the latest on the integration of technologies and processes for biofuels and chemicals production - Paves a way forward roadmap to achieve Sustainable Development Goals - Covers recent developments in lifecycle assessment and techno economic analysis using a waste biorefinery approach