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Elsevier

  • Wetlands in a Climate-Changing World

    • 1st book:metaData.edition
    • Yuanchun Zou contributors.plusContributors
    • publicationLanguages:en
    Wetlands in a Climate-Changing World aims to clarify our understanding of natural wetland structures, processes, and functions in the context of a changing climate, drawing on real-life case studies to help the reader comprehend current knowledge related to wetland research under the background of climate change. Unlike other terrestrial ecosystems, wetlands are more directly connected to, and influenced by, climate change. They help mitigate global warming by serving as CO2 sinks and organic carbon reservoirs, but they also contribute to warming by emitting CH4.As wetlands are vital ecosystems worldwide, possessing unique and irreplaceable natural resources and ecological functions, this book is a great addition to research on presented topics.

  • Electric Vehicle Conductive and Wireless Charging Technologies

    Power Electronics for Grid Integration
    • 1st book:metaData.edition
    • Yiming Zhang contributors.plusContributors
    • publicationLanguages:en
    Electric Vehicle Conductive and Wireless Charging Technologies: Power Electronics for Grid Integration provides a comprehensive overview of the latest advancements and challenges in the field of electric vehicle charging technology. The book begins by providing a clear assessment of the research history and context before proposing a set of implantation standards for both conductive and wireless charging. Each charging technology is given a detailed assessment, and the two are contrasted in a variety of case studies and scenarios. Specific challenges such as wide-voltage-gain efficient conductive charging and misalignment tolerance and interoperability in wireless charging are presented, with potential solutions.Critically... auxiliary systems from positioning to foreign object detection are put in context, and a practical assessment of integration challenge is provided. This book equips students, researchers, and engineer with a holistic view of the challenges, cutting-edge research landscape, and integration opportunities related to EV wireless and conductive charging.

  • Bioplastics for Food Packaging

    Materials, Procedures, and Applications
    • 1st book:metaData.edition
    • Mehran Ghasemlou contributors.plusContributors
    • publicationLanguages:en
    Bioplastics for Food Packaging: Materials, Procedures, and Applications offers a comprehensive overview of the fundamentals and recent developments in the field of bioplastics tailored specifically for food packaging applications. Covering critical topics such as the environmental impact of plastic waste and the regulatory landscape driving the adoption of bioplastics in the food industry, this book discusses the unique benefits and drawbacks associated with different types of bioplastics. It explores practical applications of bioplastic flexible films, containers, coatings, and more, and showcases real-world success stories and industry insights.This is a valuable reference for those looking to understand the application of bioplastics in the food industry and stay updated on the latest trends and innovations in bioplastics for food packaging purposes.

  • Polymer Circularity in Sustainable Energy

    • 1st book:metaData.edition
    • Sabu Thomas contributors.plusContributors
    • publicationLanguages:en
    Polymer Circularity in Sustainable Energy offers a comprehensive overview of the recycling and reuse of polymers in specific energy technologies. The book discusses the fundamental aspects of polymer chemistry, global challenges in polymer waste management, regulatory frameworks for polymer recycling, and technological advances in polymer sorting and separation. The initial chapters explore different methods of polymer reuse, including mechanical and chemical recycling, as well as chemical depolymerization for electroactive polymers. Sections then examine the applications of recycled polymers such as polyurethanes, polyvinylidene fluoride, and other polymers in specific energy technologies, including photovoltaics, fuel cells, space energy systems, and battery technologies.The book also discusses the integration of artificial intelligence in polymer recycling for energy solutions and presents case studies on polymer recycling projects in the energy sector. It further addresses the challenges and opportunities in scaling up polymer recycling infrastructure. It will serve as a valuable reference for researchers and scientists in polymer science and engineering, as well as industry professionals in renewable energy and waste management who are interested on optimizing the use of polymers while minimizing waste generation in the energy industry.

  • Synergistic Effects of Biotechnological Processes and Carbon Trading in the Energy Sector

    • 1st book:metaData.edition
    • Suresh Sundaramurthy contributors.plusContributors
    • publicationLanguages:en
    Synergistic Effects of Biotechnological Processes and Carbon Trading in the Energy Sector paves the way for innovative solutions and sustainable practices surrounding the integration of microbial science in energy feedstock conversion, offering insights into the potential of bio-upgrading for value-added products and the valorization of wastes. From exploring bio-hydrogen and biofuels production to addressing environmental concerns and lifecycle assessment, it showcases advancements that drive the industry towards a circular economy model. Sections introduce energy industries and discuss challenges in biotechnology applications and prospects for a biological upgrading of energy feedstock and bioprocessing of waste for sustainable fuels production.With a focus on enzymatic catalysis for high-energy density products and the bio-valorization of waste, each chapter offers valuable insights into the evolving field of biotechnological processes for energy recovery and carbon trading. From global scenarios on biotechnology applications to environmental impacts and the way forward for stakeholders, this book provides a holistic view of the critical role biotechnology plays in shaping the future of energy production and environmental sustainability.

  • Plastic Circularity

    Data Development, Flow Analysis, and Value Chain Coordination
    • 1st book:metaData.edition
    • Paul T. Mativenga contributors.plusContributors
    • publicationLanguages:en
    Plastic Circularity: Data Development, Flow Analysis, and Value Chain Coordination presents a comprehensive framework for tackling the challenge of plastic waste through a circular economy approach. The book explores innovative methodologies for modeling plastic material flows, evaluating sustainability metrics and enhancing stakeholder participation across the value chain. This essential resource covers critical topics such as lifecycle impact assessments, data building, and stakeholder dynamics, providing actionable insights for transitioning to tighter circularity loops.By offering practical tools and case studies, the comprehensive resource empowers decision-makers to enhance recycling systems and promote sustainable practices, contributing to a more environmentally responsible plastic economy.

  • Digital Twins in the Smart Classroom

    Utilising Sensor Networks in the Educational Environment
    • 1st book:metaData.edition
    • Tuan Anh Nguyen
    • publicationLanguages:en
    Digital Twins in the Smart Classroom: Utilising Sensor Networks in the Educational Environment explores virtual schools that have incorporated digital twin computing into the day-to-day running of the classroom. The book discusses the foundational concepts, practical applications, future directions, and the various aspects of virtual school, such as the student's daily activities, intelligent wireless sensor networks, privacy issues, and how the internet of things, artificial intelligence, machine learning, cloud computing, and fog/edge-computing can enable a smarter, more efficient, more optimized classroom.The smart classroom allows the incorporation of digital devices and learning software into the school environment, as well as sensor networks for tracking classroom processes, for data gathering, and to developed insights into the management of scholarly activity. Additionally, modern infrastructure within schools can involve the installation of advanced Information and communication technology (ICT): student-friendly data can be collected from wearable devices (personal digital assistants, iPads, iPods, smart watches, etc.) via wireless sensor networks; smart sensors can monitor the classroom environment, such as noise level, CO2 level, temperature, humidity, lecturers’ voice, and students/lecturers’ motion (by PIR - passive infrared sensors), and much more.

  • Waste Biorefinery Technologies for Sustainable Development

    Volume 2: Biological Processes
    • 1st book:metaData.edition
    • Ponnusami Venkatachalam contributors.plusContributors
    • publicationLanguages:en
    Waste Biorefinery Technologies for Sustainable Development: Volume 2: Biological Processes deals with the intersection of circular economy principles and biorefinery innovation, exploring how biorefineries can play a central role in closing the loop of resource use and promoting sustainable development. Through a comprehensive examination of circular economy concepts and biorefinery technologies, it illustrates how waste streams can be valorized and transformed into valuable products through efficient and sustainable processes. From organic wastes to agricultural residues and industrial by-products, it covers how diverse biomass feedstocks can be utilised within circular biorefinery systems to produce bioenergy, biochemicals, biomaterials, and bioplastics. The volumes cover the basic components of biorefineries and various approaches required for the valorization of versatile feedstocks which make an indispensable resource for (under)graduate students. The discussion of role of biorefineries in addressing global challenges such as climate change and resource depletion, current research trends, and future directions offers valuable guidance for researchers seeking to deepen their understanding and identify opportunities for further investigation. Volume 2 of this two-volume set deals with biological processes, and includes biochemical paths for converting biomass into bioproducts and biofuels, model refinery processes, recent trends and future prospects of circular biorefinery and their life cycle analysis, and future perspectives.

  • Geomorphic Impacts of Earthquakes

    Post-Seismic Landscape Evolution
    • 1st book:metaData.edition
    • Tim Davies contributors.plusContributors
    • publicationLanguages:en
    Geomorphic Impacts of Earthquakes: Post-Seismic Landscape Evolution summarizes the full range of landscape alterations that can result from large earthquakes, ranging from slope instability and river aggradation to prograded coastlines. The book underpins the consequences of major earthquakes, which are increasing as Earth’s population burgeons and climate and anthropogenic effects are ongoing. Although the damage to society that results directly from the shaking and ground rupture in large earthquakes is well known, the consequential effects of seismicity on the landscape causes earth surface deformations and hazards that are only now being fully understood.This book will help readers professionally engaged in the Earth sciences be better prepared to assess the full range of natural hazards that threaten particular locations, and to work out how to evaluate their contribution to societal risks.

  • Advances in Digital Pathology and Artificial Intelligence in Pathology

    • 1st book:metaData.edition
    • Anil V. Parwani contributors.plusContributors
    • publicationLanguages:en
    Advances in Digital Pathology and Artificial Intelligence in Pathology is a comprehensive resource in digital pathology and AI technologies and applications for practicing pathologists, pathology trainees, and computational pathology scientists. This is a must-have guide to understand and potentially implement these latest technologies during routine practice and research activities. As pathology has been transformed in recent years with the large-scale integration of digital technology and AI there has been a great deal of technologic and practical advancements. This book lays the foundation of understanding these technologies as well as applying them making the book essential in both practice and research.

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