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Elsevier

  • River Pollution

    Causes, Consequences and Remediation
    • 1st book:metaData.edition
    • Ningombam Linthoingambi Devi contributors.plusContributors
    • publicationLanguages:en
    River Pollution: Causes, Consequences and Remediation delves into the critical issue of river pollution, offering a comprehensive analysis of various pollutants and their sources. Sections explore the natural and anthropogenic origins of river pollutants, including harmful algal blooms, pesticides, pharmaceuticals, microplastics, atmospheric deposition, emerging contaminants, industrial waste, and heavy metals and then examine the profound impacts of these pollutants on microbial diversity, aquatic flora and fauna, fish health, river chemistry, salinization, and human health, as well as the socioeconomic repercussions.The final section focuses on the assessment of water quality and presents a range of remedial measures, from wastewater treatment and physical, chemical, and bioremediation methods to innovative techniques for pollution mitigation. This essential resource provides valuable insights for students and researchers of environmental science, policymakers, and organizations committed to preserving the health of our rivers and the ecosystems they support.

  • Nanocellulose for Biomedical Applications

    • 1st book:metaData.edition
    • Jayanta Kumar Patra contributors.plusContributors
    • publicationLanguages:en
    Nanocellulose for Biomedical Applications thoroughly reviews the core principles and practical aspects for the synthesis and application of nanocellulose in biomedicine. The book begins with coverage of the production and properties of nanocellulose, detailing the unique physico-chemical properties, surface modification and characterization techniques, and synthesis and sterilization methods of various nanocellulose types. A key selection of biomedical applications is reviewed - including tissue engineering, drug delivery, and sensing - detailing the benefits and challenges of nanocellulose in each and enabling readers to make informed materials selections. Finally, the commercial aspects of nanocellulose-based products are explored, from lifecycle assessment and industrial-scale production to degradation pathways and environmental impacts. This book provides an interdisciplinary resource that will be of interest to researchers and academics in materials science, biomaterials, nanotechnology, tissue engineering, pharmaceutical science, and microbiology.

  • Heterostructured Photocatalysts for Efficient Solar Energy Conversion

    Materials, Methods, and Mechanisms
    • 1st book:metaData.edition
    • Srabanti Ghosh contributors.plusContributors
    • publicationLanguages:en
    Heterostructured Photocatalysts for Efficient Solar Energy Conversion: Materials, Methods, and Mechanisms provides a broad-ranging overview of heterostructured photocatalysts, from fundamentals to experimental methods and mechanisms of photocatalytic process to practical applications for solar energy conversion and environmental remediation. As well as assessing the state of this innovative research area and addressing current challenges, the very latest research trends and opportunities are discussed in detail. This is a valuable resource for all those with an interest in photocatalysts, solar energy conversion and storage, hydrogen technologies, renewable energy, energy materials, and chemical engineering, including researchers, advanced students, faculty, engineers, R&D, scientists, and other professionals working in the energy, chemical engineering, or environmental sectors.

  • Technological Applications of Ionic Liquids

    • 1st book:metaData.edition
    • Maliha Uroos contributors.plusContributors
    • publicationLanguages:en
    Technological Applications of Ionic Liquids serves as a comprehensive guide to the applications of ionic liquids (ILs) as green alternatives to hazardous chemicals in various industrial processes. The book details the unique physical and chemical properties of ionic liquids and why this makes them invaluable in many crucial chemical processes and techniques such as organic synthesis, biomass processing, nanotechnology, pharmaceuticals, energy storage, and separation technologies. Each chapter delves into specific applications, detailing synthesis methods, environmental benefits, and challenges, thereby serving as a valuable guide for both academic and industrial researchers. In addition, the book also addresses the toxicity and sustainability of ILs, paving the way for their safe integration into future sustainable chemical practices and technologies.

  • Advanced Space Propulsion

    Technologies, Missions, and Computer Modeling
    • 1st book:metaData.edition
    • Michael Paluszek contributors.plusContributors
    • publicationLanguages:en
    Advanced Space Propulsion: Technologies, Missions, and Computer Modeling includes coverage of all these topics in an integrated manner. The volume, written by a team of sector-specific R&D experts, touches upon fundamentals cardinal to the understanding of [i] Orbit theory and its implications for control, estimation, and optimization of trajectory and attitude, and [ii] How each mission is designed (depending primarily on the mass of the payload, but also on how far from Earth the launch vehicle needs to go), and then succeeds in consolidating them with software and computer applications for simulations and modeling. The book continues with a discussion on the complete gamut of in-space propulsion power sources and concludes with both human and robotic mission-related case studies and future implementation examples. The outcome is a carefully calibrated and self-contained resource that will prove to be invaluable for graduate and senior undergraduate students, researchers, scientists, and engineering professionals alike.

  • Thermomechanics of Solar Receivers

    Structural Materials, Components, and Systems
    • 1st book:metaData.edition
    • Amos Madhlopa
    • publicationLanguages:en
    Thermomechanics of Solar Receivers: Structural Materials, Components, and Systems brings together the latest knowledge in this advanced field, covering theoretical concepts, design methods, and applications, and offering potential routes to improved concentrated solar power (CSP) performance. The book begins by introducing solar receivers, their basic thermodynamics, and the characteristics of structural materials, before in-depth chapters examine key theoretical concepts, including stress and strain in structural materials, thermal buckling of materials and components, elastic structural deflection of components, thermal shock creep, fatigue, and structural failure. The second part of the book focuses on design methods, covering thermomechanical simulation, thermomechanical optimization, and structural design of solar receivers. A final section explores testing, cutting-edge applications, and challenges and opportunities in the advancement of solar receivers. This is a valuable resource for all those with an interest in solar receivers, concentrated solar power, and solar energy, including researchers, advanced students, faculty, scientists, engineers, R&D, and other industry professionals.

  • Innovative Approaches to Renewable Energy Systems with Hydrogen

    • 1st book:metaData.edition
    • Tolga Taner
    • publicationLanguages:en
    “Innovative Approaches to Renewable Energy Systems with Hydrogen” comprehensively pairs fundamentals, advancements and practical applications together to focus on innovative solutions for renewable energy systems and specifically, hydrogen and fuel-cell applications. The book encompasses fundamental principles of renewable energy systems as well as advanced technologies in hydrogen production, energy management, and the integration of green energy solutions. With a detailed exploration of case studies on successful implementations, policy impacts, economic aspects, and sustainability practices, this book serves as a valuable resource for industry professionals and researchers seeking to enhance their understanding of environmentally friendly energy systems. “Innovative Approaches to Renewable Energy Systems with Hydrogen” is tailored for professionals and researchers in the energy sector, academia, and government organizations. By providing a unique perspective on energy efficiency, sustainability, and green energy technologies, this book aims to bridge the gap between theory and practice, offering solutions that support the adoption of environmentally friendly energy systems. With a focus on integration and optimization of renewable energy systems, technical and economic analyses, and advancements in hydrogen energy technologies, this book is a key resource for individuals seeking to contribute to the evolution of sustainable energy practices.

  • Digital Twin Technology and Smart Grid

    • 1st book:metaData.edition
    • Iraklis Varlamis contributors.plusContributors
    • publicationLanguages:en
    Digital Twin Technology and Smart Grid explores the intersection of these technologies, which are essential for the evolution of energy systems. The book explains how it utilizes intelligent wireless sensor networks, the Internet of Things, artificial intelligence, machine learning, cloud, edge, and fog-computing to monitor power consumption. It discusses how security risks and privacy challenges can be accommodated, and explains the ethical/legal implications of collecting data. As the global energy landscape moves toward greater sustainability and decentralization, digital twins present unprecedented opportunities to enhance grid efficiency, bolster resilience, and support the integration of renewable energy sources.The integration of Digital Twin (DT) technology with Smart Grids (SG) represents a groundbreaking development in energy management, making this a highly significant and timely topic. As urban areas expand and energy demands rise, the need for more efficient, sustainable, and resilient energy systems becomes critical. DT technology, with its ability to create real-time, virtual replicas of physical systems, offers unprecedented opportunities for enhancing the performance, reliability, and security of smart grids.

  • Biopolymer Applications in 3D Bioprinting for Biomedical Engineering

    • 1st book:metaData.edition
    • Aufa Adlia Nzaria contributors.plusContributors
    • publicationLanguages:en
    Biopolymer Applications in 3D Bioprinting for Biomedical Engineering covers the fundamentals of polymer-based bioprinting materials, as well as the latest developments and advancements in 3D bioprinting processes. The book starts with an introduction to the principles of biomedical engineering and discusses the application of additive manufacturing in the biomedical field. This is followed by an overview of cell culture in 3D bioprinting, including in-situ bioprinting and in vitro studies and a review of the use of bio-based polymers and synthetic polymers in 3D bioprinting, with a focus on analyzing their properties and selecting the most suitable polymers for specific 3D bioprinting projects.The book's final section explores the applications and challenges of 3D bioprinting in various areas, including anatomical structure, organ bioprinting, skin bioprinting, drug delivery, grafts, blood vessels, orthodontics, ocular and neural tissues, and composite tissues. This book is a valuable reference for industrial and academic researchers, advanced students, and R&D professionals looking for an authoritative overview of biopolymer materials and products prepared by 3D bioprinting.

  • Natural Polymer-Based Films and Coatings in Food Technology

    • 1st book:metaData.edition
    • Ewelina Jamróz contributors.plusContributors
    • publicationLanguages:en
    Natural Polymer-Based Films and Coatings in Food Technology provides a thorough overview of several bio-based polymers used in the preparation of single- or multi-layer films and coatings, as well as their current and potential applications in the field of food science. The book starts with an introduction to biopolymer films and coatings, followed by a discussion of their properties, production, and utilization as smart packaging materials. It then discusses the applications and future trends of biopolymer films and coatings in food technology, as well as the interaction between food and packaging, including chemical migration.In the last chapters, the book addresses materials’ biodegradation, lifecycle assessment, and packaging legal regulations, ending with a presentation of real-world examples of industrial and commercial applications. This book is a valuable resource for academic and industrial researchers, materials scientists, and R&D professionals seeking to explore the advancements and applications of natural polymer-based films and coatings in the food industry.

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