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Elsevier

Books in Renewable energy and alternative technologies

Showcasing solar, wind, hydro, geothermal, and emerging energy solutions, this collection supports researchers, engineers, and policymakers driving the transition to cleaner energy. Featuring innovative technologies, system integration, and policy frameworks, these resources facilitate sustainable energy deployment, addressing climate change and energy security with practical, real-world insights and case studies.

  • Shell-and-Tube Latent Heat Storage Systems

    Advanced Techniques for Heat Transfer Enhancement and Performance Improvement
    • 1st Edition
    • Pouyan Talebizadehsardari + 2 more
    • English
    Shell-and-Tube Latent Heat Storage Systems: Advanced Techniques for Heat Transfer Enhancement and Performance Improvement addresses the critical challenges in thermal energy storage, focusing on latent heat storage technologies using phase change materials. The book provides a structured exploration of advanced design enhancements, including innovative fin geometries, nanoparticles, porous media, and geometry modifications for both double-pipe and triple-pipe, horizontal and vertical configurations. Each chapter offers foundational principles, analytical methods, real-world case studies, and simulation data, enabling readers to understand and apply the latest research in system optimization.The modular chapter format ensures that content is accessible independently, supporting both academic research and professional practice. As the demand for renewable energy and efficient thermal management rises, this reference meets the need for integrated, practical solutions to optimize system performance, bridging the gap between theory and industrial applications. The reference empowers researchers, engineers, and students to develop scalable, cost-effective thermal energy storage solutions. By integrating the latest advances in materials science and system design, the reference supports the energy transition, reduces CO2 emissions, and aligns with global sustainability goals.

  • Marine Operations for Offshore Wind Turbines

    Volume 1: Fundamentals and Applications
    • 1st Edition
    • Zhiyu Jiang + 1 more
    • English
    Published as an Open Access book freely available for download on Science Direct, Marine Operations for Offshore Wind Turbines, Volume 1: Fundamentals and Application is a practical reference that links fundamentals to methods to application in this unique, important, and highly interdisciplinary area, helping readers to ensure operational safety, reduced installation costs, and improved wind farm efficiency and reliability. The first part of the book introduces the fundamentals of offshore wind energy systems and marine operations, along with analysis methods and numerical modelling and simulation tools. The second section focuses on in-depth case studies based on the authors’ own research and incorporating real-world practical experience in key areas, guiding the reader through lifting operations for turbine components, environmental loads, motion control, structural modelling, and safety assessment for installations, modelling, analysis and control of full assembly installation, and design and optimization for floating installations. Finally, the critical phases of transportation and final mooring hook-up are introduced, and a concluding chapter provides an overview of recent trends and emerging topics, such as robotic technologies, artificial intelligence, and advanced decommissioning solutions, offering routes for future research and development. A volume in the Elsevier Wind Energy Engineering Series, this is an essential resource for all those looking learn the fundamentals, to improve their understanding, and to gain insights into installation concepts, analysis methods, modelling approaches, key tools, and problems and challenges, including researchers, students, engineers, R&D, policy makers and industry professionals.

  • Protonic Ceramic Fuel Cells

    Principles, Design, and Applications
    • 1st Edition
    • Abu Yousuf + 3 more
    • English
    Protonic Ceramic Fuel Cells: Principles, Design, and Applications is an essential resource that brings together the latest advancements in materials, design, fabrication techniques, and applications. This book offers a comprehensive, interdisciplinary understanding of Protonic Ceramic Fuel Cells technology, identifying challenges and future opportunities. By providing a step-by-step approach, practical examples, and case studies, it serves as an invaluable guide for researchers, students, engineers, R&D scientists, policymakers, and professionals interested in fuel cells, energy storage, renewable energy, and the wider energy sector.In addition to introducing the basics of fuel cell systems, thermodynamics, Protonic Ceramic Fuel Cells, materials, and electrochemical reactions, the book delves into cell, stack, and system-level modeling, transport of charged particles, performance characterization techniques, degradation, system design, application, and stack manufacturing cost. Further chapters explore future research directions, environmental impact, sustainability, safety, and risk assessment.

  • Safety and Reliability of Offshore Renewable Energies

    • 1st Edition
    • Rouzbeh Abbassi + 3 more
    • English
    Safety and Reliability of Offshore Renewable Energies is a thorough and up-to-date resource that investigates the critical aspects of risk and reliability, to ensure asset durability and long-term performance while developing safe operations in the dynamic and challenging context of offshore renewable energy systems. The book begins with an overview of offshore renewable energy systems, before offering systematic, detailed coverage of regulatory standards for safety and reliability, environmental impacts of operations, risk assessment and management, human factors and safety culture, optimization of infrastructure plans, asset management and maintenance, and decommissioning of offshore renewable infrastructure. This is followed by in-depth chapters focusing on reliability and safety in specific areas, including wind farms, offshore hydrogen, wave and tidal energy, and floating PV systems. Finally, safety and risk in multi-purpose and co-located offshore facilities, an important emerging trend, is discussed. With the additional aim of bridging the gap between industry and academia, this book is of interest to all those involved in offshore renewable energy, including researchers, students, faculty, engineers, consultants, industry professionals, and policy makers.

  • Recycling of Solar PV Modules

    Techniques, Challenges, Policy, and Environmental Impact
    • 1st Edition
    • Md. Shahariar Chowdhury + 1 more
    • English
    Recycling of Solar PV Modules: Techniques, Challenges, Policy, and Environmental Impact offers a holistic resource that provides the reader with a nuanced understanding of the latest techniques and various other considerations in the recycling and environmental processing of solar photovoltaic modules. Beginning with an overview of solar energy and the life cycle of solar panels, the book offers detailed chapters focusing on solar cell types, challenges, recycling techniques, regulations and policy, environmental impact, and economic impact, as well as discussing how sustainability, economics, and innovation intersect in this area of increasing importance. This valuable resource will be of interest to all those with an interest in solar photovoltaics, end-of-life, recycling, and sustainability, including researchers, advanced students, faculty, engineers, R&D, scientists, and policy makers.

  • Wind Turbine Wakes

    Physics, Modelling and Mitigation Strategies
    • 1st Edition
    • Xiaolei Yang
    • English
    Wind Turbine Wakes: Physics, Modelling and Mitigation Strategies offers a detailed introduction to wind turbine wake dynamics, computational models, and wake mitigation strategies, bridging the gap between research and industry by showcasing the latest developments in the field with insights and case studies. This book is structured in four parts, offering in-depth coverage of the science of wind turbine wakes, mid-fidelity and high-fidelity numerical models, engineering models, and wake mitigation strategies. While the book delves into theoretical aspects, it also emphasizes the practical applications of various computational models for wind turbine wakes. Step-by-step tutorials for setting up the case, selection of model parameters, and result analysis will be included in the book to enable readers to employ and test various models in their work. A volume in the Elsevier Wind Energy Engineering Series, this is a valuable resource for all those with an interest in wind turbine design and layout, wind farm development and optimization, wind resource assessment, and wind power plant operation, including researchers, students, faculty, engineers, R&D, and industry practitioners.

  • Biomass to Biofuel Supply Chain Design and Planning under Uncertainty

    Concepts and Quantitative Methods
    • 2nd Edition
    • Mir Saman Pishvaee + 3 more
    • English
    Biomass to Biofuel Supply Chain Design and Planning Under Uncertainty: Concepts and Quantitative Methods, Second Edition proposes a comprehensive, multi-level framework for optimal biomass-to-biofuel supply chain design and operation, accommodating various types of biomass feedstocks, production pathways, technology options, transportation methods, and final products. This new edition has been thoroughly revised to reflect the latest technological innovations and policy changes while offering a broader range of uncertainty modeling and mathematical programming approaches that cover multi-stage stochastic programming, robust optimization, and probabilistic dynamic programming.These additions provide readers with practical tools to handle the dynamic uncertainties inherent in biofuel supply chains. New case studies and paths to sustainability are also incorporated. By providing an adaptable framework for biofuel supply chain design, focusing on accessible, straightforward quantitative methods, and emphasizing sustainability, this revised edition meets the evolving needs of graduate students, researchers, practitioners, and policymakers seeking to understand biofuel supply chain optimization, uncertainty modeling, and operations. In addition, it helps readers implement practical, sustainable, and regionally applicable optimization solutions.

  • Exploring MXene and Advanced Nanomaterials in Renewable Energy Applications

    • 1st Edition
    • Kumuran Kadirgama + 2 more
    • English
    Exploring MXene and Advanced Nanomaterials in Renewable Energy Applications is a groundbreaking book that delves into the properties, synthesis and applications of MXene and other advances nanomaterials in renewable energy systems. MXene is a two-dimensional material that has great significance in renewable energy applications due to its high thermal conductivity. Several thermal systems used in renewable energy technologies can exploit the benefits of MXene and nanomaterials for enhanced heat transfer as a fluid, electrothermal energy conversion. thermal management of solar thermal and geothermal systems, and thermal energy storage. The low cost of production and scalability of MXene makes it a potential candidate to be seamlessly merged in renewable thermal applications. The book highlights MXene’s high thermal conductivity and its potential to revolutionize efficiency in a variety of renewable energy applications. It bridges the gap between scientific research and practical application, providing comprehensive knowledge for industry professionals, academics and students. This novel resource inspires innovation and advances research in this rapidly evolving field by improving thermal energy systems to generate more electricity, reducing greenhouse emissions and transition to low-carbon energy. The text catalyzes advancements in renewable energy applications, contributing to the global effort towards more sustainable energy solutions. Exploring MXene and Advanced Nanomaterials in Renewable Energy Applications educates and informs readers about the potential of advanced materials such as MXene to improve the efficiency, durability, and sustainability of renewable energy systems.

  • Computer Simulation of Buildings and Solar Energy Systems

    • 1st Edition
    • Juergen Schumacher
    • Ursula Eicker
    • English
    Computer Simulation of Buildings and Solar Energy Systems aims to bridge the gap between the basic concepts and theoretical aspects of solar technology, and their practical applications, enabling readers to simulate solar energy systems, solar thermal energy, and thermal performance of buildings. Acknowledging the critical need for robust, scalable simulation tools that can adapt to varied climates, helping professionals and students overcome challenges related to energy efficiency, sustainable urban development, and the optimization of renewable resources, the book covers the fundamentals and latest advances in simulation techniques and tools that are crucial to accelerating the transition to renewable energy. This is supported by case studies, example code, equations, data sets, and extensive visuals such as process diagrams, flowcharts, and photos. This is a valuable resource to readers at various levels, from practitioners looking to enhance their technical skills in renewable energy and building simulation, to academic researchers exploring innovative simulation methodologies, to students looking to understand simulation techniques in this complex, multidisciplinary area.

  • Subsurface Hydrogen Storage and Generation

    Fundamentals, Modeling, and Applications
    • 1st Edition
    • Esuru Rita Okoroafor + 3 more
    • English
    Subsurface Hydrogen Storage and Generation: Fundamentals, Modeling, and Applications explores the complexities of hydrogen storage and generation in subsurface environments, providing valuable insights into reservoir engineering aspects and numerical simulation techniques. The book progresses seamlessly from introducing fundamental concepts of hydrogen in energy storage and generation to exploring advanced topics such as hydrogen sources and conversion technologies. It delves into subsurface hydrogen storage options, including capacity estimation and storage system design, discusses hydrogen injection techniques, pressure build-up considerations, and production estimation in subsurface environments, addressing losses and providing site selection guidance.The book culminates in a thorough examination of geological hydrogen resource assessment, flow prediction models, and enhanced production techniques, offering a comprehensive understanding of hydrogen utilization in diverse settings. The comprehensive examination includes geological resource assessment and production techniques for diverse settings. This valuable text delivers critical content in a structured format featuring principles, methods, examples, and applications for better comprehension.

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