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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.

  • Surface Systems for Geothermal Energy Plants

    • 1st Edition
    • Klaus Brun + 2 more
    • English
    Strategic and Technological Pathways for a Decarbonized Economy offers readers, including researchers, energy professionals, investors, policymakers and corporate leaders, credible, forward-looking information to support the transition to a low-carbon economy. For researchers, there is a wealth of data and frameworks to advance innovation. The book provides energy stakeholders with expert insights into technology deployment and regulation, exploring risk-return profiles, market trends, and ESG metrics. For policymakers, the book includes modeling and impact assessments to guide climate policy, also presenting corporate leaders with strategic roadmaps, emissions benchmarks, and tools to align sustainability with business goals.By offering a framework for understanding the evolution of industrial practices, the book enables readers to prepare for future challenges while equipping them with the tools needed to succeed in a decarbonized economy.

  • Modelling, Estimation and AI Applications for Lithium-Ion Battery Management Systems

    • 1st Edition
    • Shunli Wang + 5 more
    • English
    Modelling, Estimation and AI Applications for Lithium-Ion Battery Management Systems is a comprehensive guide to the latest advancements in integrating artificial intelligence with lithium-ion battery technology. The book offers an in-depth exploration of fundamental principles, advanced modeling techniques, and state estimation strategies that are vital for enhancing battery performance, safety, and longevity. The book presents systematic coverage of battery operation, performance testing methods, and application scenarios, providing a solid foundation for understanding current challenges and innovations. Sections delve into core AI algorithms, including machine learning, deep learning, and hybrid approaches, illustrating how they revolutionize battery modeling and health monitoring.Key topics include hybrid modeling methods that combine equivalent circuit models, electrochemical theories, and AI techniques; precise estimation of State of Charge (SOC), State of Health (SOH), and State of Power (SOP); and strategies for joint state estimation to facilitate comprehensive battery management. Practical insights are reinforced with detailed discussions on experimental platform design, validation procedures, and data visualization techniques, bridging theory and real-world engineering.

  • Solar Energy Solutions for Sustainable Urban and Built Environment

    • 1st Edition
    • Xingxing Zhang + 1 more
    • English
    Solar Energy Solutions for Sustainable Urban and Built Environment provides a single comprehensive source of the latest solar energy systems, both solar thermal and electrical, in the built and urban environment. The book is structured in three interconnected sections, with the first focusing on small-scale solar energy systems and technologies and presenting recent research in building-integrated photovoltaics and solar thermal systems, radio interference from PV systems, and sustainability of PV systems. Within the built environment and throughout the book, the goal is to reduce the carbon footprint of buildings through energy efficiency and the use of more solar energy resources.The second part of the book examines large-scale energy systems with solar resources, exploring the development of flexible energy systems to integrate more solar resources in cities, while improving our planning and design of energy infrastructure to handle the increasing demand for both electricity and heating. Finally, the third section highlights various innovative topics related to solar assisted energy-efficient buildings. This is a valuable resource for all those with an interest in solar energy, energy systems, built environment, and urban planning, including researchers, advanced students, faculty, engineers, R&D, scientists, industry professionals, consultants, and policy makers.

  • Metal-ion Capacitors

    Fundamentals, Materials, Characterization, and Developments
    • 1st Edition
    • Debasish Sarkar
    • English
    Metal-ion capacitors based on monovalent and multivalent ions show great potential to replace existing battery materials in fields where both high energy and high power densities are simultaneously required. Metal-ion Capacitors: Fundamentals, Materials, Characterization, and Developments provides a comprehensive understanding of this cutting-edge energy storage technology, exploring the underlying principles, materials, and design considerations. The book offers practical guidance, including fabrication techniques, design strategies, and characterization methods, enabling readers to implement technological advancements effectively. It explores diverse applications of metal-ion capacitors across industries such as renewable energy, electric vehicles, and consumer electronics, fostering the development of more sustainable and efficient energy solutions. The book will empower researchers, engineers, and students alike with the expertise needed to develop and optimize metal-ion capacitor technology for various applications.

  • Vegetable Oil in Energy, Volume 2

    The Conversion of Seed Oil to Biofuel
    • 1st Edition
    • Abdullah Mohammed Ahmed Asiri + 3 more
    • English
    Vegetable Oil in Energy: The Conversion of Seed Oil to Biofuel, Volume Two presents the latest catalysts, composites, methodologies and technologies used in the conversion of seed oil to biofuel. With an emphasis on feedstock, the book discusses the availability, potential future output, and production pathways for edible and non-edible seed oil. Sections provide an overview of production pathways for seed oil conversion to biofuel and examine engine performance of common seed oil-based biofuels. Chapters also discuss availability and cultivation, production pathways and performance optimization. Feedstock considered include jatrophra, lemon strip, palm, rapeseed, sunflower, olive, coconut, peanut, soya, cotton, and more.The book's final chapters examine the sustainability of vegetable oil as a viable long-term replacement for fossil fuels. This comprehensive resource will be of interest to students, researchers and industry professionals involved in bioenergy and renewable energy, and may be of interest to interdisciplinary teams working across biotechnology, chemistry, chemical engineering, environmental science and sustainability sciences.

  • Vegetable Oil in Energy, Volume 1

    Biofuel Technology
    • 1st Edition
    • Abdullah Mohammed Ah Asiri + 3 more
    • English
    Vegetable Oil in Energy, Volume 1: Biofuel Technology examines the conversion processes involved in the production of biofuels from vegetable oils. With a strong focus on methodologies and protocols, the book provides step-by-step guidance on a comprehensive range of production pathways for liquid and gaseous biofuels. The first part of the book provides an overview of present vegetable oil production. Subsequent chapters describe the key production pathways, including pyrolysis, decarboxylation, deoxygenation, catalytic cracking processes, esterification, trans-esterification... anaerobic digestion, catalytic pyrolysis, and more. The economic potential of different vegetable oil feedstocks is discussed within each chapter.Finally, chapters are dedicated to sustainability, examining the environmental and socioeconomic impact of production, with an emphasis on GHG emission reduction. This book provides readers with the latest developments in the production of biofuels from vegetable oils, which will be of interest to students, researchers, and industry professionals involved in bioenergy and renewable energy, and may be of interest to interdisciplinary teams working across biotechnology, chemistry, chemical engineering, environmental science and sustainability sciences.

  • Innovative Approaches to Renewable Energy Systems with Hydrogen

    • 1st Edition
    • Tolga Taner
    • English
    “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.

  • Bioenergy from Agricultural Residues

    • 1st Edition
    • R. Praveen Kumar + 1 more
    • English
    Bioenergy from Agricultural Residues provides an in-depth understanding of the latest advancements in the bioenergy field, along with the challenges and opportunities for its future research. The book delivers solutions to specific problems through case studies and examples of successful bioenergy projects from different parts of the world, which can serve to inform and inspire policymakers, researchers, industry professionals, and students interested in advancing sustainable energy production. This timely text analyzes economic and environmental implications of bioenergy production from agricultural residues and provides insights into the development of sustainable bioenergy systems.It serves as a quality resource for anyone interested in sustainable energy and the utilization of agricultural residues for bioenergy production, including economic and environmental aspects, which is aligned with Elsevier’s Energy with Purpose commitment to support meeting the world's energy needs while protecting the planet for future generations.

  • F.A.C.T.S. Flexibility, Affordability, Conservation, Transition, Sustainability

    Our Path to the Future of Energy and the Environment
    • 1st Edition
    • Reza Fassihi + 1 more
    • English
    F.A.C.T.S. Flexibility, Affordability, Conservation, Transition, Sustainability: Our Path to the Future of Energy and the Environment addresses the urgent global need for scientifically grounded resources on energy transition and sustainability. The book begins with an overview of the energy landscape and its challenges, with subsequent sections providing deep analyses of non-renewable sources such as fossil fuels, nuclear energy, and renewable sources, including solar, wind, geothermal, hydropower, and ocean energy. Emerging technologies, clean air and water solutions, energy efficiency, financial enablers, and public empowerment are also explored. Supplementary materials include glossaries, technical notes, fact sheets, and case studies.With climate change, carbon emissions, and geopolitical pressures shaping energy policy, this reference provides a balanced, evidence-based framework for understanding the complexities of renewable integration, fossil fuel reduction, and carbon capture technologies. The book responds to the demand for accessible yet rigorous content that empowers policymakers, industry leaders, academics, and educators to make informed decisions in the face of polarized narratives and technological uncertainty.

  • Process Systems Engineering Tools for Industrial Decarbonization

    • 1st Edition
    • Dominic Foo + 2 more
    • English
    Process Systems Engineering Tools for Industrial Decarbonization explores the latest mathematical methods driving large-scale adoption of technologies aimed at reducing carbon emissions in industrial systems. By examining systematic strategies for planning, decision-making, and designing low-carbon industrial processes, the book offers readers—both experts and newcomers—a comprehensive understanding of how recent advances in process engineering can support a sustainable future. Special emphasis is placed on the integration and optimization of cutting-edge technologies such as Carbon Capture, Utilization, and Storage (CCUS), Negative Emission Technologies (NETs), and other innovative decarbonization solutions as they mature and become viable at scale.Beyond technical frameworks, the book addresses the urgent need to manage rising atmospheric CO₂ levels, which now average 420 ppm—well above safe thresholds. It highlights the importance of using decision-making tools to efficiently deploy and systematize available technologies, ensuring the industrial sector contributes effectively to climate mitigation.

  • Tidal Energy Systems

    Design, Optimization and Control
    • 2nd Edition
    • Vikas Khare + 3 more
    • English
    Tidal Energy Systems: Design, Optimization, and Control, Second Edition reflects the rapid transformation in the energy sector being driven by technological innovations, environmental challenges, and market dynamics. The book covers artificial intelligence applications for design and optimization, advanced data analysis techniques, and integration with smart grids while also addressing sustainability and efficiency. By focusing on interdisciplinary aspects, the book serves as a crucial resource for understanding the complexities of designing, optimizing, and controlling tidal energy infrastructures. It explores a variety of critical areas, including fundamentals, prefeasibility analysis, optimum sizing and modeling, control systems, and reliability assessments of tidal power plants.It also emphasizes the role of artificial intelligence and data analysis in enhancing the performance and maintenance of tidal energy systems. Other significant topics include decision science and operational management, providing readers with a holistic view of the tidal energy sector and the tools necessary for effective implementation and management of tidal energy projects.

  • Sustainable Hybrid Cooling and Dehumidification Strategies for Controlled Environments

    • 1st Edition
    • Uzair Sajjad + 2 more
    • English
    Sustainable Hybrid Cooling and Dehumidification Strategies for Controlled Environments addresses the critical need for energy-efficient climate control solutions in storage, industry, and agriculture amid climate change and rising energy costs. Sections explore innovative hybrid systems, including evaporative cooling, radiative cooling, desiccant systems, and renewable energy integration to meet the demands of sustainable environmental management. The book's contents encompass thermally driven desiccant dehumidification, phase change materials, solar thermal collectors, AI and IoT-based control systems, and applications in agriculture. It combines theoretical foundations, experimental methods, case studies, and practical applications, offering a holistic view of current advancements and future trends.Designed for practitioners, researchers, and graduate students, the book provides actionable insights to enhance energy efficiency, reduce environmental impacts, and support the global energy transition. Its interdisciplinary approach and inclusion of techno-economic analyses make it an essential resource for developing sustainable climate-control solutions aligned with UN SDGs, particularly SDG 7, 9, 11, and 13.

  • Sustainable Biogas Production

    Transforming Waste into Energy and Fertilisers
    • 1st Edition
    • Katarzyna Chojnacka + 1 more
    • English
    Sustainable Biogas Production: Transforming Waste into Energy and Fertilizers is a comprehensive guide to managing digestate from biogas plants, with a focus on renewable energy and sustainable agriculture. Grounded in the principles of circular economy, the book explains technological foundations and treatment technologies, all supported by sustainability assessments and global case studies. It begins with an introduction to biogas technology, providing an overview of biogas production, its historical context, evolution, and its role in sustainable waste management. It then delves into the principles of biogas production, explaining the types of organic waste suitable for biogas production, the anaerobic digestion process, and more. Other sections discuss the efficacy and application of biogas fertilizers, present global case studies on biogas projects, and provide an overview of the sustainability and economic viability of biogas production. The book concludes with a discussion on the policy and regulatory framework for biogas production, including future outlooks on policy trends and their implications for the biogas industry.

  • Alkaline Fuel Cells

    Fundamentals, Design, and Applications
    • 1st Edition
    • Liang An + 2 more
    • English
    Alkaline Fuel Cells: Fundamentals, Design, and Applications bridges the gap between fundamental knowledge and the practical skills needed to address real-world challenges in alkaline fuel cells. The book provides readers with the essential information needed to understand, design, and implement efficient low-temperature and high-temperature alkaline fuel cell systems. Sections introduce alkaline fuel cells, with a discussion on mass transport phenomena. Subsequent chapters delve into the mechanisms, classification, design, and challenges of alkaline hydrogen oxidation reaction catalysts and alkaline oxygen reduction reaction catalysts. The book also covers the synthesis, properties, and perspectives of anion exchange membranes for alkaline fuel cells.Further, it addresses cell design and stack engineering, performance testing and characterization techniques, and advanced theoretical modeling of alkaline fuel cells. It also explores liquid fuels and their applications in transportation and beyond. The book concludes with a global overview of market dynamics, the impact and future opportunities of government policies, and future perspectives.

  • Chemical Looping Deoxygenated Gasification of Biomass

    A Renewable and Carbon-Neutral Energy Source
    • 1st Edition
    • Zhiqiang Sun + 1 more
    • English
    Chemical Looping Deoxygenated Gasification of Biomass: A Renewable and Carbon-Neutral Energy Source explores the emerging technology of chemical looping deoxygenated gasification, which offers a promising pathway for efficient biomass utilization. The book provides valuable insights into advancements, technological breakthroughs, and practical applications of biomass gasification, addressing the challenges of cost-effectiveness, scalability, and environmental impact. Sections provide an introduction to biomass cyclic conversion technology, including sorption-enhanced gasification, conventional chemical looping gasification, and chemical looping deoxygenated gasification, and cover the screening of deoxidizer materials using thermodynamic and machine learning approaches, system modeling, simulation, hydrogen production, carbon dioxide utilization, and the kinetics of biomass gasification. Each chapter provides detailed insights into the principles, methods, and applications of these technologies, all supported by real-world case studies, cost-benefit analyses, and lifecycle assessments. The book provides a thorough understanding of the technology's practical applications and economic viability, making it an essential reference for researchers, scientists, engineers, and professionals working in the bioenergy and biofuels sector.

  • Floating Energy Systems

    Shifting Tides in the Blue-Green Economy
    • 1st Edition
    • Catalina Spataru
    • English
    Floating Energy Systems: Shifting Tides in the Blue-Green Economy offers a detailed exploration and analysis of the latest technologies in floating energy systems – technologies and structures designed to generate power from renewable resources while floating on water bodies. These systems are part of the broader category of renewable energy technologies and have gained attention due to their potential to harness the untapped energy resources available on the surface of oceans, seas, lakes, and reservoirs. Key types of floating energy systems that are considered here include wind turbines, solar panels, wave energy converters, systems that utilize algae and other aquatic plants to produce bioenergy, ocean thermal energy conversion systems, and hybrid systems, providing readers with a comprehensive understanding of their capabilities and potential impact. Despite the many benefits floating energy systems offer, there are many challenges relating to weather and climate, reliability, performance, cost, and regulations, and the book provides in-depth coverage of transmission technologies, business models and finance, vulnerability and resilience of green energy assets, regulatory frameworks, legal challenges, and environmental impact assessments, as well as exploring future innovations, opportunities, and directions. This is a valuable resource for readers looking to understand floating energy systems and seeking to stay abreast of the latest innovations in sustainable energy, including researchers, advanced students, faculty, engineers, R&D, scientists, practitioners in the energy sector, policy makers, and other professionals involved in sustainable energy policy, economics, investment, consultancy, or advocacy.

  • Hydropower Plants

    A Contemporary Guide for Hydropower Plants in the Global Scope
    • 1st Edition
    • Štefan Tkáč + 2 more
    • English
    Hydropower Plants: A Contemporary Guide for Hydropower Plants in the Global Scope presents a complete overview of all aspects of hydroelectric power engineering. With a focus on unifying technical implementation with environmental and geopolitical issues, the book guides readers to the best design and construction methods for each project. Sections explain how to reduce the risk of unreliable and underestimated performance in the final construction of hydropower plants by balancing the complex connections between civil, mechanical, and hydrological aspects. Chapters address the current state-of-the-art, the essential problems in each area, and offer practical solutions and case studies from industry.This book offers hydropower professionals and students of civil, mechanical, and hydraulic engineering a contemporary guide to all aspects of hydropower plants from planning to construction.

  • Nanofluid Applications in Thermal Engineering

    Advanced Numerical Investigations
    • 1st Edition
    • Sabyasachi Mondal
    • English
    Nanofluid Applications in Thermal Engineering: Advanced Numerical Investigations delves into the forefront of scientific research, exploring advanced numerical techniques for modeling nanofluids in thermal engineering. Featuring cutting-edge computational simulations, it offers invaluable insights into optimizing heat transfer processes using hybrid and ternary nanofluids. From thermophysical and rheological analyses to exploring the thermal performance of magnetic power-law hybrid nanofluids, the book provides a comprehensive overview of the latest developments. By addressing daily challenges faced in research, such as selecting appropriate numerical methods and bridging the gap between mathematical models and real-world problems, this book serves as a guide for navigating complex nanofluid applications. Topics explore advanced numerical modeling of hybrid and ternary nanofluids, the effects of internal heat generation and chemical reactions in porous media, and the magneto thermal aspects of ternary composite nanomaterials. With a focus on real-life applications, such as Darcy-Forchheimer flow with Marangoni convection and thermal control for Casson hybrid nanofluid flow, this book equips readers with the knowledge needed to navigate complex nanofluid models in thermal engineering systems effectively. For thermal engineers and nanofluids researchers seeking to enhance their understanding and practical applications, this book is a vital resource.

  • Thermal Plasma-coupled Carbon Capture Utilization and Storage

    Unlocking the Potential of Thermal Plasma
    • 1st Edition
    • Vineet S. Sikarwar + 2 more
    • English
    Thermal Plasma-Coupled CCUS: Exploring Sustainable Solutions for Climate Change explores the use of thermal plasma with CCUS to combat climate change and promote sustainable development through waste management and carbon capture. Sections cover thermal plasma, conventional CCS technologies, plasma-coupled CCS, renewable hydrogen integration, lifecycle assessment, catalysts, current global scenarios, future prospects, and the social, political, and ethical aspects of CCS in combating climate change. The book considers environmental and economic assessments as well as social, political, and ethical aspects related to the adoption of this technology, along with innovative applications of thermal plasma with CCUS to advance sustainable development. This unique text offers valuable insights into the opportunities, constraints, and practical implementation of thermal plasma coupled CCUS systems and practical solutions for addressing climate challenges, making it an essential resource for researchers, policymakers, and industry experts seeking to drive positive change in the global fight against climate change.

  • Sustainable Materials for a Carbon-Neutral Energy Future

    • 1st Edition
    • Santanu Patra + 1 more
    • English
    Sustainable Materials for a Carbon-Neutral Energy Future explores cutting-edge materials that are emerging from advancements in materials science and engineering. These innovative, carbon-neutral materials have enhanced properties that reduce environmental impact, and include, but are not limited to, low-carbon footprint composites, bio-based polymers, and recyclable energy storage solutions. As climate change is one of the most pressing challenges facing humanity, necessitating a swift transition to sustainable energy sources, the development and adoption of carbon-neutrality plays a pivotal role in achieving this transition by reducing greenhouse gas emissions and enabling widespread implementation. This book equips readers on how to leverage these sustainable materials.The purpose of Sustainable Materials for a Carbon-Neutral Energy Future is to provide a timely and comprehensive resource that explores the potential of carbon-neutral approaches for green energy, addressing the growing demand for knowledge in this rapidly evolving field.

  • Power Electronics for Solar and Wind Energy Conversion Systems

    • 1st Edition
    • Felix Rojas Lobos + 2 more
    • English
    Power Electronics for Solar and Wind Energy Conversion Systems is a comprehensive compilation of important developments from a holistic viewpoint that considers power electronics, machines, control and mechanical systems. The study of power electronics and its integration in different applications is covered through tutorials, exercises and simulation examples that help identify real-time, solution-based models on the proposed converter and controller designs for renewable energy sources. A comprehensive chapter is devoted to explaining controller design for power electronics systems and power converters design, providing engineers and researchers in all areas of power and renewable engineering the most advanced knowledge needed.

  • Valorization of Organic Wastes for Bioenergy and Bioproducts

    • 1st Edition
    • Volume 11
    • English
    Volume 11 of the Advances in Bioenergy book series presents a comprehensive exploration of cutting-edge approaches to organic waste valorization, addressing both the tremendous opportunities and critical challenges facing the field. This volume brings together leading experts to examine diverse pathways for converting organic waste streams into valuable bioenergy and bioproducts, ranging from traditional methods like composting and biogas production to emerging technologies such as biohydrogen generation and bio-graphene synthesis. The chapters tackle crucial technical barriers including the enhancement of oily food waste conversion, advanced membrane separation technologies for organic acid recovery, and thermochemical conversion processes for high-value material production. Recognizing that sustainable waste valorization must address environmental concerns alongside economic viability, the volume dedicates substantial attention to pressing issues such as PFAS contamination in organic waste streams and greenhouse gas emissions from agricultural valorization systems. By bridging fundamental research with practical implementation challenges, this volume serves as an essential resource for researchers, engineers, policymakers, and industry professionals seeking to advance the circular bioeconomy through innovative organic waste management and conversion technologies.

  • Pioneering Approaches in Intelligence, Optimization, and Viability for Renewable Energy Development

    • 1st Edition
    • Karthickeyan Viswanathan + 3 more
    • English
    Pioneering Approaches in Intelligence, Optimization, and Viability for Renewable Energy Development brings together key advances that are driving growth and development across the renewable energy sector. Innovative areas covered include machine learning, cutting-edge optimization techniques, artificial intelligence, environmental protection, economic viability, integration of blockchain technology, forecasting and predictive analytics, resilience and reliability, and energy storage systems. This book will be of interest to all those looking to understand and implement advanced techniques for renewable energy development, including researchers, advanced students, faculty, engineers, R&D, other industry professionals, and policy makers.

  • From Waste to Energy

    Case Studies of Green Technology Implementation
    • 1st Edition
    • Sergio Nogales Delgado + 1 more
    • English
    From Waste to Energy: Case Studies of Green Technology Implementation offers a detailed exploration of green energy implementation through real-world case studies from around the globe and across various sectors. Emphasizing the transformational impact of practical green technology applications, the book discusses dynamic solutions for converting waste into energy through waste-to-energy projects. In addition, it explores how different countries cooperate to utilize waste-to-energy processes, from waste management to developing international cooperation. Sections address both the economic and practical challenges associated with these technologies, providing a comprehensive assessment needed to evaluate the sustainability of such practices.The book begins with an introduction to waste valorization and explores the various processes and managements of converting waste materials produced by industrial activities into valuable products or energy. Notably, it explores the transformation of agrowaste into biochar, which not only provides a sustainable method of waste management but also acts as a negative carbon technology, significantly contributing to climate change mitigation. In addition to exploring different methods for energy conversion, the book also provides a global perspective through case studies from different countries and regions of the world.

  • Sustainable Production of Microalgae Biomass as a Biodiesel Feedstock

    • 1st Edition
    • Bestami Özkaya + 3 more
    • English
    Sustainable Production of Microalgae Biomass as a Biodiesel Feedstock brings together the latest methods in the production and utilization of microalgae as biodiesel, offering new insights into how this can be environmentally-frie... renewable-integrated... energy efficient, and in a way that supports the mitigation of the effects of climate change. The book begins by introducing the different feedstock options for biodiesel production and their selection, the various biodiesel production processes, and the role of microalgae biodiesel as an alternative fuel for diesel engines. Strategies for reducing energy consumption during production, and the connections between microalgae cultivation and CO2 capture are also examined.Other sections focus on renewable energy integration with specific case studies. This is followed by a section that addresses sustainability and related impacts, including techno-economic analysis that compares conventional and renewable energy sources, and life cycle assessment. Finally, emerging technologies and future research opportunities are discussed. This new volume in the Woodhead Series in Bioenergy is valuable to all those with an interest in biodiesel production from microalgae, bioenergy, biotechnology, and clean energy, including graduate students, researchers, faculty, engineers, R&D, industry professionals, and policy makers.

  • Advances in Thermal Engineering

    Innovations for Sustainable Solutions
    • 1st Edition
    • G. Sriharan + 2 more
    • English
    Advances in Thermal Engineering: Innovations for Sustainable Solutions takes readers on a journey through cutting-edge thermal engineering innovations and sustainable solutions in this comprehensive reference book. From advanced heat transfer technologies to environmental sustainability initiatives, the book delves into a diverse array of topics, providing insights into the latest advancements in thermal sciences and engineering. It covers a wide range of topics in thermal engineering, including advanced heat transfer technologies, innovative cooling systems, sustainable energy solutions, and emerging materials. Readers will explore practical applications, case studies, and discussions on environmental sustainability, thermal management in various systems, and the latest advancements.From fundamental principles to cutting-edge research, this book provides a comprehensive overview of thermal engineering innovations and their applications in diverse industries. It will equip readers -- from researchers, engineers, educators, students, industry professionals, and environmentalists -- with the knowledge and tools needed to address challenges and innovate in the ever-evolving field of thermal engineering.

  • Automatic Control Of Dynamic Systems

    Applications in Ocean Wave Energy Conversion
    • 1st Edition
    • Shangyan Zou + 2 more
    • English
    Dynamics and Control of Ocean Wave Energy Converters: Theory and Applications outlines the fundamental theory and applications of wave energy production techniques, with detailed explanations of the dynamics and hydrodynamics of wave energy converters. Methods and models of control are described next, including essential techniques from systems response and PID control to state space realization. Next, advanced reactive control techniques, such as Latching Control, Bang-Bang Control, and advanced optimal control algorithms, will be outlined. The final chapters show how to calculate optimal estimation for wave energy conversion using techniques such as Kalman Filters and Extended Kalman filters.Providing a range of problems and case studies to enhance understanding, this book will take readers from the essentials of wave energy conversion to advanced control techniques for responsive energy production.

  • Microalgal Biofuels

    Biotechnology and Biorefineries
    • 1st Edition
    • Krishna Kumar Jaiswal + 1 more
    • English
    Microalgal Biofuels: Biotechnology and Biorefineries advances reader understanding of microalgal biofuels as a sustainable energy solution and encourages the transition to cleaner energy by highlighting cutting-edge biotechnologies and innovative practices for reducing CO2 emissions in the biofuel production process. Broken into five sections, the first section, Microalgal Biofuels: Biotechnology and Biorefineries presents the scientific underpinnings of biofuel production and explores cutting-edge biotechnologies that are transforming microalgal biofuel production. Section two, "Advanced Microalgal Biofuels," focuses on the latest developments in biodiesel production from microalgae and discusses the novel production methods and standards in the industry. The third section, "Microalgal Biorefineries,” provides an in-depth examination of the design, technologies, and impacts of microalgal biorefineries with emphasis on the importance of optimal biomass utilization. Section four, "Environmental and Co-Product Perspectives," explores the environmental benefits of microalgal biofuels and the potential use of co-products such as nutraceuticals, animal feed, and bioplastics that reinforce the concept of a circular bioeconomy. Finally, section five, "Future Trends and Case Studies," considers the future of microalgal biofuels and discusses market trends, commercial production challenges, and innovative case studies from the field. Researchers and professionals in the fields of bioenergy, biotechnology, renewable energy, and environmental science, as well as students studying related fields will benefit from this timely reference.

  • Renewable Energy and Process Plant's Piping and Equipment Estimating Manual

    • 1st Edition
    • Kenneth Storm
    • English
    Renewable Energy and Process Plant's Piping and Equipment Estimating Manual is a forward-thinking guide that blends hands-on construction estimating with robust, data-driven strategies. Storm introduces tested techniques for calculating man-hours, helping professionals minimize planning and execution costs while boosting accuracy. The manual thoroughly examines contemporary estimation practices, featuring statistical analysis, real-world data, and advanced Excel modeling to produce reliable, repeatable results. It’s especially relevant for renewable energy projects—including solar, geothermal, and green hydrogen—offering tailored estimating procedures and equipment scopes to handle design variability. This strategic approach empowers estimators to align estimates closely with actual field data.In addition to the foundational principles and labor productivity analysis, the manual is structured across seventeen chapters covering a wide range of plant types and specialties from combined cycle power stations to specialized facilities like pulp and paper, wastewater treatment, and industrial package boilers. Notably, dedicated chapters focus on estimating for renewable energy sectors, delivering practical strategies for equipment installation and construction. With sample estimates and statistical applications, the book serves as an essential reference for construction estimators, engineers, and project managers seeking efficient, error-reducing estimation techniques and comprehensive analytical tools for complex projects.

  • Artificial Intelligence for Energy Efficiency

    • 1st Edition
    • Dasheng Lee + 2 more
    • English
    Artificial Intelligence for Energy Efficiency is a comprehensive exploration of AI application technologies. The book integrates AI algorithms with the operational principles of electrical machinery and energy systems and introduces how these algorithms can alter the operational characteristics of such systems. With a focus on their use in enhancing energy efficiency, it imparts interdisciplinary knowledge and a deep understanding of the principles and methods of AI applications. The book begins with an overview of global trends in enhancing energy efficiency, followed by an introduction to AI algorithms applied in this field. Subsequent chapters, supported by industry case studies, delve into AI applications in enhancing motor efficiency, building and energy saving for building equipment, and smart city development. The book also addresses AI computing power saving and discusses the evolution of AI and the limits of energy efficiency improvement. It concludes with future prospects and the most beneficial application of AI for sustainable human development. Artificial Intelligence for Energy Efficiency is an essential read for graduate students in mechanical, electrical, architectural, and energy-related fields, as well as researchers interested in the intersection of AI and energy efficiency. This comprehensive guide offers a wealth of research case studies, making it a valuable reference tool for professionals in the energy sector.

  • Hydrogen and Bioenergy

    Synergies for a Renewable Energy Future
    • 1st Edition
    • Petronilla Fragiacomo + 3 more
    • English
    Hydrogen and Bioenergy: Synergies for a Renewable Energy Future addresses the crucial challenges within the renewable energy sector. The book explores the synergies between hydrogen and bioenergy, emphasizing hydrogen’s pivotal role in providing carbon-neutral and sustainable solutions. Sections overview renewable energy and the role of hydrogen and bioenergy and examine the fundamentals of biofuels and bioenergy, hydrogen production technologies, and the challenges associated with hydrogen storage and distribution. The book notably explores strategies for integrating hydrogen and bioenergy systems within existing renewable energy grids, the production of e-fuels, and the policy, economic, and social aspects of adopting these technologies. Additionally, the book includes diverse global case studies highlighting successful hydrogen and bioenergy projects and discusses future directions and emerging technologies in this field. Users will find the most up-to-date advancements and practical applications for students, researchers, scientists, engineers, and industry professionals involved in the hydrogen and bioenergy sectors.

  • Handbook of Photovoltaic Systems Engineering

    Design, Installation, and Recommended Practices
    • 1st Edition
    • Tamer Khatib
    • English
    Handbook of Photovoltaic Systems Engineering: Design, Installation, and Recommended Practices is a detailed resource that enables the reader to understand how to design, tender, supervise, commission, and manage all types of PV systems. The initial chapters describe the basic steps in the planning, design, engineering, and commissioning of PV power systems, organized by category, covering standalone systems, grid connected systems, hybrid systems, and solar powered irrigation systems. This is followed by in-depth chapters on environmental and social impact assessment, the tendering process, and performance evaluation models, with a focus throughout on offering practical guidance and explaining the technical aspects of these systems.This is a valuable resource for readers looking for basic information and practical guidance on photovoltaics systems engineering, with a view to designing, installing, or optimizing PV systems. This includes students, graduates, engineers, technicians, and other industry professionals in the photovoltaics sector.

  • Sustainable Waste-to-Energy

    Life Cycle Assessment and Economical Metrics
    • 1st Edition
    • Ashkan Nabavi-Pelesaraei + 1 more
    • English
    Sustainable Waste-to-Energy: Life Cycle Assessment and Economical Metrics is a comprehensive guide that provides an in-depth understanding of the various Waste-to-Energy technologies, their environmental and economic impacts, and the detailed protocols for conducting Life-Cycle Assessments, thorough economic assessments, and real-world case studies, making it a crucial tool for decision-making in the field of waste management and renewable energy.The book opens with a comprehensive overview of Waste-to-Energy technologies, their conversion methods, and future prospects. It then examines the integration of waste management and energy recovery in the circular economy, using case studies and SWOT analyses. The book further explores the life-cycle evaluation of energy production from waste conversion processes and the role of Life-Cycle Assessment in urban waste management. Case studies on Waste-to-Energy projects offer global perspectives on sustainability and decarbonization.This is an invaluable resource for academic and industry researchers, engineers, scientists, sustainability managers, policy advisors, and project leaders who are involved in the development, implementation, and refinement of Waste-to-Energy initiatives.

  • Solid Oxide Fuel Cells Science and Engineering

    Fundamentals, Materials, and Technologies
    • 1st Edition
    • Kongfa Chen + 2 more
    • English
    Solid Oxide Fuel Cells Science and Engineering: Fundamentals, Materials, and Technologies is a comprehensive introduction to the fundamentals of solid oxide fuel cells. In addition to systematically reviewing the science and technologies of solid oxide fuel cells, the book provides numerical simulations, engineering applications and other important guidance on the commercialization and engineering of solid oxide fuel cells. The opening chapters of the book systematically explain the fundamentals, key emerging materials and technologies of solid oxide fuel cells, including surface chemistry and segregation, and oxygen reduction and fuel (such as hydrogen) oxidation reactions.It then examines the latest developments of cathode and anode materials as well as the robust nanostructured electrodes fabricated by innovative approaches such as exsolution for efficient and durable solid oxide fuel cells. The development of solid oxide fuel cells stacks and systems are also explained within the context of practical application. Finally, the book critically evaluates the development and fundamental issues of reversible solid oxide cells, as a promising technology for energy storage and regeneration. Throughout the book, there is a focus on increasing the theoretical and practical efficiency of solid oxide fuel cells, such as by activity/stability towards high power densities and increasing device lifetimes for commercialization.

  • Sustainable Development of Renewable Energy

    Volume 2: Opportunities in Production, Storage, and Integration
    • 1st Edition
    • Mejdi Jeguirim
    • English
    Sustainable Development of Renewable Energy: Volume 2—Opportunities in Production, Storage, and Integration is the sixth book in the Advances in Renewable Energy Technologies series. Based on the key themes of the International Renewable Energy Congress (IREC), this volume looks at the production performance of renewable energy sources and emerging production processes.Containing all major renewable energy technologies in individual chapters, this reference includes some of the most dynamic developments, good practices, and future concepts in solar energy systems, energy storage, geothermal energy, bioenergy, wind energy, fuel cell, and hydrogen production, as well as in policy and regulation. By reviewing these state-of-the-art advances, considering them with real work application, and analyzing key challenges, this book provides readers with an up-to-date source on renewable energy grid integration and its importance in aiding the energy transition.This is a valuable resource for graduates, researchers, professors, and industry professionals involved in the renewable energy sector, as well as advanced engineering courses dealing with renewable energy, sources, thermal and electrical energy production, and sustainability.

  • Handbook of Microalgae-Based Processes and Products

    Fundamentals and Advances in Energy, Food, Feed, Fertilizer, and Bioactive Compounds
    • 2nd Edition
    • Eduardo Jacob-Lopes + 3 more
    • English
    The Handbook of Microalgae-Based Processes and Products provides a complete overview of all aspects involved in the production and utilization of microalgae resources at commercial scale. Divided into five parts (foundations of microalgae research, microalgae cultivation and downstream processing, microalgae compounds and their multifaceted applications, engineering, bioeconomy, and sustainability in microalgae-based systems, and emerging technologies and breakthroughs), the book explores the microbiological, physiological, and metabolic aspects of microalgae, microalgal production systems, wastewater treatment and bioremediation using microalgae, CO₂ capture, microalgae harvesting techniques, and extraction of biomolecules from microalgae. It covers a wide range of microalgal compounds and applications of commercial relevance, including food ingredients, proteins and bioactive peptides, polysaccharides, lipids and fatty acids, pigments, sterols, industrial enzymes, volatile organic compounds, and bioactive molecules. The book also discusses applications in food and feed, human health, agriculture, cosmeceuticals, bioplastics, and biofuels, as well as innovative uses such as cultured meat production and photosynthetic materials for biomedical applications. Moreover, it presents and discusses engineering and sustainability tools applied to microalgae biotechnology, such as process integration, process intensification, exergy analysis, industrial-scale production strategies, microalgal biorefineries, and the role of microalgae technologies in the circular bioeconomy and sustainable development.The coverage of a broad range of potential microalgae processes and products in a single volume makes this handbook an indispensable reference for engineering researchers in academia and industry in the fields of bioenergy, sustainable development, and high-value compounds from biomass, as well as graduate students exploring those areas. Engineering professionals in bio-based industries will also find valuable information here when planning or implementing the use of microalgal technologies.

  • Emerging Technologies in Yield Optimization and Production of Biomass Feedstock

    • 1st Edition
    • Yogesh K. Ahlawat
    • English
    Emerging Technologies in Yield Optimization and Production of Biomass Feedstock offers a comprehensive evaluation of biomass feedstock, exploring its diverse productions and the challenges of enhancing transformation efficiency in bioenergy species. The book explores the challenges of bioenergy through case studies, covering various stages: cultivation, harvesting, pre-processing, conversion, and utilization. In each stage, the book explains how to maximize efficiency in yield optimization and production of biomass feedstock using innovative solutions to ensure economic benefits and environmental sustainability. It discusses the molecular farming approach, emphasizing the importance of improving transformation efficiency in bioenergy species.The book then reviews species like algae, switchgrass, corn, poplars, and sugarcane, assessing their potential and stressing the need for appropriate species selection to optimize bioenergy transformation processes. Users will also find new methods for gene delivery, transformation, and regeneration, and their applications in modifying bioenergy species for enhanced traits. Additionally, the book covers synthetic biology tools like biosensors, genetic circuits, and pathway engineering, explaining how these tools can be used to further enhance transformation efficiency in bioenergy species.

  • Piping, Valves, and Process Engineering in Carbon Capture Systems

    Applications, Sustainability, and Environmental Protection
    • 1st Edition
    • Karan Sotoodeh
    • English
    Piping, Valves, and Process Engineering in Carbon Capture Systems: Applications, Sustainability, and Environmental Protection is a specialized scientific reference that addresses the critical role of piping and valves within CCS infrastructure. As global decarbonization efforts intensify, the need for advanced, reliable, and environmentally- sustainable piping and valve systems becomes paramount. This book explores the unique challenges faced in designing, selecting materials, and operating piping and valves in high-pressure, corrosive, and supercritical CO₂ environments, integrating recent technological advancements such as digital twins, smart monitoring, and innovative materials.The book's comprehensive contents include chapters on fundamental principles, standards, material considerations, fabrication, failure modes, digitalization, lifecycle assessment, and integration with renewable energy sources. The scope extends to emerging topics like direct air capture (DAC), hybrid pipelines, and bio-inspired coatings, making it a vital resource for engineers, researchers, and practitioners involved in CCS and low-carbon energy projects. The book’s practical approach, supported by case studies and illustrations, ensures that professionals can apply the knowledge immediately to improve system safety, efficiency, and sustainability.

  • Biobased Materials in Carbon Capture Applications

    • 1st Edition
    • Rajashree Borgohain + 2 more
    • English
    Biobased Materials in Carbon Capture Applications confronts the urgent challenge of reducing carbon dioxide (CO2) emissions through innovative, sustainable solutions. This reference book explores the use of biobased materials—derived from renewable biomass—in CO2 capture, storage, and utilization. By addressing climate change and greenhouse gas mitigation, the text offers a comprehensive overview of current technologies and emerging advancements in biobased CO2 capture. Readers are guided from fundamental principles to practical applications, emphasizing the environmental and economic importance of adopting sustainable alternatives to traditional carbon capture methods. This resource is crafted for researchers, engineers, policymakers, and industry professionals.Beyond its technical depth, the book delves into performance evaluation methods, hybrid CO2 capture systems, and presents real-world case studies that demonstrate scalability and practical feasibility. It also examines environmental and regulatory implications, investigates future trends, and concludes with actionable recommendations for implementing biobased materials in CO2 emission reduction strategies.

  • Absorption Thermal Energy Storage

    Fundamentals and Advances
    • 1st Edition
    • Wei Wu + 2 more
    • English
    Absorption Thermal Energy Storage: Fundamentals and Advances highlights the key findings and innovative approaches necessary for advancing absorption thermal energy storage systems. The book delves into advanced sorption cycles, novel working fluids, and the evaluation of design considerations. It also covers optimization techniques and performance assessment methodologies, making it a critical resource for developing efficient storage solutions towards a sustainable and low-carbon future. Its comprehensive coverage of design considerations, optimization techniques, and performance assessment methodologies make it indispensable for those aiming to develop efficient energy storage solutions.Discover groundbreaking insights and practical solutions for the research, development, and promotion of absorption thermal energy storage in this contemporary reference book. Authored by a team of expert researchers, this text presents innovative approaches to enhance the performance of absorption thermal energy storage systems. From the exploration of advanced sorption cycles to novel working fluids, the book provides essential knowledge for engineers, educators, students, and researchers.

  • Innovations in Production and Applications of Alternative Fuels

    • 1st Edition
    • Hafiz Muhammad Ali + 1 more
    • English
    Innovations in Production and Applications of Alternative Fuels is a comprehensive reference book that covers the basics of alternative fuels, production techniques, physicochemical properties, and their various applications from a thermal engineering perspective. It focuses on alternative fuel production from diverse feedstocks, providing insights into feedstock selection, preparation techniques, combustion performance, emissions, and the use of additives and nanoparticles to enhance fuel performance in internal combustion engines. This book is essential for understanding the field of alternative fuels, and is invaluable for professionals and researchers in energy engineering, thermal engineering, environmental science, and sustainable development.It delves into different feedstocks, including edible-based, non-edible based, waste-based alternatives, algae-based feedstocks, and hydrogen carriers like ammonia fuel. It also explores the application of nanoparticles and additives to enhance fuel performance. Additionally, economic aspects, energy policies, and challenges associated with alternative fuels are discussed, offering practical insights and recommendations for future advancements.

  • Smart Safety Management of Energy Storage Batteries

    • 1st Edition
    • Shunli Wang + 6 more
    • English
    Smart Safety Management of Energy Storage Batteries addresses battery management in new power systems which is an important component of the new generation of information technology and power systems. This book covers the application of this new type of power storage as well as power system identification modeling, intelligent energy storage battery status evaluation, and key technologies in intelligent management monitoring. Written for researchers, engineers, and students studying related areas, this book supports research in control science and control, automation, and electrical engineering, and serves as a technical reference for the application of new electric energy storage battery science and technology.

  • Geopolitical Strategies for Renewable Energy Access, Development, and Growth

    • 1st Edition
    • Paul C. Okonkwo
    • English
    Geopolitical Strategies for Renewable Energy Access, Development, and Growth offers a thorough and unified structure for understanding and navigating the interconnections between renewable energy technology, energy planning, energy security, climate change mitigation, economic development, environmental sustainability, and global geopolitical dynamics. The book aims to address potential obstacles and to explore the advantages for those involved in advancing or implementing the shift towards renewable energy sources. This is supported by extensive case studies from across the globe, emphasizing effective approaches and obstacles encountered in the shift towards renewable energy. The book also analyzes present-day patterns, potential obstacles, and promising opportunities to present seven scenarios that could build a coherent geopolitical trajectory towards worldwide availability of renewable energy technology. The scenarios include political economics, resource curse, dependency scenario, modernization scenario, environmental Kuznets curve, innovation diffusion scenario, and institutional framework scenario. This is a valuable resource for all those looking to understand the geopolitical complexities of energy transition and the possible inter-disciplinary ways forward to advance renewable energy, including advanced students, researchers, faculty, engineers, R&D, industry professionals, and policy makers.

  • Hydrogen Fuel Cell Electric Vehicles

    Fundamentals, Design, Performance, Applications, and AI-Driven Commercialization
    • 1st Edition
    • Morteza Nazari-Heris + 2 more
    • English
    Hydrogen Fuel Cell Electric Vehicles: Fundamentals, Design, Performance, Applications, and AI-Driven Commercialization provides an authoritative resource on hydrogen fuel cell electric vehicles (HFCEVs), covering fundamentals, methods, and applications, and addressing the latest advances and changes in related technologies, and in the market. This book aims to serve as a comprehensive and interdisciplinary resource for understanding HFCEVs and their role in achieving net-zero electrification. It investigates HFCEVs from multiple dimensions, beginning with the fundamentals of HFCEV operation, their environmental benefits, and their principles. In addition, it presents a detailed strengths, weaknesses, opportunities, and threats analysis, examining the intricacies of hydrogen production and infrastructure development. It further assesses the techno-economic feasibility of green hydrogen-powered HFCEVs through levelized cost analyses, providing insights into their economic viability. In addition, the book covers the design, performance, and applications of HFCEVs, alongside the role of hydrogen fueling stations, their technologies, and prognostic management. The integration of artificial intelligence (AI) and machine learning in optimizing energy management is explored, highlighting innovative approaches to enhancing efficiency. The book also addresses industrial and commercial gaps, identifying opportunities for startups and entrepreneurs in this field. In addition, it reviews international standards governing HFCEVs and aligns their advancements with the United Nations Sustainable Development Goals (UN-SDGs), emphasizing their broader techno-socio-economi... impact. Finally, the challenges and future work are considered, including technological, infrastructural, and economic obstacles, and their possible solutions.This is a valuable book for all those with an interest in hydrogen fuel cells, clean energy technologies, electric vehicles, sustainable transportation, and energy storage, including researchers, students, faculty, engineers, Research & Development professionals, scientists, industry professionals, and policymakers.

  • Energy and Resource Recovery from Municipal Wastewater and Biosolids

    A Circular Economy Framework
    • 1st Edition
    • Yu Liu + 3 more
    • English
    Energy and Resource Recovery from Municipal Wastewater and Biosolids: A Circular Economy Framework covers the latest technological advancements and innovative processes for energy and resource recovery from municipal wastewater and biosolids. Focusing on multi-functional approaches for bioenergy production, wastewater reclamation, and resource recovery, the book presents sustainable practices to reduce carbon emissions in the waste industry within a circular economy framework. It begins with an overview of current status, challenges, and future directions of municipal wastewater treatment and biosolids management. Subsequent chapters explore direct energy recovery, ammonium and phosphorus recovery, biopolymers recovery, and enhanced fermentation and anaerobic digestion of waste sludge.The book also covers co-digestion of waste sludge and food waste, thermal-chemical treatment, microbial lipid production, and electric energy production from biosolids in microbial fuel cells. Integrated engineering approaches for biosolids management towards zero-solid disposal and the future of circular economy-driven wastewater and biosolids valorization are also discussed in detail.

  • Advancing Thermal Technologies

    Practical Applications and Future Materials
    • 1st Edition
    • Amit Soni + 3 more
    • English
    Advancing Thermal Technologies: Practical Applications and Future Materials is a comprehensive exploration of the vital intersection between thermal materials and technology. This book delves into the intricate realm of thermal science, navigating through the latest advancements and innovative materials shaping the future landscape of technology. With a focus on practical applications, it offers insights and strategies to enhance energy efficiency, optimize manufacturing processes, and promote sustainability across various industries. Topics covered include thermoelectric devices and applications, advancements in thermoelectric technology, and ejector-enhanced heat pumps. It also explores heat transfer and conduction in composite materials, as well as advanced materials for thermal applications.The book further delves into solar energy and energy efficiency, including the application of phase change materials in solar panels, and energy storage and nanotechnology, such as recent developments in energy storage utilizing quantum dots.

  • Green Hydrogen Generation from Biomass

    • 1st Edition
    • Yasser Vasseghian + 2 more
    • English
    Green Hydrogen Generation from Biomass begins with an introduction to green hydrogen and its generation methods and gradually explores complete methods for using biomass to produce sustainable hydrogen. It discusses microbial pathways and advanced technologies, such as dark fermentation and photofermentation, to produce hydrogen. This book reviews the latest scientific achievements in the field of microbial engineering for enhanced biohydrogen generation. In addition, the environmental impacts and a life cycle assessment of this clean fuel are also discussed. In the final chapters, methods for biohydrogen storage and distribution, its use in transportation, and comparison with common hydrogen generation technologies are examined to provide the reader with a comprehensive understanding of the subject. The final chapters include a review of costs, techno-economic assessment, government regulations, and innovative applications of artificial intelligence in biohydrogen generation.

  • Navigating a Sustainable Future with Phase Change Materials for Energy Storage

    • 1st Edition
    • Adarsh Kumar Pandey + 1 more
    • English
    Navigating a Sustainable Future with Phase Change Materials for Energy Storage provides a guide to PCMs that encompasses fundamental principles, recent innovations, and interdisciplinary applications. By offering detailed insight into improved PCM performance, cost-effective production, and integration with renewable energy and smart technologies, this book equips readers with the necessary knowledge to advance energy efficiency, meet regulatory requirements and achieve sustainability goals. Written for researchers and students in the fields of material science, mechanical engineering, chemical engineering, and energy engineering, especially those with a focus on thermal energy storage, Navigating a Sustainable Future with Phase Change Materials for Energy Storage is sure to be a welcomed resource.

  • Application of Phase Change Materials in Energy Storage and Conversion Systems

    • 1st Edition
    • Mehdi Mehrpooya + 2 more
    • English
    Application of Phase Change Materials in Energy Storage and Conversion Systems delves into the use of phase change materials (PCMs) in various energy storage and conversion systems. Starting with an explanation of renewable energy and thermal energy storage, the book comprises thirteen chapters that systematically cover PCM fundamentals and their modeling, design parameters for thermal systems, and factors influencing PCM storage capacity. Additional critical points include the exploration of PCM applications in thermal energy storage systems and buildings, the use of computational fluid dynamics (CFD) for PCM modeling, and optimization techniques for thermal energy storage systems.This is a comprehensive resource for anyone interested in the theoretical and practical aspects of PCMs. Engineers, researchers, students, and system designers will find this book invaluable for understanding and utilizing PCMs in energy storage solutions.

  • ASME Codes and Standards for Piping and Valves

    Engineering Applications in Hydrogen, Renewable, and Conventional Energy Systems
    • 1st Edition
    • Karan Sotoodeh
    • English
    ASME Codes and Standards for Piping and Valves: Engineering Applications in Hydrogen, Renewable, and Conventional Energy Systems delivers a thorough introduction to ASME B31 and B16 standards, offering clear explanations and practical strategies for designing, building, and maintaining piping and valve systems used in a variety of energy sectors. Covering everything from basic principles to advanced techniques in fabrication, inspection, and testing, this book examines important standards like B31.1, B31.3, and B31.12, as well as B16 fittings, flanges, and valves. Special focus is given to hydrogen piping, geothermal, biomass, and carbon capture, with dedicated chapters on material selection and operational best practices.In addition to its practical guidance, the book stands out for its emphasis on real-world applications, using case studies and illustrations to help readers navigate the complexities of modern energy systems. Whether you’re an engineer, project manager, student, or trainer, this resource ensures a solid grasp of the latest ASME codes and their relevance to emerging energy technologies.

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