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Books in Energy and power

Elsevier’s Energy and Power Collection offers the latest innovations in the energy transition with a focus on content that supports and advances the reduction of CO2 emissions. The collection includes content on solar, wind, geothermal, nuclear, biofuels and bioenergy, hydrogen and fuel cells, and addresses topics such as energy storage, efficiency, management, economics, and policy, among others.

  • Production of Bio-Oil and Biocrude from Thermochemical Conversion of Biomass

    Upgrading and Utilization
    • 1st Edition
    • April 1, 2026
    • Yulin Hu + 2 more
    • English
    Production of Bio-Oil and Biocrude from Thermochemical Conversion of Biomass: Upgrading and Utilization presents recent developments in the thermochemical conversion of biomass for bio-oil and biocrude production, including both dry and wet processes, and advancements in catalyst selection and design for bio-oil and biocrude upgrading. The book begins with an introduction to the background, motivation, and objectives of bio-oil and biocrude production. Subsequent chapters cover biomass sources and availability, fundamentals of thermochemical conversion, and biomass pretreatment techniques. The book explains various processes, including fast pyrolysis and hydrothermal liquefaction for bio-oil and biocrude production, discussing technological advancements, challenges, and future perspectives. It also addresses fuel properties tuning, catalytic hydrotreatment for bio-oil and biocrude upgrading and potential applications that are highlighted in global case studies with successful bio-oil and biocrude implementations. Addressing the critical need to develop renewable and sustainable resources like biomass and organic waste, the book integrates bioeconomy and biorefinery concepts to provide the latest technological advancements, practical applications, and real-world case studies, helping readers bridge the gap between academic research and industrial development in bio-oil and biocrude production, upgrading, and utilization.

  • Artificial Intelligence for Energy Efficiency

    • 1st Edition
    • April 1, 2026
    • 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.

  • Machine Learning and Bayesian Methods in Inverse Heat Transfer

    • 1st Edition
    • March 20, 2026
    • Balaji Srinivasan + 1 more
    • English
    Machine Learning and Bayesian Methods in Inverse Heat Transfer offers a comprehensive exploration of inverse problems in heat transfer, blending classical techniques with modern advancements in machine learning and Bayesian methods. This essential guide provides a hands-on approach with practical examples, making complex concepts accessible to readers seeking to deepen their understanding of this critical field. The text covers essential topics including Introduction to Inverse Problems, Statistical Description of Errors and General Approach, Classical Techniques, Bayesian Methods, and a Machine Learning Approach to Inverse Problems. Readers will explore key concepts such as Gaussian distribution, linear and non-linear regression, Gauss-Newton algorithm, Tikhonov regularization, and more, gaining a solid foundation in applying these methods to real-world heat transfer scenarios. For engineers, scientists, senior undergraduates, graduates, and researchers in heat transfer and related fields, this book serves as a vital resource. By offering clear explanations, practical examples, and MATLAB codes, it empowers readers to tackle inverse problems with confidence. Whether readers are practicing engineers or graduate students specializing in heat and mass transfer, this book equips them with the tools and knowledge to excel and further advances in their field.

  • Handbook of Microalgae-Based Processes and Products

    Fundamentals and Advances in Energy, Food, Feed, Fertilizer, and Bioactive Compounds
    • 2nd Edition
    • March 16, 2026
    • Eduardo Jacob-Lopes + 3 more
    • English
    The Handbook of Microalgae-Based Processes and Products: Fundamentals and Advances in Energy, Food, Feed, Fertilizer, and Bioactive Compounds, Second Edition is an essential resource for understanding commercial-scale microalgae production and utilization. Covering the fundamentals, processes, products, engineering approaches, and advancements in microalgae technology, this comprehensive guide explores microbiology, metabolic aspects, production systems, wastewater treatment, CO2 capture, and harvesting techniques. It provides detailed insights into biogas, biodiesel, bioethanol, biohydrogen, single-cell protein, biofertilizers, and many other microalgal products. Moreover, the book discusses the engineering tools applied to microalgae biotechnology, such as process integration, intensification, techno-economic analysis, biorefineries, and lifecycle assessment.Finally, it addresses industrial applications and sustainable development, making it invaluable for researchers, students, and professionals in bioenergy, biomass, and high-value compounds. The holistic coverage of microalgae processes and products positions this handbook as a critical reference for engineering and bio-based industry planning.

  • Biobased Materials in Carbon Capture Applications

    • 1st Edition
    • March 13, 2026
    • 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.

  • Hydrogen Fuel Cell Electric Vehicles

    Fundamentals, Design, Performance, Applications, and AI-Driven Commercialization
    • 1st Edition
    • March 9, 2026
    • 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. Sections introduce the key concepts of hydrogen fuel cell technology, classification, and types, along with operational characteristics, advantages, limitations, and discussions on hydrogen production and infrastructure. Other sections focus on HFCEVs, with in-depth chapters on components, performance, efficiency, applications, challenges, future perspectives, artificial intelligence, machine learning, and international regulations and standards.Case studies that demonstrate real-world implementations and pilot projects, along with lessons learned and best practice guidance are also included. Finally, example codes for intelligent control methodologies for HFCEVs are provided in the appendix.

  • Innovations in Production and Applications of Alternative Fuels

    • 1st Edition
    • March 9, 2026
    • 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.

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

    • 1st Edition
    • March 9, 2026
    • 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.

  • Well Integrity for Abandoned Well Re-entries

    • 1st Edition
    • March 6, 2026
    • Les Skinner
    • English
    Well Integrity for Abandoned Well Re-entries addresses well integrity and operational risks that accompany the benefits of using an old and abandoned wellbore by providing it a second chance to perform. Re-entering an abandoned well provides new life to an old wellbore by reducing the need for drilling new wells. This, in turn, reduces emissions footprint, drilling waste, and costs for some wells. The book covers well integrity basics, abandoned wells, analysis required for re-entry, potential uses for re-entered wells (including applications for EOR, CO2 EOR with sequestration, natural gas storage, geothermal heat recovery, and much more.)Packed with case studies and tips for practical application, this book provides readers with an understanding of re-entry techniques, pitfalls, and diagnostics to determine well integrity. This novel text digs deep into the process and benefits of re-entering abandoned wells in support of sustainability.

  • Economic Impact of the Energy Transition

    Energy-Environment-Economy Models
    • 1st Edition
    • March 1, 2026
    • Jinsoo Kim + 2 more
    • English
    Economic Impact of the Energy Transition: Energy-Environment-E... Models explores and analyzes the complex nature of energy transition, the inter-relationships between energy, environment, and economy, and the use of 3E models to assess economic impact, including a new energy-environment-e... model introduced by the book's editors. The book begins by introducing energy transition and economic impacts, explaining classical macro-econometric models, input-output and CGE models, and macroeconomic models. The second part of the book focuses on energy-environment-e... (3E) models developed globally, with in-depth chapters examining GEC, E3ME, NEMS-MAM, and finally the new System of Three E-Models (STEM).The last section of the book provides case studies demonstrating the utilization of different 3E models in various parts of the world. A final chapter carefully examines the advantages and limitations of each model, its policy implications, and considerations for empirical analysis, discusses how these can be applied, addresses the remaining challenges in the field of energy transition and economic impact analysis, and suggests directions for future research. This is a valuable resource for researchers, advanced students, faculty, scientists, engineers, analysts, policy makers, consultants, and other industry professionals with an interest in energy transition, modeling, policy, and the interconnection between energy, environment, and economy.

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