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Elsevier

Books in Chemical engineering

The Chemical Engineering collection offers content that combines research with foundational knowledge, practical information, methods and case studies, in a variety of areas, including biochemical engineering, catalysis, filtration & separation, colloids & surface chemistry, electrochemical engineering, energy & transport processes, materials chemistry, metallurgy, process engineering, safety & reliability, sustainable & environmental, to help chemical engineers address the challenges we face today, including climate change, global warming, health and nutrition, and alternative energy.

  • Computational Fluid Dynamics in Chemical Engineering

    Fundamentals and Applications
    • 1st Edition
    • Cíntia Soares + 1 more
    • English
    Computational Fluid Dynamics in Chemical Engineering: Fundamentals and Applications presents the key concepts that are the base of this discipline, showing how it is strongly related to a variety of adjacent areas. The fundamentals of the necessary mathematical modeling required and the solution of complex system of equations using CFD techniques are presented in detail, along with a variety of applications of CFD in the context of Chemical Reaction Engineering. Detailed examples, ranging from single-phase to multiphase reactors (including operation in microfluidic devices before presenting the main trends, challenges, and opportunities for CFD in this area over the next decades) are explored.Other sections present a variety of applications of CFD in the context of the Unit Operations of Chemical Engineering. Detailed examples, ranging from fluid mixing to coupled heat and mass transport phenomena, passing through heat transfer, solids handling and transport in porous media are explored. The book concludes with an overview of advanced uses of CFD in Chemical Engineering and related areas with a focus on Multiphysics applications (e.g., combining CFD with acoustics, analyzing and designing photochemical reactors coupling CFD with light modelling, etc.). Multiscale applications combining CFD with macroscopic and molecular simulation are also discussed. Finally, an overview of combining CFD with optimization techniques (including DOE and machine learning) is presented.

  • Process Intensification for Carbon Capture and Utilization

    • 1st Edition
    • Suttichai Assabumrungrat + 2 more
    • English
    Process Intensification for Carbon Capture and Utilization provides a comprehensive review of carbon dioxide capture and utilization (CCU) technologies from a process engineering approach, focusing on process intensification to enhance sustainability and efficient chemical process and process design. Sections provide a brief theoretical overview of CCU process design and then build to practical guidance – offering case studies and real-world applications for achieving environmental sustainability goals, reduction of carbon emissions, and the creation of value-added products from captured CO2. Chapters also highlight advancements in methodologies and tools of Process Systems Engineering (PSE) for the design of CCU processes, including outlines and worked examples.This book is suitable for a wide audience in academia and industry interested in CCU technologies, and will be valuable for students, research scientists, engineers, and practitioners seeking an overview or in-depth knowledge on CCU. Additionally, the book's content can be used as teaching resources for advanced courses.

  • Recent Advances in Artificial Intelligence and Machine Learning for Thermochemical and Biochemical Bioprocess

    • 1st Edition
    • Mukesh Kumar Awasthi + 2 more
    • English
    Recent Advances in Artificial Intelligence and Machine Learning for Thermochemical and Biochemical Bioprocess delves into the transformative role of AI and ML in enhancing the efficiency and effectiveness of bioprocess operations. The book covers everything from predictive modeling and bioreactor design to the integration of IoT in Bioprocess 4.0 while also synthesizing the latest scientific advancements and practical applications in the field of thermochemical and biochemical bioprocesses. It explores a wide array of topics, including deep learning applications in gasification, the role of artificial neural networks in process control, and the use of genetic algorithms in thermochemical processing.Each chapter offers invaluable insights into current methodologies and future perspectives, providing a solid foundation for applying AI and ML techniques to tackle pressing challenges in clean fuel production, waste management, and climate change mitigation.

  • Intensification and Sustainability in Chemical Engineering

    • 1st Edition
    • Cíntia Soares + 2 more
    • English
    Intensification and Sustainability in Chemical Engineering serves as a comprehensive guide to chemical process engineering and sustainability. Across four sections, the book covers topics such as sustainability metrics, energy efficiency, renewable energy integration, green synthesis, process intensification, circular economy, electrification, biotechnology, digitalization, and nanotechnology - all of which are crucial concepts in developing sustainable chemical processes as they address challenges, drive sustainability, and promote innovation within the field. This book serves as an invaluable resource to students at postgraduate and late undergraduate level within chemical engineering, as well as other engineering disciplines involving sustainable chemical processes.It is also a useful reference for students, industrial researchers, and process designers working in other industries, or for decision/policymaker... looking to make their research design and practices more sustainable and reduce environmental impacts.

  • Design and Simulation of Conventional and Complex Distillation Systems

    • 1st Edition
    • Arturo Jiménez-Gutiérrez + 2 more
    • English
    Design and Simulation of Conventional and Complex Distillation Systems serves as a comprehensive guide to the design of conventional and complex distillation processes with a unique combination of conceptual design methods and validations via rigorous simulations, including visual descriptions and videos of simulation tasks. The book provides a comprehensive overview of both conventional and complex distillation systems, covering the fundamental principles, design methodologies, and simulation techniques required to effectively analyze and optimize. Users will find conceptual design methods for different types of distillation systems with validation steps that follow using rigorous simulations, as well as detailed explanations and illustrative examples.It will be an invaluable guide chemical engineering students, researchers, and professionals who seek to deepen their understanding of distillation processes and enhance their knowledge to design and simulate efficient and modern distillation systems.

  • Catalytic Methods in Flow Chemistry: Part B

    • 1st Edition
    • Volume 78
    • English
    Catalytic Methods in Flow Chemistry: Part B, Volume 78 in the Advances in Catalysis series, highlights recent breakthroughs in catalytic methods under continuous‐flow conditions. This new volume presents chapters written by an international board of authors and explores cutting-edge strategies for enabling sustainable, scalable chemical synthesis. Topics include technological innovations that enhance efficiency and selectivity in continuous flow systems, the integration of biocatalysts for greener processes, and the development of streamlined approaches for active pharmaceutical ingredient (API) synthesis. Together, these contributions provide researchers and industrial practitioners with a comprehensive overview of advances that are shaping the future of flow chemistry and catalysis.

  • Supercritical Fluid Technology for Materials Processing, Engineering and Biomedical Applications

    • 1st Edition
    • Aamir Hussain Bhat + 3 more
    • English
    Supercritical Fluid Technology for Materials Processing, Engineering and Biomedical Applications provides a comprehensive review of the latest advances in this important research field.The book covers all aspects including the processes involved, the physical and chemical characteristics of this kind of medium, together with their exceptional transport properties and their future potential for a whole range of applications in impregnation and cleaning, multistage counter current separation, biomedical, particle formation, coatings, and reactive systems such as hydrogenation, biomass gasification, and supercritical water oxidation. Furthermore, the book highlights supercritical fluid technology as an alternative method that operates under mild conditions and can take advantage of the tunable properties of the fluid phase.The book will be a valuable reference source for academic and industrial researchers, as well as materials scientists and engineers working in the processing and engineering of supercritical fluids for a diverse range of industrial applications.

  • Recent Advances on Hydrogen Storage in Micro- and Mesoporous Materials

    Green Sustainable Process for Chemical and Environmental Engineering and Science
    • 1st Edition
    • Amir Al-Ahmed + 2 more
    • English
    Recent Advances on Hydrogen Storage in Micro- and Mesoporous Materials: Green Sustainable Process for Chemical and Environmental Engineering and Science provides the latest and important findings of physisorption-based hydrogen storage in a single source. The book investigates microporous and mesoporous materials, such as zeolites and microporous other solids, polymers having intrinsic micro-porosity (PIMs), metal-organic frameworks (MOFs), active carbons (including carbon nanostructures), and polymers for hydrogen storage by physisorption. This indispensable resource helps researchers in academia and hydrogen industries learn about the present status, progress, and future directions related to important findings of physisorption-based hydrogen storage, enabling them to stay current.

  • Supercritical Fluid Technology for Food Processing

    Fundamentals and Applications
    • 1st Edition
    • Julian Martínez + 2 more
    • English
    Supercritical Fluid Technology for Food Processing: Fundamentals and Applications aims to bring a didactic approach to supercritical fluid technologies, considering the specific aspects of their use in food processing, and including issues that must be considered in a food industrial plant. The book's chapters cover fundamentals and then move through extraction, separation, adsorption, impregnation, drying, physical processing, particle formation, coprecipitation, reaction, and enzyme and microorganism inactivation. It concludes with a chapter on current practice and future challenges, as well as a look at project formulation for developing new food products.Supercritic... fluids have gained increasing attention in the scientific community and industries where their application can lead to valuable products by means of green and sustainable processes. Food processing is one of the greatest application fields of supercritical technology, which can help produce new and natural ingredients. It is increasingly applied by research groups in universities, including food engineering schools.

  • Technological Applications of Ionic Liquids

    • 1st Edition
    • Maliha Uroos + 2 more
    • English
    Technological Applications of Ionic Liquids serves as a comprehensive guide to the applications of ionic liquids (ILs) as green alternatives to hazardous chemicals in various industrial processes. The book details the unique physical and chemical properties of ionic liquids and why this makes them invaluable in many crucial chemical processes and techniques such as organic synthesis, biomass processing, nanotechnology, pharmaceuticals, energy storage, and separation technologies. Each chapter delves into specific applications, detailing synthesis methods, environmental benefits, and challenges, thereby serving as a valuable guide for both academic and industrial researchers. In addition, the book also addresses the toxicity and sustainability of ILs, paving the way for their safe integration into future sustainable chemical practices and technologies.

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