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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.

  • Bioreactors for Health and Sustainability

    • 1st Edition
    • Joaquim M.S. Cabral + 4 more
    • English
    Bioreactors for Health and Sustainability describes the basic concepts of chemical and biochemical kinetics, chemical reaction engineering, reactors design, ideal reactors, homogeneous and heterogeneous reactors. The book brings together in a single source the most significant types of reactors that use molecular (enzymes) and cells biocatalysts for biological applications, which range from enzyme reactors, microbial reactors, plant cell culture and reactors, photobioreactors, cell reactors, reactors for stem cell culture, reactors for tissue and organ engineering, microbioreactors, reactors for cellular agriculture products, to bioreactors for waste-water treatment. It elaborates on bioreactors from molecular level enzymes, to microbial, plant, animal and human cells and tissue and organs, and provides sustainable applications in industrial, environmental and health sectors. As such the book bridges the gap between the Engineering Sciences and Technology and Health Sciences areas. Bioreactors for Health and Sustainability brings a novel contribution to biotechnology that is based on the upstream of a biological process, which makes it of broad interest for professionals, researchers, and students in biological/biochemic... engineering and bioengineering.

  • Supercritical CO2 Extraction

    From Basic Principles to Industrial Applications
    • 1st Edition
    • Ivana Lukić + 2 more
    • English
    Supercritical fluid extraction (SFE) has become one of the most recognized and widely applied technologies in green processing, with supercritical carbon dioxide (scCO2) leading the way as the fluid of choice. It represents not only the first but also the most established industrial application of supercritical fluids, paving the path from laboratory research to large-scale production.This book brings together and systematizes the current state of knowledge on scCO2 extraction, offering both a comprehensive overview and practical insights. It begins with an accessible introduction to the unique properties of scCO2, followed by a clear explanation of the principles and operation of SFE. A broad spectrum of applications is then explored, ranging from plant materials to non-plant sources, agricultural residues, and food by-products, highlighting the versatility and growing potential of this technology.In addition to practical case studies, the book addresses modelling strategies and scale-up considerations, providing valuable guidance for translating experimental findings into industrial practice. Special emphasis is placed on integrated processes and real-world examples, showcasing how SFE has successfully bridged the gap between science and industry. The final chapter looks toward the future, outlining the challenges and opportunities that will shape the next generation of scCO2-assisted technologies.Supercr... CO2 Extraction is intended for master’s and PhD students in chemical engineering, biotechnology, food engineering, pharmaceutical sciences, and process engineering. It also serves as an essential resource for industry professionals seeking to understand and apply one of the most promising technologies in sustainable extraction.

  • Environmental Nanobiotechnology: Remediation of Refractory Pollutants

    • 1st Edition
    • Sougata Ghosh + 1 more
    • English
    Environmental Nanobiotechnology: Remediation of Refractory Pollutants explores the latest advancements in nanotechnology for environmental remediation. The book delves into the innovative development of biogenic nanoparticles, emphasizing their catalytic capabilities in degrading a wide array of environmental pollutants, including hazardous dyes, pesticides, polyaromatic hydrocarbons, oil spills, and microplastics. Readers will gain valuable insights into the synthesis mechanisms, physio-chemical properties, and applications of these nanomaterials, providing a solid foundation for future research and practical applications in environmental science. The book covers critical topics, including the impact of refractory pollutants and various remediation approaches, the role of bionanomaterials in removing hazardous dyes and pesticides, and the application of nanotechnology in managing oil spills and microplastics. It also addresses the use of biochar, biopolymer-based hydrogels, and engineered nanoparticles for effective water treatment and pollutant removal. Furthermore, it discusses the environmental toxicity and regulatory concerns associated with nanotechnology, ensuring a well-rounded understanding of the field. "Environmental Nanobiotechnology: Remediation of Refractory Pollutants" is an essential resource for researchers, environmental scientists, and students in fields such as nanotechnology, environmental engineering, and biotechnology. It serves as a guideline for those looking to harness the potential of biogenic nanoparticles in combating environmental pollution, offering a pathway to sustainable solutions and innovative research opportunities.

  • Introduction to Process Systems Engineering

    Basic Principles and Calculations with MATLAB and Python
    • 1st Edition
    • Ioannis K. Kookos
    • English
    Introduction to Process Systems Engineering: Basic Principles and Calculations with MATLAB and Python comprehensively approaches mastering core chemical engineering concepts through computational methods. The book bridges the gap between theory and practice by integrating numerical computations from the outset, enabling students and professionals to develop practical skills alongside foundational knowledge. Covering essential topics such as mass and energy balances, property calculations, vapor-liquid equilibria, and process optimization, the book emphasizes realistic problem-solving using accessible MATLAB and Python programs. Each chapter features real-world examples, progressively increasing in complexity to build confidence and competence. The material is tailored to current chemical engineering practice, making it an invaluable resource for students, researchers, and industry practitioners seeking to enhance their computational and analytical capabilities in process systems engineering. This book empowers readers to learn by doing, fostering a deeper understanding of both theoretical principles and their practical applications.

  • Aquatic Resource Biorefineries

    Harnessing Aquatic Resources for Sustainable Production
    • 1st Edition
    • Hamid Amiri + 3 more
    • English
    Aquatic Resource Biorefinery provides the first comprehensive, multidisciplinary treatment of the utilization of aquatic biomass within the biorefinery framework. Recognizing aquatic systems as rich yet underexploited sources of renewable materials, this book integrates biological, chemical, engineering, environmental and economic perspectives to establish a coherent foundation for sustainable aquatic bioresource valorization. Structured across four interconnected sections, the book moves from conceptual fundamentals to process-specific applications and assessments. It explores a wide range of feedstocks, algae, aquatic plants, crustacean shells, wastewater, and microbial resources, and their transformation into high value bioproducts such as chitin, chitosan, carotenoids, proteins, polyhydroxyalkanoate... and biohydrogen. Subsequent chapters examine cutting-edge technologies for biomass recovery, biological conversion, and downstream refinement, culminating in techno-economic, environmental, and market analyses that illuminate the feasibility and scalability of aquatic biorefineries. Written by leading experts and enriched with case studies, industrial data, and quantitative analyses, Aquatic Resource Biorefinery bridges the gap between theory and application. It serves not only as a university textbook for students across different disciplines but also as a definitive reference for researchers, engineers, and policymakers engaged in advancing circular, blue bioeconomy strategies.

  • Wastewater Treatment with Biochar

    From Fundamental Research to Technical Developments and Applications
    • 1st Edition
    • Tonni Agustiono Kurniawan + 1 more
    • English
    Wastewater Treatment with Biochar: From Fundamental Research to Technical Developments and Applications explores the transformative role of biochar as an innovative solution in wastewater treatment systems. With rising global concerns about water pollution and the impact of climate change, this text examines biochar's potential to serve as a powerful adsorbent material that supports cleaner water practices and contributes to achieving carbon neutrality. By bridging core scientific principles with practical applications, the book provides a comprehensive examination of how biochar can address environmental challenges while driving sustainable advancements in water management technologies.Beyond its focus on biochar's efficiency in wastewater treatment, the book delves into cutting-edge research methodologies and technical developments shaping the future of this field. It considers the scalability of biochar applications, challenges in implementation, and the economic feasibility of integrating biochar into existing systems.

  • Applied Machine Learning in Chemical Process Engineering

    A Practical Approach
    • 1st Edition
    • Zafar Said + 1 more
    • English
    As machine learning capabilities and functionality increases, more industry experts and researchers are integrating applied machine learning into their research. Applied Machine Learning in Chemical Process Engineering: A Practical Approach serves as a comprehensive guide to equip the reader with the fundamental theory, practical guidance, methodologies, experimental design and troubleshooting knowledge needed to integrate machine learning into their processes. This book offers a comprehensive overview of all aspects of machine learning, from inception to integration that will allow readers from any scientific discipline to begin to examine the capabilities of machine learning. This book will then build upon this overview to offer worked examples and case studies, alongside practical methods-based guidance to walk the reader through integrating machine learning end-to-end. Finally, this book will offer critical discussion of concepts that are interwoven into the ever-evolving principles of machine learning such as ethics, safety and culpability that are crucial when working with machine learning. Applied Machine Learning in Chemical Process Engineering: A Practical Approach will be an invaluable resource for researchers, professionals in industry and academia, and students at graduate level and above who work in chemical engineering and are looking to automate, optimize or intensify their chemical processes. This book will also help professionals in other disciplines and industries looking into integrate machine learning into their work, such as though looking to scale up their processes to an industrial scale or conduct novel research.

  • Bioprocess Engineering of Reactions

    • 4th Edition
    • Shijie Liu
    • English
    Bioprocess Engineering of Reactions, Fourth Edition is a systematic and comprehensive resource that explores principles and analysis of reactions within the bioprocess and biotechnology industries. The book provides a step-by-step guide to understanding batch, continuous, and fed-batch reactor operations, reflecting the growth behavior of cells through various phases. It introduces innovative pinch methods for optimizing batch reactors without relying on complex mathematical models while also addressing the intricacies of enzymatic systems and the impact of phase separation on reaction dynamics. Topics covered include biomolecular reaction basics, ideal flow reactors, batch fermentation, continuous culture, and the engineering of cells. Other sections emphasize sustainability and stability in bioprocess operations while discussing critical factors such as reactivity hazards and biohazards. With a focus on mass and heat transfer, reactor design, and real reactor deviations, the book equips readers with the knowledge to navigate the complexities of bioprocess engineering. It will be an invaluable resource for bioprocess engineers, researchers, and students in in biotechnology, chemical engineering, and molecular biology. By linking reactor operations to specific cell growth patterns and providing insights into optimization strategies, the book also empowers professionals to enhance productivity and ensure safety in their bioprocess endeavors.

  • Microbial Biotechnology for Revolutionizing Biobased Biorefineries

    New and Future Developments in Microbial Biotechnology and Bioengineering
    • 1st Edition
    • Yogesh K. Ahlawat + 2 more
    • English
    Microbial Biotechnology for Revolutionizing Biobased Biorefineries: New and Future Developments in Microbial Biotechnology and Bioengineering offers a cutting-edge exploration of the latest advancements in microbial biotechnology and its transformative role in biobased biorefineries. The book delves into the diverse microbial organisms and innovative bioprocesses that are reshaping the production of sustainable biofuels, bioplastics, and high-value pharmaceuticals, and uncovers the fundamental principles of microbial biotechnology that enhance microbial performance, alongside practical case studies that illustrate real-world applications and the potential for commercial-scale impact. The book is structured to provide a thorough understanding of key topics, beginning with the engineering of biomass feedstocks for bioethanol production and extending to microbial biodiversity, enzyme applications, and metabolic engineering. Each chapter presents detailed insights into the processes that drive efficiency and sustainability in biorefineries, including the enzymatic conversion of biomass, microbial biosynthesis of platform chemicals, and the challenges of scaling up these technologies. Additionally, it addresses environmental considerations and market trends, offering a holistic view of the biobased economy. Microbial Biotechnology for Revolutionizing Biobased Biorefineries: New and Future Developments in Microbial Biotechnology and Bioengineering is an essential resource for researchers, industry professionals, and students in fields such as chemical engineering, microbiology, biochemistry, and environmental science. By integrating multidisciplinary knowledge, the book equips readers with the latest findings and practical strategies to optimize biorefinery operations, enhance sustainability, and contribute to a circular bioeconomy.

  • Process Control

    Bringing Academic and Industry Together
    • 1st Edition
    • PaweÅ‚ D. DomaÅ„ski
    • English
    Process Control: Bridging Academic and Industry Together examines control engineering challenges in chemical engineering through the lens of academic researchers, plant engineers, and control system vendors. Covering a wide array of topics—from PID tuning and hybrid control strategies to alarm management and advanced ratio control—this book equips readers with a comprehensive understanding of both theoretical and practical aspects of control engineering, exploring areas such as feedforward control, multi-loop systems, and energy production optimization. Control systems vendors will gain insights into strategies for minimizing the science-industry gap, while students will discover what knowledge and skills are essential in the industry. By fostering collaboration among these diverse groups, the book aims to inspire innovative solutions that can be effectively implemented in real-world settings, making it a must-read for young academic scientists eager to grasp the industrial challenges they will face. Plant engineers seeking to leverage the latest academic research in their work will also find the content to be informative. Each contributor in the book shares valuable insights into their experiences, addressing real-world problems and innovative solutions that will help shape industrial practice.

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