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Chapter 1: Principles on membrane and membrane processes -- Chapter 2: Ultrafiltration -- Chapter 3: Microfiltration -- Chapter 4: Virus Filtration -- Chapter 5: Membrane chromatography -- Chapter 6: Membranes for the Preparation of Emulsions and Particles -- Chapter 7: Other Membrane Processes -- Chapter 8: Some Perspectives.
Membrane processes are increasingly used in pharmaceutical and biochemical engineering and biotechnology for concentration and purification, synthesis of molecules and drug delivery systems, and support for biochemical reactions. This book provides a state-of-the art overview of the classical membrane processes used in pharmaceutical and biochemical engineering and biotechnology, such as ultrafiltration, microfiltration, virus filtration, membrane chromatography, membrane emulsification, liquid membranes and membrane bioreactors. It describes the general rules (principles, choice of configurations, membranes, parameters, etc.), recent developments (fouling control, increase permeate flux and selectivity, etc.), applications, and theoretical descriptions. Further, it presents emerging processes such as solvent resistant nanofiltration and membrane crystallization. - Presents classical membrane processes such as ultrafiltration, microfiltration, virus filtration, membrane chromatography, membrane emulsification, liquid membranes and membrane bioreactors - Presents emerging processes such as solvent resistant nanofiltration and membrane crystallization - Gives a complete description of each technique (principles, membrane materials and devices, fouling control, and theoretical description) - Contains numerous examples of applications - Includes a uniform notation throughout the book enhancing the presentation and understanding of the content - Includes extensive list of references
The book examines the possibility of integrating different membrane unit operations (microfiltration, ultrafiltration, nanofiltration, reverse osmosis, electrodialysis and gas separation) in the same industrial cycle or in combination with conventional separation systems. It gives careful analysis of the technical aspects, and the possible fields of industrial development. The book reviews many original solutions in water desalination, agro-food productions and wastewater treatments, highlighting the advantages achievable in terms of product quality, compactness, rationalization and optimization of productive cycles, reduction of environmental impact and energy saving. Also included are examples of membrane reactors and their integration with a fuel cell; polymeric membranes in the integrated gasification combined cycle power plants; integrating a membrane reformer into a solar system; and potential application of membrane integrated systems in the fusion reactor fuel cycle. With detailed analysis and broad coverage, the book is divided into two sections: Bio-applications and Inorganic Applications.
Bioprocess Engineering: Downstream Processing is the first book to present the principles of bioprocess engineering, focusing on downstream bioprocessing. It aims to provide the latest bioprocess technology and explain process analysis from an engineering point of view, using worked examples related to biological systems. This book introduces the commonly used technologies for downstream processing of biobased products. The covered topics include centrifugation, filtration, membrane separation, reverse osmosis, chromatography, biosorption, liquid-liquid separation, and drying. The basic principles and mechanism of separation are covered in each of the topics, wherein the engineering concept and design are emphasized. This book is aimed at bioprocess engineers and professionals who wish to perform downstream processing for their feedstock, as well as students.
Current Trends and Future Developments on (Bio-) Membranes: Membrane Processes in the Pharmaceutical and Biotechnological field presents the main membrane techniques along with their basic principles, mode of operations, and applications. It covers well-known techniques such as ultrafiltration and membrane chromatography, while also exploring emerging membrane technologies which are finding their way in pharmaceutical and biotechnology industries, including membrane emulsification, membrane bioreactors, and solvent-resistant nanofiltration. State-of-the-art applications of membrane systems in areas such as drug delivery and virus removal are also investigated by leading experts in the field. Current Trends and Future Developments on (Bio-) Membranes: Membrane Processes in the Pharmaceutical and Biotechnological field is a definitive reference for academics, post-graduates, and researchers in the subjects of biochemical engineering, pharmaceutics, and biotechnology. It is also useful to R&D companies and institutions in these areas, specifically those interested in bioseparations, biopurification, bioproduction, and drug delivery. - Offers an overview of classical membrane-based separation techniques such as ultrafiltration, microfiltration and virus filtration - Discusses emerging membrane-based separation techniques such as nofiltration in the presence of solvent, membrane emulsification and membrane crystallization - Outlines their applications to bioseparation, biopurification and bioproduction - Includes examples in the production of vaccines, antibiotics, biomolecules, drugs, DNA and cells - Lists membranes systems for drug delivery like liposomes, nanocapsules and bilayer membranes
The current book gives an excellent insight into downstream processing technology and explains how to establish a successful strategy for an efficient recovery, isolation and purification of biosynthetic products. In addition to the overview of purification steps and unit operations, the authors provide practical information on capital and operating costs related to downstream processing.
Emerging Membrane Technology for Sustainable Water Treatment provides the latest information on the impending crisis posed by water stress and poor sanitation, a timely issue that is one of the greatest human challenges of the 21st century. The book also discusses the use of membrane technology, a serious contender that can be used to confront the crisis on a global scale, along with its specific uses as a solution to this escalating problem. - Provides a unique source on membrane technology and its application for water treatment - Focuses on technologies designed for the treatment of seawater and brackish water - Highlights the most economically and environmentally friendly membrane technologies - Lists various technologies and emphasizes their link to renewable energy, energy efficiency, nanotechnology, reuse, and recycle
Membranes with Functionalized Nanomaterials: Current and Emerging Research Trends in Membrane Technology provides researchers and practitioners with basic and advanced knowledge of sustainable membrane technology. The book summarizes recent progress made in novel functionalized nanomaterials (FNMs) used in modern membrane technology. It gives a comprehensive overview of state-of-the-art technologies in the field of nanomaterial-based membranes and provides in an in-depth and step-by-step way the foundational scientific knowledge on various sustainable membranes with FNMs technologies and their impact on society and in various industries. In addition, readers get a handbook in a compact form with various aspects of FNMs-based sustainable membranes. - Explores innovative strategies to fabricate functionalized nanomaterials-based membranes - Evaluates the advanced functionalized nanomaterials-based membranes and other transformational options - Offers a detailed spectrum of applications of sustainable functionalized nanomaterials-based membranes
Membrane Engineering in the Circular Economy: Renewable Sources Valorization in Energy and Downstream Processing in Agro-food Industry describes the modification of the general concept of "waste," including waste valorization as added-value products that are useful for energy production and biotechnology industries. Speaking to the relevance of this new vision, the book highlights the fundamentals of membrane operations in the exploitation of renewable sources for energy production and the valorization of agro-food waste at the industrial level. This book is an excellent resource for researchers, biologists, membranologists and engineers in chemistry, biochemical engineering, food sciences and the agro-food refinery industry. - Discusses membrane engineering for agro-food wastes' transformation into added-value products - Presents circular and zero-waste economy principles pursued by membrane technology and applied to the agro-food industry - Includes potentialities of agro-food wastes for renewable and energy production via membrane operations
Bioactive peptides have been receiving attention recently due to their applications as health-promoting agents. Derived from food proteins and other natural sources, they exhibit various beneficial effects such as preventing diseases or modulating physiological systems once absorbed. As the market for nutraceuticals and functional foods continues to expand, consumer interest has also grown and there are many common foods that have shown an abundance of bioactive peptides, including dairy products, cereal, legumes, meat, and numerous other sources. In this newest addition to the series Nutraceuticals: Basic Research and Clinical Applications, Bioactive Peptides: Production, Bioavailability, Health Potential, and Regulatory Issues provides a comprehensive review of the current state of knowledge in the field of food protein hydrolysates and bioactive peptides, their food sources, bioavailability, production, applications, functionalities, health potentials, and regulatory issues governing their use. Features Discusses different methodologies employed for scaling up bioactive peptides commercially Provides information on optimizing the production process Explains various bioactive properties exerted by different types of bioactive peptides Explores the application of metabolomics to the study of bioactive peptides With over 20 chapters written by established subject matter experts in their field, this book provides timely information and discusses the latest developments of bioactive peptides. It will be useful for researchers, academics, and industry experts, and can serve as an excellent resource for anyone interested in enhancing their knowledge in the field of bioactive peptides.