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| fermentation technology book: Principles of Fermentation Technology Peter F. Stanbury, Allan Whitaker, Stephen J Hall, 2013-10-22 This second edition has been thoroughly updated to include recent advances and developments in the field of fermentation technology, focusing on industrial applications. The book now covers new aspects such as recombinant DNA techniques in the improvement of industrial micro-organisms, as well as including comprehensive information on fermentation media, sterilization procedures, inocula, and fermenter design. Chapters on effluent treatment and fermentation economics are also incorporated. The text is supported by plenty of clear, informative diagrams.This book is of great interest to final year and post-graduate students of applied biology, biotechnology, microbiology, biochemical and chemical engineering. |
| fermentation technology book: Handbook of Food and Beverage Fermentation Technology Y. H. Hui, Lisbeth Meunier-Goddik, Jytte Josephsen, Wai-Kit Nip, Peggy S. Stanfield, 2004-03-19 Over the past decade, new applications of genetic engineering in the fermentation of food products have received a great deal of coverage in scientific literature. While many books focus solely on recent developments, this reference book highlights these developments and provides detailed background and manufacturing information.Co-Edited by Fidel |
| fermentation technology book: Essentials in Fermentation Technology Aydin Berenjian, 2019-07-25 This textbook teaches the principles and applications of fermentation technology, bioreactors, bioprocess variables and their measurement, key product separation and purification techniques as well as bioprocess economics in an easy to understand way. The multidisciplinary science of fermentation applies scientific and engineering principles to living organisms or their useful components to produce products and services beneficial for our society. Successful exploitation of fermentation technology involves knowledge of microbiology and engineering. Thus the book serves as a must-have guide for undergraduates and graduate students interested in Biochemical Engineering and Microbial Biotechnology |
| fermentation technology book: Principles and Applications of Fermentation Technology Arindam Kuila, Vinay Sharma, 2018-07-30 The book covers all aspects of fermentation technology such as principles, reaction kinetics, scaling up of processes, and applications. The 20 chapters written by subject matter experts are divided into two parts: Principles and Applications. In the first part subjects covered include: Modelling and kinetics of fermentation technology Sterilization techniques used in fermentation processes Design and types of bioreactors used in fermentation technology Recent advances and future prospect of fermentation technology The second part subjects covered include: Lactic acid and ethanol production using fermentation technology Various industrial value-added product biosynthesis using fermentation technology Microbial cyp450 production and its industrial application Polyunsaturated fatty acid production through solid state fermentation Application of oleaginous yeast for lignocellulosic biomass based single cell oil production Utilization of micro-algal biomass for bioethanol production Poly-lactide production from lactic acid through fermentation technology Bacterial cellulose and its potential impact on industrial applications |
| fermentation technology book: Novel Food Fermentation Technologies K. Shikha Ojha, Brijesh K. Tiwari, 2016-09-30 Novel Food Fermentation Technologies provides a comprehensive overview of innovations in food fermentation technologies and their application. Current novel technologies for microbial culture production and preservation are covered in detail, as are fermentation techniques for the production of bioactives from various food matrices, including food processing by-products and waste. Readers are provided with a close look at thermal and non-thermal technologies applicable to fermented food products. The text covers immobilization, microencapsulation technologies and novel preservation techniques for cultures in fermentation. In-depth studies of high pressure processing, pulsed electric field, power ultrasound and gamma irradiation in fermentation are provided in addition to novel thermal and non-thermal technologies and process analytical techniques. A wide variety of fermented products are covered, including meat, marine-based, grain-based, dairy and vegetable-based products. Current technologies for extraction of bioactives are examined, as are current innovations in fermented food packaging. Readers are presented with current and future challenges in food fermentation as well. As a comprehensive reference for food fermentation, this work provides up-to-date insights into emerging fermentation technologies which facilitate the processing of wholesome and safe food products. |
| fermentation technology book: Microbiology and Technology of Fermented Foods Robert W. Hutkins, 2008-02-28 While many food science programs offer courses in the microbiology and processing of fermented foods, no recently published texts exist that fully address the subject. Food fermentation professionals and researchers also have lacked a single book that covers the latest advances in biotechnology, bioprocessing, and microbial genetics, physiology, and taxonomy. In Microbiology and Technology of Fermented Foods, Robert Hutkins has written the first text on food fermentation microbiology in a generation. This authoritative volume also serves as a comprehensive and contemporary reference book. A brief history and evolution of microbiology and fermented foods, an overview of microorganisms involved in food fermentations, and their physiological and metabolic properties provide a foundation for the reader. How microorganisms are used to produce fermented foods and the development of a modern starter culture industry are also described. Successive chapters are devoted to the major fermented foods produced around the world with coverage including microbiological and technological features for manufacture of these foods: Cultured Dairy Products Cheese Meat Fermentation Fermented Vegetables Bread Fermentation Beer Fermentation Wine Fermentation Vinegar Fermentation Fermentation of Foods in the Orient Examples of industrial processes, key historical events, new discoveries in microbiology, anecdotal materials, case studies, and other key information are highlighted throughout the book. Comprehensively written in a style that encourages critical thinking, Microbiology and Technology of Fermented Foods will appeal to anyone dealing in food fermentation – students, professors, researchers, and industry professionals. |
| fermentation technology book: Practical Fermentation Technology Brian McNeil, Linda Harvey, 2008-03-17 A hands-on book which begins by setting the context;- defining 'fermentation' and the possible uses of fermenters, and setting the scope for the book. It then proceeds in a methodical manner to cover the equipment for research scale fermentation labs, the different types of fermenters available, their uses and modes of operation. Once the lab is equipped, the issues of fermentation media, preservation strains and strain improvement strategies are documented, along with the use of mathematical modelling as a method for prediction and control. Broader questions such as scale-up and scale down, process monitoring and data logging and acquisition are discussed before separate chapters on animal cell culture systems and plant cell culture systems. The final chapter documents the way forward for fermenters and how they can be used for non-manufacturing purposes. A glossary of terms at the back of the book (along with a subject index) will prove invaluable for quick reference.Edited by academic consultants who have years of experience in fermentation technology, each chapter is authored by experts from both industry and academia. Industry authors come from GSK (UK), DSM (Netherlands), Eli Lilly (USA) and Broadley James (UK-USA). |
| fermentation technology book: Fermentation Technology Ray Medina, 2019-05-21 Fermentation is the anaerobic conversion of sugar to carbon dioxide and alcohol by yeast or any group of chemical reactions induced by living or nonliving ferments that split complex organic compounds into relatively simple substances. In fermentation a chemical change is brought on by the action of microscopic yeast, molds and bacteria. Fermentation is the process involving the biochemical activity of organisms, during their growth, develA-opment, reproduction, even senescence and death. Fermentation technology is the use of organisms to produce food, pharmaceuticals and alcoholic beverages on a large scale industrial basis. The basic principle involved in the industrial fermentation technology is that organisms are grown under suitable conditions, by providing raw materials meeting all the necessary requirements such as carbon, nitrogen, salts, trace elements and vitamins. The end products formed as a result of their metabA-olism during their life span are released into the media, which are extracted for use by human being and that have a high commercial value. The field of Fermentation Technology has been the science of many stormy developments in the past decade. The major products of fermentation technology produced economA-ically on a large scale industrial basis are wine, beer, cider, vinegar, ethanol, cheese, hormones, antibiotics, complete proteins, enzymes and other useful products. The aim of the book is to provide an in-depth study of the principles of fermentation technology and recent advances and developments in the field of fermentation technology, focusing on industrial applications. |
| fermentation technology book: Advances in Fermented Foods and Beverages Wilhelm Holzapfel, 2014-09-20 Fermentation is used in a wide range of food and beverage applications, and the technology for enhancing this process is continually evolving. This book reviews the use of fermentation in foods and beverages and key aspects of fermented food production. Part one covers the health benefits of fermented foods. Part two includes chapters on fermentation microbiology, while part three looks at ways of controlling and monitoring the quality and safety of fermented foods. Part four covers advances in fermentation technology. Finally, part five covers particular fermented food products. |
| fermentation technology book: Fermentation Technology Manish Srivastava, 2008 Suitable for final year and post-graduate students of applied biology, biotechnology, microbiology, biochemical and chemical engineering, this book includes advances and developments in the field of fermentation technology, focusing on industrial applications. |
| fermentation technology book: Advanced Fermentation and Cell Technology, 2 Volume Set Byong H. Lee, 2021-10-25 ADVANCED FERMENTATION AND CELL TECHNOLOGY A comprehensive and up-to-date reference covering both conventional and novel industrial fermentation technologies and their applications Fermentation and cell culture technologies encompass more than the conventional microbial and enzyme systems used in the agri-food, biochemical, bioenergy and pharmaceutical industries. New technologies such as genetic engineering, systems biology, protein engineering, and mammalian cell and plant cell systems are expanding rapidly, as is the demand for sustainable production of bioingredients, drugs, bioenergy and biomaterials. As the growing biobased economy drives innovation, industrial practitioners, instructors, researchers, and students must keep pace with the development and application of novel fermentation processes and a variety of cell technologies. Advanced Fermentation and Cell Technology provides a balanced and comprehensive overview of the microbial, mammalian, and plant cell technologies used by the modern biochemical process industry to develop new and improved processes and products. This authoritative volume covers the essential features of advanced fermentation and cell technology, and highlights the interaction of food fermentation and cell culture biopharmaceutical actives. Detailed chapters, organized into five sections, cover microbial cell technology, animal and plant cell technology, safety issues of new biotechnologies, and applications of microbial fermentation to food products, chemicals, and pharmaceuticals. Written by an internationally-recognized expert in food biotechnology, this comprehensive volume: Covers both conventional and novel industrial fermentation technologies and their applications in a range of industries Discusses current progress in novel fermentation, cell culture, commercial recombinant bioproducts technologies Includes overviews of the global market size of bioproducts and the fundamentals of cell technology Highlights the importance of sustainability, Good Manufacturing Practices (GMP), quality assurance, and regulatory practices Explores microbial cell technology and culture tools and techniques such as genome shuffling and recombinant DNA technology, RNA interference and CRISPR technology, molecular thermodynamics, protein engineering, proteomics and bioinformatics, and synthetic biology Advanced Fermentation and Cell Technology is an ideal resource for students of food science, biotechnology, microbiology, agricultural sciences, biochemical engineering, and biochemistry, and is a valuable reference for food scientists, researchers, and technologists throughout the food industry, particularly the dairy, bakery, and fermented beverage sectors. |
| fermentation technology book: Fermentation and Biochemical Engineering Handbook Henry C. Vogel, Celeste M. Todaro, 1996-12-31 This is a well-rounded handbook of fermentation and biochemical engineering presenting techniques for the commercial production of chemicals and pharmaceuticals via fermentation. Emphasis is given to unit operations fermentation, separation, purification, and recovery. Principles, process design, and equipment are detailed. Environment aspects are covered. The practical aspects of development, design, and operation are stressed. Theory is included to provide the necessary insight for a particular operation. Problems addressed are the collection of pilot data, choice of scale-up parameters, selection of the right piece of equipment, pinpointing of likely trouble spots, and methods of troubleshooting. The text, written from a practical and operating viewpoint, will assist development, design, engineering and production personnel in the fermentation industry. Contributors were selected based on their industrial background and orientation. The book is illustrated with numerous figures, photographs and schematic diagrams. |
| fermentation technology book: Handbook of Plant-Based Fermented Food and Beverage Technology Y. H. Hui, E. Özgül Evranuz, 2012-05-17 Fermented food can be produced with inexpensive ingredients and simple techniques and makes a significant contribution to the human diet, especially in rural households and village communities worldwide. Progress in the biological and microbiological sciences involved in the manufacture of these foods has led to commercialization and heightened int |
| fermentation technology book: Modern Solid State Fermentation Hongzhang Chen, 2013-03-22 “Modern Solid State Fermentation: Theory and Practice” covers state-of-the-art studies in the field of solid state fermentation (SSF). In terms of different characteristics of microbial metabolites, this book catalogs SSF into two main parts: anaerobic and aerobic SSF. Based on the principles of porous media and strategies of process control and scale-up, which are introduced in the book, it not only presents a well-founded explanation of essence of solid state fermentation, but also their influence on microbial physiology. In addition, due to the rapid development of this field in recent years, inert support solid state fermentation is also examined in detail. At last, the modern solid state fermentation technology platform is proposed, which will be used in solid biomass bioconversion. This book is intended for biochemists, biotechnologists and process engineers, as well as researchers interested in SSF. Dr. Hongzhang Chen is a Professor at Institute of Process Engineering, Chinese Academy of Sciences, Beijing, China. |
| fermentation technology book: High Value Fermentation Products, Volume 1 Saurabh Saran, Vikash Babu, Asha Chaubey, 2019-03-12 Green technologies are no longer the “future” of science, but the present. With more and more mature industries, such as the process industries, making large strides seemingly every single day, and more consumers demanding products created from green technologies, it is essential for any business in any industry to be familiar with the latest processes and technologies. It is all part of a global effort to “go greener,” and this is nowhere more apparent than in fermentation technology. This book describes relevant aspects of industrial-scale fermentation, an expanding area of activity, which already generates commercial values of over one third of a trillion US dollars annually, and which will most likely radically change the way we produce chemicals in the long-term future. From biofuels and bulk amino acids to monoclonal antibodies and stem cells, they all rely on mass suspension cultivation of cells in stirred bioreactors, which is the most widely used and versatile way to produce. Today, a wide array of cells can be cultivated in this way, and for most of them genetic engineering tools are also available. Examples of products, operating procedures, engineering and design aspects, economic drivers and cost, and regulatory issues are addressed. In addition, there will be a discussion of how we got to where we are today, and of the real world in industrial fermentation. This chapter is exclusively dedicated to large-scale production used in industrial settings. |
| fermentation technology book: Fermentation Processes Engineering in the Food Industry Carlos Ricardo Soccol, Ashok Pandey, Christian Larroche, 2013-03-27 With the advent of modern tools of molecular biology and genetic engineering and new skills in metabolic engineering and synthetic biology, fermentation technology for industrial applications has developed enormously in recent years. Reflecting these advances, Fermentation Processes Engineering in the Food Industry explores the state of the art of |
| fermentation technology book: High Value Fermentation Products, Volume 1 Saurabh Saran, Vikash Babu, Asha Chaubey, 2019-04-09 Green technologies are no longer the “future” of science, but the present. With more and more mature industries, such as the process industries, making large strides seemingly every single day, and more consumers demanding products created from green technologies, it is essential for any business in any industry to be familiar with the latest processes and technologies. It is all part of a global effort to “go greener,” and this is nowhere more apparent than in fermentation technology. This book describes relevant aspects of industrial-scale fermentation, an expanding area of activity, which already generates commercial values of over one third of a trillion US dollars annually, and which will most likely radically change the way we produce chemicals in the long-term future. From biofuels and bulk amino acids to monoclonal antibodies and stem cells, they all rely on mass suspension cultivation of cells in stirred bioreactors, which is the most widely used and versatile way to produce. Today, a wide array of cells can be cultivated in this way, and for most of them genetic engineering tools are also available. Examples of products, operating procedures, engineering and design aspects, economic drivers and cost, and regulatory issues are addressed. In addition, there will be a discussion of how we got to where we are today, and of the real world in industrial fermentation. This chapter is exclusively dedicated to large-scale production used in industrial settings. |
| fermentation technology book: Brewing D E Briggs, 2004-09-28 Brewing: Science and practice updates and revises the previous work of this distinguished team of authors, producing what is the standard work in its field. The book covers all stages of brewing from raw materials, including the chemistry of hops and the biology of yeasts, through individual processes such as mashing and wort separation to packaging, storage and distribution. Key quality issues are discussed such as flavour and the chemical and physical properties of finished beers. |
| fermentation technology book: Food, Fermentation, and Micro-organisms Charles W. Bamforth, David J. Cook, 2019-02-11 Fermentation and the use of micro-organisms is one of the most important aspects of food processing – an industry that is worth billions of US dollars world-wide. Integral to the making of goods ranging from beer and wine to yogurt and bread, it is the common denominator between many of our favorite things to eat and drink. In this updated and expanded second edition of Food, Fermentation, and Micro-organisms, all known food applications of fermentation are examined. Beginning with the science underpinning food fermentations, the author looks at the relevant aspects of microbiology and microbial physiology before covering individual foodstuffs and the role of fermentation in their production, as well as the possibilities that exist for fermentation’s future development and application. Many chapters, particularly those on cheese, meat, fish, bread, and yoghurt, now feature expanded content and additional illustrations. Furthermore, a newly included chapter looks at indigenous alcoholic beverages. Food, Fermentation, and Micro-organisms, Second Edition is a comprehensive guide for all food scientists, technologists, and microbiologists working in the food industry and academia today. The book will be an important addition to libraries in food companies, research establishments, and universities where food studies, food science, food technology and microbiology are studied and taught. |
| fermentation technology book: Basic FermentationTechnology S. M. Reddy, 2018-07-31 Fermentations in view of their easy operation and cost effectiveness have gained importance in daily life of man. The possibilities of production of diverse substances with least efforts has made them more attractive processes. In spite of innovative developments in this area, it is still associated with skillful manipulation in order to make the process sustainable.The present book deals with the basics of fermentations, types of fermentations described in broad perspective. The scale up of fermentations, upstream and downstream processes are discussed in an integrated manner. The different aspects of separation and purification to get quality products and their economic aspects are discussed in a separate chapter. The need for eco friendly operation of fermentation industry is stressed. Instrumentation techniques involved in fermentation process are described. A basic account of plant and animal cell and tissue culture are included to give holistic account of fermentations. Basics of computer applications on fermentations are also discussed. |
| fermentation technology book: Solid State Fermentation Susanne Steudler, Anett Werner, Jay J. Cheng, 2019-07-16 This book reviews the wide range of products and applications of solid state fermentation as well as the development of this cultivation technology over the last years. In this book, readers will also learn about the challenges of solid state fermentation, including process management, reactor design, scale-up and the formation of process-specific products. Solid fermentation is a traditional cultivation technique of food technology and involves all cultivations of microorganisms on a solid substrate without free liquid phase. In the course of development of Biotechnology it was replaced by liquid cultivation mainly in the western countries. Over the past few years, solid-state fermentation is now becoming more important and has moved more back into focus. Especially, it is suitable for the cultivation of filamentous organisms, like ascomycetes and basidiomycetes, but also for various yeasts and bacteria. The products and applications of solid-state fermentation are as diverse as the microorganisms. They range from enzyme production to the production of antibiotics and pigments to the use in environmental technology and energy production. |
| fermentation technology book: Industrial Microbiology Michael J. Waites, Neil L. Morgan, John S. Rockey, Gary Higton, 2013-05-22 Of major economic, environmental and social importance, industrialmicrobiology involves the utilization of microorganisms in theproduction of a wide range of products, including enzymes, foods,beverages, chemical feedstocks, fuels and pharmaceuticals, andclean technologies employed for waste treatment and pollutioncontrol. Aimed at undergraduates studying the applied aspects of biology,particularly those on biotechnology and microbiology courses andstudents of food science and biochemical engineering, this textprovides a wide-ranging introduction to the field of industrialmicrobiology. The content is divided into three sections: key aspects of microbial physiology, exploring the versatilityof microorganisms, their diverse metabolic activities andproducts industrial microorganisms and the technology required forlarge-scale cultivation and isolation of fermentationproducts investigation of a wide range of established and novelindustrial fermentation processes and products Written by experienced lecturers with industrial backgrounds,Industrial Microbiology provides the reader with groundwork in boththe fundamental principles of microbial biology and the varioustraditional and novel applications of microorganisms to industrialprocesses, many of which have been made possible or enhanced byrecent developments in genetic engineering technology. A wide-ranging introduction to the field of industrialmicrobiology Based on years of teaching experience by experienced lecturerswith industrial backgrounds Explains the underlying microbiology as well as the industrialapplication. Content is divided into three sections: 1. key aspects of microbial physiology, exploring theversatility of microorganisms, their diverse metabolic activitiesand products 2. industrial microorganisms and the technology required forlarge-scale cultivation and isolation of fermentation products 3. investigation of a wide range of established and novelindustrial fermentation processes and products |
| fermentation technology book: Practical Manual on Fermentation Technology S. Kulandaivel, S. Janarthanan, 2012-10-30 Explores fermentation technology methods and protocols on the screening of industrially important microbes and the production of various industrially important compounds, enzymes, antibiotics, and vitamins by these microorganisms. It also provides protocols for the various industrially important microbial products. |
| fermentation technology book: Computer Applications in Fermentation Technology: Modelling and Control of Biotechnological Processes N. M. Fish, 2012-12-06 Richard Fox Chairman, Scientific Programme Committee Between 25th and 29th September, 1988, 243 people who either apply or research the use of computers in fermentation gathered together at Robinson College, Cambridge, UK. They came from 30 countries. The conference brought together two traditions. Firstly, it continued the series on Computer Applications in Fermentation Technology (ICCAFT) inaugurated by Henri Blanchere in Dijon in 1973 and carried forward in Philadelphia and Manchester. Secondly, it brought the expertise of the many members of the International Federation of Automatic Control (IFAC), who focused their attention on biotechnology at Noordwijkerhout in the Netherlands in December, 1985. I am happy to say that the tradition carries on and a successor meeting will hopefully take place in the USA in 1991. If you find these proceedings useful or stimulating, then we hope to see you there. We set out to make ICCAFT4 a close-knit friendly conference. We housed all who cared to in Robinson College itself and organised no parallel sessions. Because we, the organisers, experience difficulty with the jargon of our colleagues from other disciplines, we asked Bruce Beck to present a breakfast tutorial on modern control and modelling techniques, and we set up informal panel discussions after dinner on two evenings. Neville Fish chaired a forum on the microbiological principles behind models, while Professors Derek Linkens and Ron Leigh led a discussion on expert systems in control. |
| fermentation technology book: Philippine Fermented Foods Priscilla C. Sanchez, 2008 Based on the author's extensive experience as professor and practitioner in the field of applied microbiology, the book provides a detailed description of Philippine fermented foods, the process of improving traditional fermentation methods, and the production of nutritious, safe, and wholesome foods through fermentation. Standards, regulations, and laws promulgated for the proper monitoring of fermented foods to ensure their safety are also discussed. The comprehensive data presented on ethnic foods are not found elsewhere, making it an indispensable resource for scientists, food technologists, students, teachers, as well as the food industry.--BOOK JACKET. |
| fermentation technology book: Applications of Biotechnology in Traditional Fermented Foods National Research Council, Policy and Global Affairs, Office of International Affairs, Panel on the Applications of Biotechnology to Traditional Fermented Foods, 1992-02-01 In developing countries, traditional fermentation serves many purposes. It can improve the taste of an otherwise bland food, enhance the digestibility of a food that is difficult to assimilate, preserve food from degradation by noxious organisms, and increase nutritional value through the synthesis of essential amino acids and vitamins. Although fermented food has a vaguely distasteful ring, bread, wine, cheese, and yogurt are all familiar fermented foods. Less familiar are gari, ogi, idli, ugba, and other relatively unstudied but important foods in some African and Asian countries. This book reports on current research to improve the safety and nutrition of these foods through an elucidation of the microorganisms and mechanisms involved in their production. Also included are recommendations for needed research. |
| fermentation technology book: Batch Fermentation Ali Cinar, Satish J. Parulekar, Cenk Undey, Gulnur Birol, 2003-04-01 Illustrating techniques in model development, signal processing, data reconciliation, process monitoring, quality assurance, intelligent real-time process supervision, and fault detection and diagnosis, Batch Fermentation offers valuable simulation and control strategies for batch fermentation applications in the food, pharmaceutical, and chemical industries. The book provides approaches for determining optimal reference trajectories and operating conditions; estimating final product quality; modifying, adjusting, and enhancing batch process operations; and designing integrated real-time intelligent knowledge-based systems for process monitoring and fault diagnosis. |
| fermentation technology book: Essentials in Fermentation Technology Aydin Berenjian, 2019-07-15 This textbook teaches the principles and applications of fermentation technology, bioreactors, bioprocess variables and their measurement, key product separation and purification techniques as well as bioprocess economics in an easy to understand way. The multidisciplinary science of fermentation applies scientific and engineering principles to living organisms or their useful components to produce products and services beneficial for our society. Successful exploitation of fermentation technology involves knowledge of microbiology and engineering. Thus the book serves as a must-have guide for undergraduates and graduate students interested in Biochemical Engineering and Microbial Biotechnology |
| fermentation technology book: Fermentation Bhavbhuti M. Mehta, Afaf Kamal-Eldin, Robert Z. Iwanski, 2012-04-12 A large variety of food products all over the world are prepared by the fermentation of various raw materials. Fermentation: Effects on Food Properties explores the role of fermentation reactions in the chemical, functional, and sensory properties of food components as well as their effect on food component content and biological activity. Emphasizing the various chemical changes that take place during processing, both pre- and post-fermentation, the book explores: The complex microbial community in fermented foods The generation of the flavor and aroma compounds in fermented foods The effect of fermentation on the rheological properties and the color of foods The effect of fermentation on bioactivities of foods How microorganisms during fermentation can remove or detoxify antinutritional compounds in raw foods The fortification of products derived from fermentation processes and technical issues in the production and distribution of such foods Fermentation processes for cereals, legumes, vegetables, dairy products, seafood, and meat Food safety and adherence to the Hazard Analysis and Critical Control Points (HACCP) principles Mastering today’s art of fermentation processes requires detailed knowledge of food raw materials, microbiology, enzymology, chemistry/biochemistry, physics, engineering, and technology. This volume is an important starting point in understanding the process. Presented in concise, accessible chapters contributed by food experts, the book contains ample references to enhance further, more detailed exploration of this critical topic as we search for ways to enhance food quality for better health. |
| fermentation technology book: Post-Fermentation and -Distillation Technology Matteo Bordiga, 2017-12-15 While most wine and spirits books focus on vineyard and crop management or fermentation and distillation processes, few address critical post process aspects of stabilization, aging, and spoilage. This book serves as a comprehensive source of information on post-fermentation and -distillation technology applied to wine, beer, vinegar and distillates in a broad spectrum. Post-Fermentation and -Distillation Technology: Stabilization, Aging, and Spoilage thoroughly describes all of the operations related to these products after the fermentation or distillation steps, focusing on the complex issues related to their stabilization, aging, and spoilage. The final product must be stable against microbial activity as well as undesirable chemical and physical chemical reactions that occur in the bottle. For example, clarity, stability, compositional adjustment, style development and packaging represent the five goals of finishing a wine. Concerning the visual defects associated with spoilage, it is crucial that wine at the point of consumption not be cloudy or contain any haze or precipitate, especially white wines. Similarly, it is also important to prevent unwanted microbial growth from occurring in the wine after the primary fermentation is complete, affecting the flavor and aroma profile in unpredicted ways. The book addresses all of these issues and more. Moreover, the discussion also involves beer, vinegar and distillates, giving this book a novel and interesting approach. The book combines referenced research with practical applications and case studies of novel technologies such as square barrels, synthetic closures, and Tetra Pak®. |
| fermentation technology book: The Art of Fermentation Sandor Ellix Katz, 2012 The bible for the D.I.Y set: detailed instructions for how to make your own sauerkraut, beer, yogurt and pretty much everything involving microorganisms.--The New York Times *Named a Best Gift for Gardeners by New York Magazine The original guide to kraut, kombucha, kimchi, kefir, and kvass; mead, wine, and cider; pickles and relishes; tempeh, koji, miso, sourdough and so much more...! Winner of the James Beard Foundation Book Award for Reference and Scholarship, and a New York Times bestseller, with more than a quarter million copies sold, The Art of Fermentation is the most comprehensive guide to do-it-yourself home fermentation ever published. Sandor Katz presents the concepts and processes behind fermentation in ways that are simple enough to guide a reader through their first experience making sauerkraut or yogurt, and in-depth enough to provide greater understanding and insight for experienced practitioners. While Katz expertly contextualizes fermentation in terms of biological and cultural evolution, health and nutrition, and even economics, this is primarily a compendium of practical information--how the processes work; parameters for safety; techniques for effective preservation; troubleshooting; and more. With two-color illustrations and extended resources, this book provides essential wisdom for cooks, homesteaders, farmers, gleaners, foragers, and food lovers of any kind who want to develop a deeper understanding and appreciation for arguably the oldest form of food preservation, and part of the roots of culture itself. Readers will find detailed information on fermenting vegetables; sugars into alcohol (meads, wines, and ciders); sour tonic beverages; milk; grains and starchy tubers; beers (and other grain-based alcoholic beverages); beans; seeds; nuts; fish; meat; and eggs, as well as growing mold cultures, using fermentation in agriculture, art, and energy production, and considerations for commercial enterprises. Sandor Katz has introduced what will undoubtedly remain a classic in food literature, and is the first--and only--of its kind. |
| fermentation technology book: Science and Technology of Fruit Wine Production Maria R. Kosseva, V.K. Joshi, P.S. Panesar, 2016-11-01 Science and Technology of Fruit Wine Production includes introductory chapters on the production of wine from fruits other than grapes, including their composition, chemistry, role, quality of raw material, medicinal values, quality factors, bioreactor technology, production, optimization, standardization, preservation, and evaluation of different wines, specialty wines, and brandies. Wine and its related products have been consumed since ancient times, not only for stimulatory and healthful properties, but also as an important adjunct to the human diet by increasing satisfaction and contributing to the relaxation necessary for proper digestion and absorption of food. Most wines are produced from grapes throughout the world, however, fruits other than grapes, including apple, plum, peach, pear, berries, cherries, currants, apricot, and many others can also be profitably utilized in the production of wines. The major problems in wine production, however, arise from the difficulty in extracting the sugar from the pulp of some of the fruits, or finding that the juices obtained lack in the requisite sugar contents, have higher acidity, more anthocyanins, or have poor fermentability. The book demonstrates that the application of enzymes in juice extraction, bioreactor technology, and biological de-acidification (MLF bacteria, or de-acidifying yeast like schizosaccharomyces pombe, and others) in wine production from non-grape fruits needs serious consideration. - Focuses on producing non-grape wines, highlighting their flavor, taste, and other quality attributes, including their antioxidant properties - Provides a single-volume resource that consolidates the research findings and developed technology employed to make wines from non-grape fruits - Explores options for reducing post-harvest losses, which are especially high in developing countries - Stimulates research and development efforts in non-grape wines |
| fermentation technology book: Fermented Foods, Part II Ramesh C. Ray, Didier Montet, 2017-05-25 This book reviews the use of fermentation to develop healthy and functional foods and beverages and the commercialization of fermented food products through the use of biotechnology. The first two sections cover the health and functional benefits of fermented foods and the latter two sections include chapters on global and region-specific fermented foods that have crossed the geographical barriers to reach supermarkets all over the world. |
| fermentation technology book: Brewing Yeast and Fermentation Christopher Boulton, David Quain, 2013-04-25 Now Available for the First Time in Paperback! This unique volume provides a definitive overview of modern and traditional brewing fermentation. Written by two experts with unrivalled experience from years with a leading international brewer, coverage includes all aspects of brewing fermentation together with the biochemistry, physiology and genetics of brewers' yeast. Brewing Yeast and Fermentation is unique in that brewing fermentation and yeast biotechnology are covered in detail from a commercial perspective. Now available for the first time in paperback, the book is aimed at commercial brewers and their ingredient and equipment suppliers (including packaging manufacturers). It is also an essential reference source for students on brewing courses and workers in research and academic institutions. Definitive reference work and practical guide for the industry. Highly commercially relevant yet academically rigorous. Authors from industry leading brewers. |
| fermentation technology book: Microbial Technology Henry J. Peppler, 1967 |
| fermentation technology book: Microbial Technology H. J. Peppler, D. Perlman, 2014-05-10 Microbial Technology: Fermentation Technology, Second Edition is a collection of papers that deals with fermentations and modifications of plant or animal products for foods, beverages, and feeds. The papers also review microbial technology: general principles, culture selection, laboratory methods, instrumentation, computer control, product isolation, immobilized cell usage, economics, and microbial patents. Several papers explain the process of fermentation and food modification in cheese, soy sauce, vinegar, mushroom, inocula for blue-veined cheeses, and blue cheese flavor. One paper discusses the technology of isolation, production, and application of microbial cultures which are commercially available or imminent as inocula for the treatment of wastes, The paper describes these cultures in terms of product characteristics, types of cultures, and application guidelines for waste treatment. Another paper outlines the procedures used by investigators involved in microbial reaction engineering, as follows: (1) identification of main products and substrates: (2) stoichiometry of the process; (3) kinetics and process rate; and (4) reactor design. One paper cites examples of immobilized cell systems utilized to prepare fine chemicals, such as the research of Chibata et al. (1975) and Yamamoto et al (1976, 1977). The collection is suitable for food technologists, bio-chemists, cellular biologists, micro-biologists, and scientists involved in food production, medicine, agriculture, and environmental control. |
| fermentation technology book: Cocoa and Coffee Fermentations Rosane F. Schwan, Graham H. Fleet, 2014-10-09 This is the first book to focus on the scientific principles underlying the fermentation processes of cocoa and coffee beans and their impact on product quality and safety. The text compiles the knowledge from the different disciplines involved in fermentation, including botany, chemistry, microbiology, biochemistry, food science, and sensory science. The chapters discuss the botanics of the beans; fermentation methods; the microbiology of fermentation; the biochemistry and physiology of fermentation; the impacts of fermentation on bean flavor, quality, and safety; chocolate and coffee derived from the beans; and the processing of waste materials. |
| fermentation technology book: Fermentation Technology Tanuja Singh, S. S. Purohit, 2008-07-01 |
| fermentation technology book: Principles of Fermentation Technology Juliana Lang, 2021-11-16 The metabolic process that produces chemical changes in organic substrates by the action of enzymes is referred to as fermentation. It plays an important role in food production where it includes microorganisms for bringing desirable changes to a foodstuff or beverage. Fermentation is the primary means of producing ATP within microorganisms through the degradation of organic nutrients anaerobically. Some of the major products, which are produced using the process of fermentation are ethanol lactic acid and hydrogen gas. The procedures used within industrial fermentation are classified into batch and batch-fed procedures. The different ingredients are combined and the reactions proceed without any interference in the batch procedure. During the fed-batch procedure, a few ingredients are added during the process of fermentation. This book presents the complex subject of fermentation in the most comprehensible and easy to understand language. Different approaches, evaluations and methodologies on fermentation have been included herein. Experts and students actively engaged in this field will find this book full of crucial and unexplored concepts. |
| fermentation technology book: Microbial Production of Food Ingredients, Enzymes and Nutraceuticals Brian McNeil, David Archer, Ioannis Giavasis, Linda Harvey, 2013-03-21 Bacteria, yeast, fungi and microalgae can act as producers (or catalysts for the production) of food ingredients, enzymes and nutraceuticals. With the current trend towards the use of natural ingredients in foods, there is renewed interest in microbial flavours and colours, food bioprocessing using enzymes and food biopreservation using bacteriocins. Microbial production of substances such as organic acids and hydrocolloids also remains an important and fast-changing area of research. Microbial production of food ingredients, enzymes and nutraceuticals provides a comprehensive overview of microbial production of food ingredients, enzymes and nutraceuticals.Part one reviews developments in the metabolic engineering of industrial microorganisms and advances in fermentation technology in the production of fungi, yeasts, enzymes and nutraceuticals. Part two discusses the production and application in food processing of substances such as carotenoids, flavonoids and terponoids, enzymes, probiotics and prebiotics, bacteriocins, microbial polysaccharides, polyols and polyunsaturated fatty acids.Microbial production of food ingredients, enzymes and nutraceuticals is an invaluable guide for professionals in the fermentation industry as well as researchers and practitioners in the areas of biotechnology, microbiology, chemical engineering and food processing. - Provides a comprehensive overview of microbial flavours and colours, food bioprocessing using enzymes and food biopreservation using bacteriocins - Begins with a review of key areas of systems biology and metabolic engineering, including methods and developments for filamentous fungi - Analyses the use of microorganisms for the production of natural molecules for use in foods, including microbial production of food flavours and carotenoids |
Fermentation - Wikipedia
Fermentation is used by organisms to generate ATP energy for metabolism. Because fermentation does not need an exogenous electron acceptor, it is able to occur regardless of …
What Is Fermentation? Definition and Examples - Science …
Nov 18, 2021 · Fermentation is a metabolic process in organisms that converts carbohydrates into chemical energy, without requiring oxygen. In other words, it is an anaerobic process. In …
Fermentation | Definition, Process, & Facts | Britannica
Fermentation, chemical process by which molecules such as glucose are broken down anaerobically. More broadly, fermentation is the foaming that occurs during the production of …
Fermentation – Definition, Types, Process, & Equation - Science …
Aug 23, 2022 · Fermentation is a biochemical process in which carbohydrates like glucose or starch are converted to alcohol or acid without oxygen. Microorganisms like yeasts, anaerobic …
Fermentation - Definition and Examples - Biology Online Dictionary
Jun 16, 2022 · Fermentation is an anaerobic process performed by a cell to generate chemical energy (e.g. ATP) from pyruvate (a product of glycolysis) but without going through the citric …
What is fermentation? Types, Uses, Benefits, and Disadvantages
Apr 7, 2025 · Fermentation is a natural process where microorganisms like bacteria, yeast, or fungi convert sugars into other compounds such as alcohol, gases, or acids. It is a chemical …
Fermentation: What is, types and examples - Evidence Network
1 day ago · Fermentation is a process carried out by certain unicellular organisms as part of their metabolism. It usually occurs from carbohydrates or carbohydrates that can occur, for …
Fermentation - Definition, Types, Principle, Products, Stages ...
May 22, 2024 · Fermentation is an anaerobic metabolic process in which organic substrates are converted into simpler compounds, producing energy, primarily ATP, without the use of …
Fermentation- Principle, Types, Applications, Limitations
Aug 22, 2021 · Fermentation is an anaerobic biochemical process that is used for the production of energy from the partial oxidation of glucose or other carbon sources. In the absence of …
Fermentation: Meaning, Process, Types and Importance
Apr 15, 2025 · Fermentation is a metabolic process where microorganisms like yeast and bacteria convert sugars into alcohol, gases, or acids. Understanding the fermentation process and …
Fermentation - Wikipedia
Fermentation is used by organisms to generate ATP energy for metabolism. Because fermentation does not need an exogenous electron acceptor, it is able to occur regardless of …
What Is Fermentation? Definition and Examples - Science …
Nov 18, 2021 · Fermentation is a metabolic process in organisms that converts carbohydrates into chemical energy, without requiring oxygen. In other words, it is an anaerobic process. In …
Fermentation | Definition, Process, & Facts | Britannica
Fermentation, chemical process by which molecules such as glucose are broken down anaerobically. More broadly, fermentation is the foaming that occurs during the production of …
Fermentation – Definition, Types, Process, & Equation - Science …
Aug 23, 2022 · Fermentation is a biochemical process in which carbohydrates like glucose or starch are converted to alcohol or acid without oxygen. Microorganisms like yeasts, anaerobic …
Fermentation - Definition and Examples - Biology Online Dictionary
Jun 16, 2022 · Fermentation is an anaerobic process performed by a cell to generate chemical energy (e.g. ATP) from pyruvate (a product of glycolysis) but without going through the citric …
What is fermentation? Types, Uses, Benefits, and Disadvantages
Apr 7, 2025 · Fermentation is a natural process where microorganisms like bacteria, yeast, or fungi convert sugars into other compounds such as alcohol, gases, or acids. It is a chemical …
Fermentation: What is, types and examples - Evidence Network
1 day ago · Fermentation is a process carried out by certain unicellular organisms as part of their metabolism. It usually occurs from carbohydrates or carbohydrates that can occur, for …
Fermentation - Definition, Types, Principle, Products, Stages ...
May 22, 2024 · Fermentation is an anaerobic metabolic process in which organic substrates are converted into simpler compounds, producing energy, primarily ATP, without the use of …
Fermentation- Principle, Types, Applications, Limitations
Aug 22, 2021 · Fermentation is an anaerobic biochemical process that is used for the production of energy from the partial oxidation of glucose or other carbon sources. In the absence of …
Fermentation: Meaning, Process, Types and Importance
Apr 15, 2025 · Fermentation is a metabolic process where microorganisms like yeast and bacteria convert sugars into alcohol, gases, or acids. Understanding the fermentation process and …
