Advanced Micro-Level Experimental Techniques for Food Drying and Processing Applications


Book Description

Although strides have been made to quantitatively explore micro-level structural changes during food processing using advanced technologies, there is currently no comprehensive book that details these developments. Therefore, the research community and related industries are not fully aware of the available techniques. Advanced Micro-Level Experimental Techniques for Food Drying and Processing Applications fills this gap. The book has been written based on the authors’ comprehensive knowledge and application of microimaging methods in the thermal processing of food. Features Describes the latest micro-level experimental methods primarily using microimaging techniques Presents detailed procedures of applying these techniques in food processing Highlights the current challenges of developing efficient and novel food processing systems Describes the fundamentals of water transport processes and associated morphological changes during thermal processing of food materials This book is written for researchers, chemical, food, and industrial engineers and advanced students seeking to solve problems of industrial food processing.




Drying of Aromatic Plant Material for Natural Perfumes


Book Description

Drying of Aromatic Plant Material for Natural Perfumes provides readers with a deep understanding of the fascinating world of aromatic plants, drying, extraction and perfumery. It covers the significance and global demand of essential oils, a glimpse of plant histology, secretion and storage of secondary metabolites in plant tissues, drying technologies and selection for dehydration of herbage, extraction, chemical compositions and applications. The book is organized into four sections: plant cell structures and their role during dehydration, aromatic plants and their essential oil contents, composition and contribution towards perfumery, and dehydration and extraction technologies. The book does the following: Summarizes commercially important aromatic plant materials and extracted essential oil around the world and their socio-commercial impact Includes structures of plant tissues, inherent mass transfer pathways, along with the presence and role of water, the understanding of which can aid dehydration and extraction Describes methods for selecting drying parameters and relates drying mechanisms with microstructure Discusses drying technologies for heat-sensitive materials and extraction technologies for selective component extractions Covers preprocessing, extraction and standardization of essential oils for blending for different applications This book serves as a handy tool for R&D, industrial, and academic researchers working in perfumery, fragrance, and food science, as well as chemical and agricultural engineering.




Drying and Valorisation of Food Processing Waste


Book Description

Drying and Valorisation of Food Processing Waste is a comprehensive guide that delves into the crucial role of advanced drying technologies in mitigating the issue of food waste. This book evaluates the current research, technologies, and methodologies in food waste processing and valorisation, highlighting the challenges and opportunities that exist in this field. This book provides a systematic classification of various types of food waste and how to choose the most appropriate drying technology based on waste characteristics. It also covers the effects of drying technologies on physical and chemical properties, as well as valuable compounds. In addition, it evaluates the impact of drying on different valorisation routes and provides real-life industrial case studies to illustrate the practical applications of the concepts discussed. It is an invaluable resource for professionals, researchers, and academics who are looking to gain a deeper understanding of the impact of drying on food waste reduction and valorisation. This book is aimed at chemical, food, and environmental engineers as well as researchers and academics in these fields. It provides a comprehensive overview of the latest developments in food waste processing and valorisation and is an essential reference for professionals seeking to advance their knowledge in this field. Additionally, this book's practical approach and case studies make it an ideal resource for students and researchers who are looking to gain hands-on experience in food waste reduction and valorisation.




Particulate Drying


Book Description

In the process industry, understanding the unit operation of particulate drying is imperative to yield products with desired properties and characteristics and to ensure process safety, optimal energy efficiency and drying performance, as well as low environmental impact. There are many techniques and tools available, which can cause confusion. Particulate Drying: Techniques and Industry Applications provides an overview of various particulate drying techniques, their advantages and limitations, industrial applications, and simple design methods. This book: • Covers advances in particulate drying and their importance in the process industry • Highlights recent developments in conventional drying techniques and new drying technologies • Helps readers gain insight into selecting the appropriate drying techniques for a particular product • Summarizes various applications from a wide range of industries, including chemical, food, pharmaceutical, biotech, polymer, mineral, and agro-industries • Projects future research trends and demands in particulate drying This book serves as a reference for process and plant engineers as well as researchers in the fields of particulate processing, mineral processing, food processing, chemical engineering, and mechanical engineering, especially those involved in the selection of drying equipment for particulate solids and R&D of drying of particulate materials.




Superheated Steam Drying


Book Description

Superheated steam drying (SSD) has long been recognized for several major advantages it offers over other convective dryers, including high energy efficiency by utilization of energy in the exhaust steam, higher product quality due to the absence of oxygen, and avoidance of fire and explosion hazards. Offering a global critical overview of the current state of art, Superheated Steam Drying: Technology for Improved Sustainability and Quality assesses future needs and opportunities for industry adoption and further innovation in SSD. It covers SSD technologies for various industrial sectors and mathematical modeling approaches to help with design and scale-up. The effects of SSD on drying kinetics as well as product quality are also discussed with examples. This book serves as a useful reference for technicians, graduate students, and researchers in the field of drying technology. It can also be used in courses on industrial drying, processing and drying of food, advanced drying technology, and superheated steam drying.




Dried Fruit Products


Book Description

Dehydration of fruits is a massive operation amounting to tens of billions of dollars’ worth in the global market. The enormous variety of fruits grown around the world and the wide range of products made therefrom make this an attractive method for the development of novel and shelf-stable consumer products. Dried Fruit Products offers a current approach linking the theory and practice of fruit drying, summarizing various techniques, their advantages and limitations, industrial applications, and simple design methods. Such dried fruit products as fruit pieces, fruit leathers, and fruit powders are dealt with in a way to inform their physical, chemical, sensory, and nutritional features, along with the characteristics of the process used to obtain them, such as drying method and drying equipment. Key Features: Contains up-to-date information on fruit drying Presents a multi-perspective viewpoint of fruit drying Addresses both food science and chemical engineering aspects of fruit drying Readers can gain knowledge on the various types of drying techniques and insightful thoughts on selecting the appropriate drying techniques for different fruit products.




Drying of Herbs, Spices, and Medicinal Plants


Book Description

Drying is a key operation in processing of many plant-based foods and medicines for the purpose of preservation and retention of key attributes and active compounds. Therefore, it is essential to select suitable drying techniques to ensure a product is processed under optimal operating conditions. Drying of Herbs, Spices, and Medicinal Plants presents processing aspects of these three major global agricultural commodities. It offers an insight into the drying and product quality of herbs, spices, and medicinal plants, such as drying characteristics, equipment selection, physiochemical analyses, quality improvement, product development, storage, and shelf life as well as future developments. Offers the latest information on drying and processing technologies, research, and development Summarizes various drying techniques, their advantages and limitations, industrial applications, and simple design methods Presents guidelines for dryer selection Links theory and practice Envisages future trends and demands Featuring chapters from expert authors in both industry and academia, this book is an important resource for those working in the chemical, food processing, pharma, and biotech industries, especially those focused on the drying of plants for food and medicinal applications.




Mass Transfer Driven Evaporation From Capillary Porous Media


Book Description

Mass Transfer–Driven Evaporation from Capillary Porous Media offers a comprehensive review of mass transfer–driven drying processes in capillary porous media, including pore-scale and macro-scale experiments and models. It covers kinetics of drying of a single pore, pore-scale experiments and models, macro-scale experiments and models, and understanding of the continuum model from pore-scale studies. The book: Explains the detailed transport processes in porous media during drying. Introduces cutting-edge visualization experiments of drying in porous media. Describes the pore network models of drying in porous media. Discusses the continuum models of drying in porous media based on pore-scale studies. Points out future research opportunities. Aimed at researchers, students and practicing engineers, this work provides vital fundamental and applied information to those working in drying technology, food processes, applied energy, and mechanical and chemical engineering.




Advanced Drying Technologies for Foods


Book Description

The goal of all drying research and development is to develop cost-effective innovative processes that yield high-quality dried products with less energy consumption and reduced environmental impact. With the literature on drying widely scattered, Advanced Drying Technologies for Foods compiles under one cover concise, authoritative, up-to-date assessments of modern drying technologies applied to foods. This book assembles a number of internationally recognized experts to provide critical reviews of advanced drying technologies, their merits and limitations, application areas and research opportunities for further development. Features: Provides critical reviews of advanced drying technologies Discusses the merits and limitations of a variety of food drying technologies Explains drying kinetics, energy consumption and quality of food products Reviews the principles and recent applications of superheated steam drying The first four chapters deal with recent developments in field-assisted drying technologies. These include drying techniques with the utilization of electromagnetic fields to deliver energy required for drying, for example, microwave drying, radio frequency drying, electrohydrodynamic drying, and infrared radiation drying. The remainder of this book covers a wide assortment of recently developed technologies, which include pulse drying, swell drying, impinging stream drying, and selected advances in spray drying. The final chapter includes some innovative technologies which are gaining ground and are covered in depth in a number of review articles and handbooks, and hence covered briefly in the interest completeness. This book is a valuable reference work for researchers in academia as well as industry and will encourage further research and development and innovations in food drying technologies.




Advanced Computational Techniques for Heat and Mass Transfer in Food Processing


Book Description

Computational methods have risen as a powerful technique for exploring the system phenomena and solving real-life problems. Currently, there are two principle computational approaches for system analysis: continuous and discrete. In the continuous approach, the governing equations can be obtained by applying the fundamental laws, such as conservation of mass, momentum, and energy over an infinitesimal control volume. On the other hand, the discrete approach concentrates on mimicking the molecular movement within the system. Both approaches have pros and cons, and continuous development and improvement in the existing computational methods are ongoing. Advanced Computational Techniques for Heat and Mass Transfer in Food Processing provides, in a single source, information on the use of methods based on numerical and computational analysis as applied in food science and technology. It explores the use of various numerical/computational techniques for the simulation of fluid flow and heat and mass transfer within food products. Key Features: Explores various numerical techniques used for modeling and validation Describes the knowhow of numerical and computational techniques for food process operations Covers a detailed numerical or computational approach of the principles of heat and mass transfer in the food processing operation Discusses the detailed computational simulation procedure of the food operation Recent years have witnessed a rapid development in the field of computational techniques owing to its abundant benefit to the food processing industry. The relevance of advanced computational methods has helped in understanding the fundamental physics of thermal and hydrodynamic behavior that can provide benefits to the food processing industry in numerous applications. As a single information source for those interested in the use of methods based on numerical and computational analysis as applied in food science and technology, this book will ably serve any food academician or researcher in learning the advanced numerical techniques exploring fluid flow, crystallization, and other food processing operations.