Applications Of Fluidization In Food Processing

Applications of Fluidization to Food Processing

Fluidization is a technique that enables solid particles to take on some of the properties of a fluid. Despite being very widely used within the food processing industry, understanding of this important technique is often limited. Applications of Fluidization to Food Processing sets out the established theory of fluidization and relates this to food processing applications, particularly in: • Drying • Freezing • Mixing • Granulation • Fermentation This important and thorough book, written by Peter Smith, who has many years’ experience teaching and researching in food processing, is an essential tool and reference for food scientists and technologists, and engineers working within the food industry. Libraries, and research and development groups within all universities and research establishments where food science, food studies, food technology, physics and engineering are studied and taught should have copies of this useful book.

Applications of Fluidization in Food Processing

Microfluidics in Food Processing

This book serves as a comprehensive introduction to the principles of microfluidization and its diverse applications in the food industry. It explores the use of microfluidics in processing various types of beverages derived from plant products, milk and milk products, cereal-based products, nut-based products, and meat and egg-based products. Additionally, it delves into the application of microfluidics in food micro- and nano-delivery systems, seed protein isolates, and food packaging materials. The initial chapter provides a thorough introduction to the concept of microfluidization, offering readers a comprehensive overview of the underlying principles and techniques involved in this transformative technology. The book highlights the role of microfluidics in the extraction of bioactive ingredients from food sources and explores the use of microfluidic systems for ensuring food safety, including the detection of molecular interactions in food samples. Furthermore, the book explores the application of microfluidics in the fabrication of nanomaterials with tailored properties. With its comprehensive coverage of microfluidization in food processing, this book serves as a valuable resource for researchers, scientists, and professionals in the food industry.