Introduction to minimally processed refrigerated fruits and vegetables; Initial preparation, handling, and distribution of minimally processed refrigerated fruits; Preservation methods for minimally processed refrigerated fruits and vegetables; Packing of minimally processed fruits and vegetables; Some biological and physical principles underlying modified atmosphere packaging; Microbiological spoilage and pathogens in minimally processed refrigerated fruits and vegetables; Nutritional quality of fruits and vegetables subjetc to minimally processes; Regulatory issues associated with minimally processed refrigerated foods.
An Aspen Food Engineering Series Book. This new reference work in the Food Engineering Series covers basic and new information and issues, and new and refined existing technologies in the preservation of fruits and vegetables with a minimum of processing. It begins with a section on detecting and controlling good and harmful microorganisms in fruits and vegetable tissues, then surveys a range of preservation technologies, talks about new technologies being developed in landmark multinational projects, and ends by covering the legal aspects of minimally processed produce in the United States, Europe, South America, and Asia.
The safety and efficacy of minimal food processing depends on the use of novel preservation technologies. This book first examines what is meant by minimally processed foods, including fresh-cut, cooked-chilled, and part-baked products. Next explored are the technologies or methods to produce quality products in terms of safety and nutrition, including: edible coating, natural preservatives (i.e., antimicrobial, flavour enhancer, anti-browning), advanced packaging (active, antimicrobial, and modified or controlled atmosphere), and selected non-thermal techniques (high pressure, pulsed electric field, ultrasound, light). Preservation of food is crucial to achieving a secure and safe global food supply with the desired sensory quality. In addition, the increasing consumer demand for safe, ready-to-serve, ready-to-eat-and-cook products with minimal chemical preservatives has raised expectations. However, foods deemed minimally processed, such as fresh-cut fruits and vegetables, cooked-chilled, and half-baked foods, are delicate products that need special care in preparation, processing, storage, and handling. As a result, new technologies to develop minimally processed foods have aggressively advanced. Minimally Processed Foods: Technologies for Safety, Quality, and Convenience explores both the definition of minimally processed foods and the methods and technologies used to achieve the safety and nutritional value consumers demand. About the Editors Mohammed Wasim Siddiqui, Bihar Agricultural University, Sabour, Bhagalpur, India Mohammad Shafiur Rahman, Sultan Qaboos University, Al-khod, Oman
The processing of food is no longer simple or straightforward, but is now a highly inter-disciplinary science. A number of new techniques have developed to extend shelf-life, minimize risk, protect the environment, and improve functional, sensory, and nutritional properties. The ever-increasing number of food products and preservation techniques cr
Fruit and vegetables are both major food products in their own right and key ingredients in many processed foods. There has been growing research on their importance to health and techniques to preserve the nutritional and sensory qualities desired by consumers. This major collection summarises some of the key themes in this recent research.Part one looks at fruit, vegetables and health. There are chapters on the health benefits of increased fruit and vegetable consumption, antioxidants and improving the nutritional quality of processed fruits. Part two considers ways of managing safety and quality through the supply chain. A number of chapters discuss the production of fresh fruit and vegetables, looking at modelling, the use of HACCP systems and ways of maintaining postharvest quality. There are also two chapters on instrumentation for measuring quality. Two final chapters look at maintaining the safety and quality of processed fruit and vegetables. Part three reviews technologies to improve fruit and vegetable products. Two chapters consider how to extend the shelf-life of fruits and vegetables during cultivation. The following three chapters then consider how postharvest handling can improve quality, covering minimal processing, new modified atmosphere packaging techniques and the use of edible coatings. Two final chapters discuss two major recent technologies in processing fruit and vegetables: high pressure processing and the use of vacuum technology.With its distinguished editor and international team of contributors, Fruit and vegetable processing provides an authoritative review of key research on measuring and improving the quality of both fresh and processed fruits and vegetables. - Reviews recent research on improving the sensory, nutritional and functional qualities of fruit and vegetables, whether as fresh or processed products - Examines the importance of fruits and vegetables in processed foods and outlines techniques to preserve the nutritional and sensory qualities desired by consumers - Discusses two major technologies in processing fruits and vegetables: high pressure processing and the use of vacuum technology
Fresh-Cut Fruits and Vegetables: Technologies and Mechanisms for Safety Control covers conventional and emerging technologies in one single source to help industry professionals maintain and enhance nutritional and sensorial quality of fresh-cut fruits and vegetables from a quality and safety perspective. The book provides available literature on different approaches used in fresh-cut processing to ensure safety and quality. It discusses techniques with the aim of preserving quality and safety in sometimes unpredictable environments. Sanitizers, antioxidants, texturizers, natural additives, fortificants, probiotics, edible coatings, active and intelligent packaging are all presented. Both advantages and potential consequences are included to ensure microbial safety, shelf-life stability and preservation of organoleptic and nutritional quality. Industry researchers, professionals and students will all find this resource essential to understand the feasibility and operability of these techniques in modern-day processing to make informed choices. - Provides current information on microbial infection, quality preservation, and technology with in-depth discussions on safety mechanisms - Presents ways to avoid residue avoidance in packaging and preservation - Includes quality issues of microbial degradation and presents solutions for pre-harvest management
The emergence of 'minimal' processing techniques, which have a limited impact on a food's nutritional and sensory properties, has been a major new development in the food industry. This book provides an authoritative review of the range of minimal techniques currently available, their applications and safety and quality issues. - Reviews the range of minimal processing techniques, their advantages and disadvantages and their use in food production - Discusses the range of thermal technologies, such as infrared heating, ohmic heating, and dielectric methods, including the use of microwaves - Presents alternatives to thermal processing, ranging from irradiation to high pressure processing and the use of pulsed electric fields
Because they meet the needs of today’s consumers, fresh-cut plant products are currently one of the hottest commodities in the food market of industrialized countries. However, fresh-cut produce deteriorates faster than the correspondent intact produce. The main purpose of Fresh-Cut Fruits and Vegetables: Technology, Physiology, and Safety is to provide helpful guidelines to the industry for minimizing deterioration, keeping the overall quality, and lengthening the shelf life. It provides an integrated and interdisciplinary approach for accomplishing the challenges, where raw materials, handling, minimal processing, packaging, commercial distribution, and retail sale must be well managed. It covers technology, physiology, quality, and safety of fresh-cut fruits and vegetables. In this book, the chapters follow a logical sequence analyzing most of the important factors affecting the main characteristics of fresh-cut horticultural products. The most relevant technologies to prevent deterioration and improve final overall quality of fresh-cut commodities are described in detail. This book covers the basics of the subject from quality preservation, nutritional losses, physiology, and safety to industry-oriented advancements in sanitization, coatings, and packaging. It examines such novel preservation technologies as edible coatings, antimicrobial coatings, natural antimicrobials, gum arabic coatings, and pulsed light treatments. Minimal processing design and industrial equipment are also reviewed. With its international team of contributors, this book will be an essential reference work both for professionals involved in the postharvest handling of fresh-cut and minimally processed fruits and vegetables and for academic and researchers working in the area.
Consumers demand food products with fewer synthetic additives but increased safety and shelf-life. These demands have increased the importance of natural antimicrobials which prevent the growth of pathogenic and spoilage micro-organisms. Edited by a leading expert in the field, this important collection reviews the range of key antimicrobials together with their applications in food processing. There are chapters on antimicrobials such as nisin and chitosan, applications in such areas as postharvest storage of fruits and vegetables, and ways of combining antimicrobials with other preservation techniques to enhance the safety and quality of foods.
While minimally processed foods satisfy the increasing market demands for foods with fewer preservatives, higher nutritive value, and fresh sensory attributes, there is a greater risk of diseases if they are improperly handled. Microbial Safety of Minimally Processed Foods explores innovative preventative solutions to food-borne diseases from the perspectives of the producer, the handler, the consumer, the food preparer, as well as the food inspector, and researcher. This book provides you with the latest research and insight into assuring the microbial safety of red meats, poultry, fish, vegetables, fruits, and bakery products that receive less than stringent sterilizing preparation. It explores and describes the methods used for pathogen detection along with strategies for preventing future pathogen occurrences in the minimally processed foods. The book also provides in-depth evaluations of HACCP regulations and risk assessments of those minimally processed foods. Designed to stimulate the development of increasingly safer foods, Microbial Safety of Minimally Processed Foods details state-of-the-art technologies that have the potential to enhance microbiological safety of minimally processed foods without sacrificing their natural, untreated visual appearance and sensory properties.
