After a sordid litany of recalls courtesy of the food industry, consumers are pointing the finger at companies that have failed to institute proper recall prevention techniques. While historical analysis shows no company is exempt from recall risk, most can be prevented with an efficient and verifiable quality control program.Authored by a 20-year
Specifically targeted at the food industry, this state-of-the-art text/reference combines all the principal methods of statistical quality and process control into a single, up-to-date volume. In an easily understood and highly readable style, the author clearly explains underlying concepts and uses real world examples to illustrate statistical techniques. This Third Edition maintains the strengths of the first and second editions while adding new information on Total Quality Management, Computer Integrated Management, ISO 9001-2002, and The Malcolm Baldrige Quality Award. There are updates on FDA Regulations and Net Weight control limits, as well as additional HACCP applications. A new chapter has been added to explain concepts and implementation of the six-sigma quality control system.
The organization of quality control. Health problems in food. Chemical aspects. Food processing and nutritional values. Microbiological quality control. Statistical methods in quality control. Tasting panels. national and international standards. Quality standards and specification in the food industry.
"Quality Control for Foods and Agricultural Products" is a single, complete, and practical reference to the wide variety of techniques for quality control in the production of food products. The book may also serve as a guidebook to other industries that are initiating or reviewing their quality control procedures. This title provides an overview of the tools available for quality control in the food industry. Among the quality control measures discused are practical methodology, sampling methods, measurement devices, sensors, computer analysis, data interpretation, reference materials, and standardization. "Quality Control for Foods and Agricultural Products" allows the reader to compare and contrast the advantages and disadvantages associated with a particular quality control method. Armed with this knowledge, the best possible quality control method may be chosen for a given product.
Food companies, regardless of their size and scope, understand that it is impossible to establish a single division devoted to "quality", as quality is the responsibility and purpose of every company employee. Applying this theory demands the cooperation of each employee and an understanding of the methodology necessary to establish, implement, and
The field of food quality assurance has evolved substantially over the past decade, and certain key developments have become widely accepted. These include Quality Systems (e.g., ISO 9000) and HACCP. Consequently, it has become essential for undergraduate Food Science and Food Technology students preparing for careers in the food industry to have some basic training in these systems as part of the curricula in their university or college programs. Food Quality Assurance: Principles and Practices integrates the latest principles, practices, and terminology of food safety systems with those of quality management systems to provide an understanding of a single food quality management system. Chapters define industry terminology, review the differences and components of food quality and food safety, explain Quality Programs and Quality Systems, and thoroughly examine Good Manufacturing Practices and HACCP. Written primarily as an undergraduate-level text for Food Quality Assurance and Food Quality Management courses, the book combines the fundamentals of food safety and quality systems with the latest data from recognized international and national organizations. This is an essential guide for teaching food quality assurance to students.
Also available as E-book see food-quality-management For more information about the e-book, please contact Sales. Consumer understanding of food quality is crucial as their concerns for healthy, safe and sustainable food production remain high. This forces actors and stakeholders in the agribusiness and food industry to use quality management as a strategic approach in production and innovation. This book describes Food Quality Management (FQM) in one integrated concept. Firstly, all relevant aspects of food quality management are combined into one FQM-function model, which shaped the structure of the book chapters. Secondly, the authors have embedded the techno-managerial approach in the book. This approach starts with the notion that food quality is the outcome of the combined effect of food behaviour and human behaviour. The core principle of this approach is the concurrent use of technological and managerial theories and models to analyse food systems behaviour and people's quality behaviour and generate adequate improvements to the system. Topics covered in the book include food quality properties and concepts, essentials of quality management and food technology, and details about food and human behaviour. Furthermore, this book describes in detail the technological and managerial principles and practices in the five FQM functions, quality design, quality control, quality improvement, quality assurance, and quality policy and strategy. Moreover, for each function a special topic relevant for the function is highlighted, namely consumer-oriented design, product versus resource control, quality gurus and improvement, quality assurance standards and guidelines (like GMP, HACCP, ISO2200, IFS and BRC), and Total Quality Management. This publication is a must-have for students, researchers and agribusiness and food industry professionals active in various areas of food production in the supply chain. The integrated approach with technological and managerial principles and concepts for analysing food quality management issues makes this a valuable reference book.
This book explains the role of food-oriented (or ‘food-centric’) quality system standards in the modern food and beverage industry. It discusses food safety schemes based on the international norm ISO 9001 and the “Hazard Analysis and Critical Control Points” approach, and also introduces the new Global Standard for Food Safety (GSFS) and the International Featured Standard (IFS, 7th ed.), outlining standardization for international equivalence (while maintaining the necessary flexibility and independence – which is not always easy an easy task).Providing selected specific examples, it examines the problems of chemical additives and possible cross-contaminations between different production lines, as well as adequate reactions to and handling of intentional adulterations. In addition, it includes a chapter focusing on quality audits and technical data sheets in the food industry, and a final chapter describing the certification of food-grade lubricants in the food industry, especially with regard to allergenic substances.
Whenever I step into an aeroplane I cannot avoid considering the risks associated with flying. Thoughts of mechanical failure, pilot error and ter rorist action fill my mind. I try to reassure myself with statistics which tell me there is greater chance of injury crossing the road. The moment the plane takes off I am resigned to my fate, placing faith in pilots who are highly qualified and superbly trained for the task of delivering me safely to my destination. To be a passenger in an aeroplane is to express faith in the systems used by the airline. It is to express a faith in the quality of the airline's organisation and the people who work within it. The same is true of surgery. Thoughts of mortality are difficult to avoid when facing the surgeon's knife. However, faith in the surgeon's training and skill; faith in the anaesthetist and theatre technicians, faith in the efficient resources and quality of the hospital all help to convince that there is little need to worry. Apart from flying and surgery there are many facets of life which entail risk, but, knowing the risks, we willingly place our confidence in others to deliver us safely. In the consumption of food, however, few of us consider the risks. Everyday, if we are fortunate, we eat food. Food sustains and gives us pleasure. Food supports our social interactions.
The implementation of robotics and automation in the food sector offers great potential for improved safety, quality and profitability by optimising process monitoring and control. Robotics and automation in the food industry provides a comprehensive overview of current and emerging technologies and their applications in different industry sectors.Part one introduces key technologies and significant areas of development, including automatic process control and robotics in the food industry, sensors for automated quality and safety control, and the development of machine vision systems. Optical sensors and online spectroscopy, gripper technologies, wireless sensor networks (WSN) and supervisory control and data acquisition (SCADA) systems are discussed, with consideration of intelligent quality control systems based on fuzzy logic. Part two goes on to investigate robotics and automation in particular unit operations and industry sectors. The automation of bulk sorting and control of food chilling and freezing is considered, followed by chapters on the use of robotics and automation in the processing and packaging of meat, seafood, fresh produce and confectionery. Automatic control of batch thermal processing of canned foods is explored, before a final discussion on automation for a sustainable food industry.With its distinguished editor and international team of expert contributors, Robotics and automation in the food industry is an indispensable guide for engineering professionals in the food industry, and a key introduction for professionals and academics interested in food production, robotics and automation. - Provides a comprehensive overview of current and emerging robotics and automation technologies and their applications in different industry sectors - Chapters in part one cover key technologies and significant areas of development, including automatic process control and robotics in the food industry and sensors for automated quality and safety control - Part two investigates robotics and automation in particular unit operations and industry sectors, including the automation of bulk sorting and the use of robotics and automation in the processing and packaging of meat, seafood, fresh produce and confectionery