Improving the thermal processing of foods /

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The application of heat is both an important method of preserving foods and a means of developing texture, flavour and colour. It has long been recognised that thermal technologies must ensure the safety of food without compromising food quality. Improving the thermal processing of foods summarises...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Richardson, P.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Boca Raton, FL : Cambridge, England : CRC Press ; Woodhead Pub., 2004.
Colección:Woodhead Publishing in food science and technology.
Temas:
Food > Preservation.
Food industry and trade.
Food Preservation
Aliments > Conservation.
TECHNOLOGY & ENGINEERING > Food Science.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • pt. 1. Optimising thermal processes: 1. Optimising the safety and quality of thermally processed packaged foods ; 2. Optimising the efficiency and productivity of thermal processing ; 3. Optimising the efficiency of batch processing with retort systems in thermal processing ; 4. Using computational fluid dynamics to optimise thermal processes
  • pt. 2. Developments in technologies for sterilisation and pasteurisation: 5. Modelling and optimising retort temperature control ; 6. Improving rotary thermal processing ; 7. Developments in packagin formats for retort processing ; Developments in cook-chill and sous vide processing
  • pt. 3. Developments in continuous heat processing: 9. Developments in aseptic processing ; 10. Developments in tubular heat exchangers ; 11. Optimising plate heat exchanger design and operation ; 12. Developments in ohmic heating ; 13. Air impingement heating ; 14. Laser-based packaging sterilisation in aseptic processing
  • pt. 4. Improving validation of thermal processes: 15. Modelling heat penetration curves in thermal processes ; 16. Validation of heat proceses : an overview ; 17. The use of date loggers to validate thermal processes ; 18. The use of time-temperature integrators (TTIs) to validate thermal processes ; 19. New techniques for measuring and validating thermal processes
  • pt. 5. Analysing microbial inactivation in thermal processing: 20. Analyzing the effectiveness of microbial inactivation in thermal processing ; 21. Evaluation microbial inactivation models for thermal processing ; 22. Identifying and dealing with heat-resistant bacteria
  • pt. 6. Appendix: 23. Optimising the thermal processing of liquids containing sold particulates.

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