High Pressure Processing (HPP)
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Application, Processing, Suitable food and Equipments used in High Pressure Processing
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High Pressure Processing (HPP)
- 2. IMPORTANCE High pressure processing (HPP) is a promising “non-thermal” technology that has been developed with the aim of obtaining microbiologically safe food products while avoiding undesirable changes in the sensory, physicochemical, and nutritional properties of foods. Thus HPP has become one of the innovative food processing technologies most accepted by consumers.
- 3. HISTORY First research in 1890s – high pressure destruction kinetics of Listeria monocytogenes Scott A in raw milk. Non-thermal processing technology (combination with heat possible). First commercialized in Japan in the early 1990s for pasteurization of acid foods for chilled storage. High pressure treated foodstuffs have been marketed in Japan since 1990, in Europe and the United States since 1996 & Australia since 2001. Rapid commercialization since 2000.
- 4. High pressure processing (HPP), is a method of preserving and sterilizing food, in which a product is processed under very high pressure, leading to the inactivation of certain microorganisms and enzymes in the food. Also known as Pascalization. High Pressures applied at short periods of time (20minutes).
- 5. Application of high pressures can cause: Inactivation of Parasites, Plant cells. Vegetative micro-organisms. Some fungal spores. Many food borne viruses. Enzymes are selectively inactivated. Macro molecules can change conformation. Small molecules (eg: flavors) are generally unaffected
- 6. For food processing, 200-800MPa pressure is required. For inactivating milk enzymes; alkaline phosphatase and protease about 1000 MPa is needed (as per research articles). Usually, 600MPa is the optimum pressure for processing commercial food products.
- 7. High pressure can kill microorganisms by interrupting their cellular function without the use of heat that can damage the taste, texture, and nutrition of the food.
- 8. Processing HPP systems are available in two types Batch process Semi-Continuous process A typical HPP batch system consists of four key components: Pressure vessel Pressurization fluid Intensifier Pump
- 9. Processing Pressure and temperature profile during a typical HPP treatment applied to food.
- 10. Processing
- 12. Food suitable for HPP Low-medium moisture, semi-solid/solid foods, vacuum packaged: Dry-cured or cooked meat products Cheese Fish, seafood, marinated products Ready to eat meals, sauces High moisture, solid foods, vacuum packaged: Fruits, marmalades/jams Vegetables High moisture, liquid foods in plastic bottle/flexible packaging: Dairy products Fruit juices Bioactive beverages
- 13. Application of HPP HPT finds application in food preservation in many ways. Some example of areas where HPT has more potential are: Fruits and Vegetables Meat and Fish Industry Dairy Industry
- 14. Pressure And Holding Time For HPP
- 16. HPP Equipments HPP equipment are of two types. Horizontal Model Vertical Model
- 17. HPP Equipments The standard in HPP industrial equipment: Horizontal design for traceability and easy installation. Special design for food industry (stainless steel, cleanable) Automatic loading/unloading system Working pressure up to 600 MPa (6000 bar).
- 18. HPP Packiging Materials- Plastic-Laminated Materials Nylon/Coextruded Ethyl Vinyl Alcohol Nylon/pp Nylon/ Aluminum Oxide (ALOx) /CPP PET/PE Aluminum foil-Laminated Pouches PET/AI/PP Nylon/AI/PP Deposited coatings of Silicon Oxide Blenders of polymers Nano composite materials Nylon Coextruded EVOH Aluminum Foil
- 20. Conclusion- Consumers: HPP is a consumer acceptable, environmental friendly, scientifically recognized method to achieve higher quality in certain foods Processing: Pressure transmission is instantaneous, uniform, short processing times, assured safety in whole pack, suitable for solids and liquids Quality: Retains flavor and nutrition Environmentally: Safe and no process by‐products, no emissions Packaging: Package design, geometry and format should be tailored for HPP, Packaging films and laminate structure generally survive HPP well, but MAP and HPP at high temperature can cause delamination and defects.