1 / 44

Physical Preservation of Meat

Physical Preservation of Meat. https://www.youtube.com/watch?v=AulCuXNjl94 (Preservation methods) https://www.youtube.com/watch?v=epP-CP1fKu0 (maillard reaction) https://www.youtube.com/watch?v=rEvQD8V9Des (Browning in Apple) https://www.youtube.com/watch?v=i4VgOKIJC9A (Cryogenic)

jjune
Télécharger la présentation

Physical Preservation of Meat

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Physical Preservation of Meat https://www.youtube.com/watch?v=AulCuXNjl94 (Preservation methods) https://www.youtube.com/watch?v=epP-CP1fKu0 (maillard reaction) https://www.youtube.com/watch?v=rEvQD8V9Des (Browning in Apple) https://www.youtube.com/watch?v=i4VgOKIJC9A (Cryogenic) https://www.youtube.com/watch?v=2bxCsbdqPwI (Freeze drying) https://www.youtube.com/watch?v=xKDYcX2fRYo (Ice and salt) https://www.youtube.com/watch?v=XVcmGSPBGyM (Irradiation)

  2. Preservation of Meat • Preservation of meat is an effort to extend the shelf-life of meat by inhibiting/limiting microbial growth and enzymatic or chemical reactions which can spoil meat.

  3. Principle of Meat Preservation • Controlling microbial activities by preventing contamination, preventing microbial growth, removing microbes, and killing microbes or spores. • Controlling enzymatic activities through endogenous enzyme inactivation, prevention and delay of chemical reactions.

  4. Principle of Meat Preservation • Controlling insects, rodents and other physical influence which can spoil food (lighting, air, and physical pressure).

  5. Functions of Preservation • Reducing any harm potential caused by microbes to consumers, • Maintaining meat quality especially its sensory characteristics, • Maintaining nutritional values at a safe level.

  6. Physical preservation of meat • Chilling • Freezing • Heating or cooking • Dehydration • Freeze drying • Irradiation

  7. Low temperature for preservation • Low temperature slows down the speed of chemical reaction in the preserved food. • Freezing reduces the amount of water in the form of fluid needed by microbes to spoil the preserved food.

  8. Low temperature for preservation • Low temperature/freezing slows down the activities that spoil the preserved food. • Low temperature only inhibits microbial growth that spoils the preserved food, not kills it.

  9. Chilling and Freezing • Chilling and freezing are food preservation technology by heat transfer from the food. • Heat transfer, temperature decrease of the product  slowing down biochemical reaction and microbial growth  extended shelf life

  10. Chilling and Freezing • The benefit of chilling and freezing is the presence of minimum changes in product characteristics. • Sensory changes due to enzymatic reactions or microbial activities occur very minimally. • The nutrients of product can be maintained.

  11. Chilling and Freezing • Chilling: the process of heat transfer from food products so that the temperature reaches -1 until 8oC • Freezing: the product temperature is reduced until below 0oC such as -7oC even until -40oC.

  12. Chilling and Freezing • Chilling is often combined with other food preservation process, such as fermentation, irradiation or pasteurization.

  13. Microbial classifications based on growth temperature • Thermophilic, the range of growth temperature is 35 – 55oC • Mesophilic, the range of growth temperature is 10 – 40oC • Psycrophilic, the range of growth temperature is -5 – 15oC

  14. Chilling • Chilling is meat storage at low temperature in certain period of time to reduce microbial spoilage, • The temperature of carcass (30-39℃) is reduced to 5℃ or chilling temperature (-4 – 9℃),

  15. Chilling • Factors that affect the chilling rate: specific heat of carcass, carcass weight, amount of external fats, temperature of environment, distance between carcasses, chilling rate, and relative humidity. • Quick chilling below 12-19℃ pre-rigor will lead to cold shortening.

  16. Chilling • It can be prevented by chilling the carcass at 12-19℃ until rigor mortis, then chilling and refrigeration (0-3℃) until further processing. • Factors affecting the duration of storage; initial microbes, storage temperature and humidity, protective material, animal species, and product types.

  17. Freezing • The meat is from healthy animal, • Bleeding is completed after slaughter, • Chilling has been carried out, • Aging duration is limited, • Good protection of carcass, • Freezing temperature below -18℃.

  18. Quality of frozen meat • Duration of chilling storage, • Freezing rate, • Freezing condition (temperature, humidity, and packing), • Animal age, • Meat pH, • Contamination by heavy metal, • The initial amount of microbes.

  19. Freezing methods • Still air freezing: the medium is cold air, the freezing temperature is -10 until -30℃, the heat transfer is by convection, • Plate freezing: the medium is metal plate, the freezing temperature is -20 until -30℃, the heat transfer is by conduction,

  20. Freezing methods • Rapid freezing: the medium is cold air, the freezing temperature is -20 until -40℃, the heat transfer is by convection. • Liquid immersion freezing; used for poultry meat or fish; materials required are sodium chloride, glycerol or glycol; the heat transfer is by conduction,

  21. Freezing methods • Cryogenic freezing; direct immersion, sprinkle of cryogenic liquid, cryogenic materials are liquid nitrogen (-195℃), CO2 (-98℃), liquid nitrous oxide (-78℃).

  22. Factors affecting the rate of carcass temperature decrease • Specific heat of carcass • Carcass weight • The amount of external fats • The air temperature of chilling environment • The number of carcass in the chilling room

  23. Factors affecting the rate of carcass temperature decrease • The distance between carcasses in chilling room • The air speed in chilling room • The humidity in chilling room

  24. Temperature and Duration of Frozen Storage • Freezing temperature at -18℃: minimal changes occur, meat juice is frozen efficiently, it inhibits microbes that spoil food, • The duration of food storage at -18℃ can reach 4-6 months, depending on the origin of the meat,

  25. Temperature and Duration of Frozen Storage • Rapid freezing on meat without any protective materials can cause freezer burn.

  26. Change in frozen meat quality • Spoilage of several nutrients, • Decreased water holding capacity, • Improved tenderness, • Decreased meat juice, • Change in meat color, • Decline in meat flavor.

  27. Thawing method • Cold air, • Warm water, • Water at room temperature, • Direct heating/cooking without thawing, • Open air, • Microwave.

  28. Thawing duration • Temperature of meat, • Thermal capacity of meat, • Size of meat cut, • Medium being used, • Temperature of medium, • Circulation of medium.

  29. Thermal process • Thermal process is a method used to kill spoilage and toxigenic microbes in meat and processed meat, • It is done by pasteurization (LTLT and HTST) and sterilization, • Bacterial classification based on temperature resistance; psycrophilic, mesophilic, thermophilic.

  30. Effects of thermal process on meat quality • Decreased palatability, • Denaturation of protein, • Sulfhydryl flavor, • Coagulation and precipitation of proteins, • Connective tissue breakdown, • Damaged thiamin and ascorbat acids.

  31. Pasteurization • LTLT (low temperature long time), the temperature is at 62-65oC, 30 min. • HTST (high temperature short time), the temperature is at 72-75oC, 15-40 sec. • Flash pasteurization, the temperature is at 85oC, 1-2 sec. • UHT (ultra high temperature), the temperature is at 135-140oC, 1-2 sec.

  32. Pasteurization • Heating at the temperature below 100oC. • Destroying all pathogenic microbes (mycobacteria, salmonella, streptococcus and staphylococcus) • Destroying almost ≥99% spoilage microbes • Inactivating endogenous enzymes.

  33. Sterilization • Inactivating all types of microbes and spores until sterile, • Requiring a temperature reaching 150oC for 1-2 sec with pressure.

  34. Dehydration • Dehydration is a decrease in water content and water activity until a low level in order to inhibit the growth of microbes. • Dried meat has a relatively longer shelf life even though without refrigeration storage, • Meat dehydration usually makes use of hot air,

  35. Dehydration • Factors affecting the quality of dried meat ; temperature, particle size, and circulation of hot air. • Products of dried meat still contain approximately 5-6% water • Dried meat can undergo rancidity, due to its composition which has relatively high fats (around 24%); it can be solved by vacuum packing,

  36. Dehydration • The most obvious changes in the quality of dried meat are browning reaction, flavor change, and oxidative rancidity. • Drying above 60℃ causes gelatinization.

  37. Drying • Dehydrating food also dehydrates the microorganisms. • Microorganisms contain aprrox. 80% of moisture. • Freeze-drying (lyophilization) is the most efficient method.

  38. Freeze drying • Freeze drying is a drying process of meat in which the meat remains frozen. • The process of water evaporation from meat is called sublimation. • Freeze drying will result in meat with less than 2% water content.

  39. Freeze drying • Freezer-dried meat is more stable compared to raw meat, and has 2-4 times longer shelf life.

  40. Irradiation • A method of meat preservation can use the method of ionizing radiation. • Ionizing radiation is radiation using high energy to release electrons and produce ions.

  41. Irradiation • Ionizing radiation can kill meat microbes that this is called as cold sterilization. • Sterilizing meat requires radiation dosearound 4,5 Mrad.

  42. Irradiation • Ionizing radiation causes chemical changes (myoglobin turning to be metmyoglobin, oxidative rancidity, formation of aldehydes from carbohydrate), physical changes (tenderness, discolorization), and meat sensory (flavor and texture) • The use of ionizing radiation is now avoided due to the presence of toxic and carsinogenic chemical compounds.

  43. Irradiation • Non ionizing radiation also kills microbes. • Non ionizing radiation uses microwave, infrared rays, and ultra violet rays. • Non ionizing radiation can produce heat on the object being radiated that it can be used in the hot processing or cooking of meat..

  44. Meat spoilage • Microbiological: causing spoilage, • Chemical: causing changes in color, and smell • Physical: causing fluid exudation (drip).

More Related