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26 February - 4 March
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Types of Pre-cooling
Types of pre-cooling methods
A. Cold air
i. Room cooling ii. Forced air cooling (presser cooling)
B. Cold water / Hydro cooling
C. Top icing – direct contact with ice D. Evaporation of water from produce – i. Evaporative cooling ii. Vacuum cooling E. Hydrovac cooling – combination of hydro and vacuum cooling Commodity –wise cooling methods
A. Cold Air cooling i. Room cooling
Disadvantage
It takes more time to cool the products- the removal of heat slowly makes this system unsuitable for highly perishable commodities. This is because the product needs at least 24 hours to reach the required storage temperature.
Almost all crops are suitable for this type of cooling but it is mainly used in citrus fruits, potato, onions, garlic, citrus etc.
Difference between Forced air cooling and Vacuum cooling
B. Hydro cooling/Cold water cooling Principle - ‘the transmission of heat from a solid to a liquid is faster than the transmission of heat from a solid to a gas’. i.e. water is better heat conductor than air.
In this method cold water is used for quick cooling of a wide range of fruit and vegetables. Hydro cooling avoids water loss and may even add water to the fruit. Under this method, water is usually cooled by mechanical refrigeration, but ice may be used to make process faster. Chlorine (150-200ppm)/Iodine/Nutrients/Growth regulators/ Fungicides can be added in water to sanitize/ improve nutrient status and prevent post harvest diseases of the produc. For quick cooling of the produce, cold water must constantly be passed over the crop. This can be done by submersing the crop in cold water which is constantly being circulated through a heat exchanges. Cooling time
Hydro-cooling has the advantage over the pre-cooling method where it helps in cleaning the produce, provides fast, uniform cooling for commodities. It is faster than forced air cooling. Hydrocooling can be achieved by immersion or through means of a chilled water shower. Not all crops can be hydrocooled, because they need to be able to tolerate wetting, chlorine, and water infiltration.
Disadvantage -Tank water can be contaminated with micro organisms which can result in increased levels of spoilage during subsequent storage or marketing so chlorine should be added to avoid the problems. Two types of hydro coolers are generally used. i. Shower/batch type - The water showers over the commodity, which may be in bins or boxes, or loosen a conveyer belt. A common design is to transport the crop on a perforated conveyer belt (the speed of the conveyer can be adjusted to the time required to cool the crop) and cold water is pumped from the tank and allowed to fall on the produce in sprinkled type and then falls through to the tank below then filtered, recycled and re cooled (Fig.3).
Efficient cooling depends upon adequate water flow over the product surface. For product in bins or boxes, water flows of 75-100 lt. /min./ft.(400-600 l/min/m2) of surface area are generally used.
ii. Immersion type – It is simplest type of a hydro-cooler in which produce is dipped in cold water. Here product are normally in bulk, is in direct contact with the cold water as it moves through a long tank of cold. This method is best suited for products that do no float, because, slow cooling would result if the product simply moved out of the water. Immersion hydro coolers convey product against the direction of water and often have a system for agitating the water. Depth of the water tank should be >30 cm and water tends to penetrate inside fruits, particularly those that are hollow such as peppers. Water temperature also contributes to infiltration. It is recommended that fruit temperature is at least 50C lower than liquid.
Eg.: Radish, Asparagus, Artichoke, Green onion, capsicum and leafy vegetables.
Package ice can be used only with
Eg.: Most suitable - Leafy vegetables, cabbage
Not suitable - Tomato with low ratios between mass and surface area and effective water barrier like wax on surface is not suitable. Produce is placed in a strong, airtight, steel chamber. Moisture loss is achieved by pumping air out of the chamber containing the product and reducing the pressure of the atmosphere around the product. It causing the water in the produce to vapourize. Cooling occurs because the heat energy for vapourization comes from the produce. Vacuum cooling causes about 1% product weight loss for each 50 of cooling. This method is also used to cool the products like beans, carrots, capsicum, celery, corn, lettuce, mushrooms, spinach, sweet etc. High cost and sophistication operation needed. |