Refrigerator’s Air Circulation and Humidity
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The refrigerator relies on forced air to transfer heat. Fans inside the appliance move air around. The faster the air flows, the more quickly the heat is removed. For this reason, you don’t want to do anything to block the airflow. There are three basic types of forced-air systems in refrigerators. In ceiling-type refrigeration,
a single fan is mounted on the ceiling of the appliance. This is adequate for small-volume interiors but is not used in larger refrigerators. Because it only has a single location, it might allow for hot spots in the corners of the interior cabinet. In back-wall or mullion-type refrigeration, the airflow system takes in air above the top shelf and discharges it below the bottom shelf.
The duct-type refrigeration system is a combination of the first two types. Here, the forced-air unit is located at or above ceiling level, and the air is circulated through a series of small air ducts vented to various spots on the back wall of the cabinet. Just how important is air circulation? Well, the difference between safe and unsafe raw foods can be as little as five to seven degrees Fahrenheit. Seafood, poultry, or red meats will spoil within 18 to 24 hours if their refrigerated temperature rises above 42 to 45 degrees
Fahrenheit, and you already know the HACCP guideline of temperatures no higher than 40 degrees Fahrenheit. Would you rather risk a lawsuit and the resulting negative publicity from food-poisoning allegations, or keep your refrigerator air circulating properly?
Humidity is the amount of moisture (or water vapor) in the air. At different temperatures, air can hold different amounts of water. In refrigeration, the type of humidity we are interested in is the relative humidity, or how much of its maximum water-holding capacity the air contains at any given time, expressed as a percentage. For example, 85 percent humidity indicates that the air is holding 85 percent as much water as it could hold at that temperature. Relative humidity greatly affects the appearance and rate of deterioration of many foods. If the air surrounding the stored foods has a very low relative humidity, for instance, the air naturally picks up moisture from the foods themselves, causing surface discoloration, cracking, and drying.
If the air has a high relative humidity, some of the moisture will condense on food that is supposed to be kept dry, causing it to soften or grow mold or bacteria. Fortunately, most foods do well in a relative humidity of 80 to 85 percent. To achieve this optimum level, manufacturers are concerned that the refrigerator’s evaporator coils be large enough to operate at a temperature a few degrees lower than the desired temperature of the appliance. This differential reduces the amount of moisture that accumulates on the evaporator coils and keeps the moisture in the cabinet of the refrigerator instead. If the coils’ temperature becomes too low, however, the moisture will turn to ice crystals and get stuck on
the coils.
In this case, airflow through the system is blocked and the moisture in the refrigerated space is depleted. As you can see, getting all the factors right is a delicate balance, with your food costs and food quality at stake. In short, it is difficult to keep frost off the coils but necessary to keep them frost-free so they will operate properly. Adding heat to the area, to defrost the coils, can compromise the temperature of the food inside. A fairly new concept from Hussman Modular Defrost of Bridgeton, Missouri, does just what its name indicates: defrosts the coil in sections. The automated system defrosts coils at no more than nine minutes per section, and never defrosts adjacent sections at the same time, all programmed by an electronic controller capable of running up to six walk-ins.
The idea works for walk-in and reach-in refrigerators but not freezers. It maintains food quality and saves energy by keeping the compressors from working overtime to compensate for frozen coils. Another humidity-control suggestion for inside refrigerated space was pioneered by Humitech International Group, Inc. of Dallas, Texas. Humitech uses a mineral product called sorbite to absorb moisture and odors.
We mentioned most foods do well at 80 to 85 percent relative humidity, but fresh fruits and vegetables are exceptions. They require more humidity, up to 95 percent. To increase moisture content, you can slow down the air circulation. This explains why there are separate, closed produce bins in most refrigerators-to hold in natural moisture from the vegetables and to restrict airflow.
Freezers maintain an average relative humidity of only 30 to 35 percent. Any more moisture would automatically raise the temperature because it would hit the coils, freeze in place, and block the airflow, causing the freezer air to become warmer. The low humidity of freezers requires special food storage precautions. Use moisture- and vapor-proof wrapping to prevent the surface damage we know as “freezer burn” from occurring if any moisture condenses on the food.
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Source by Franco Zinzi