![]() The heat loss that will occur due to the cold room door or other reasons during the design is included in the calculation. Although it changes according to the conditions, it brings the need for cooling in the range of 5-15 % proportionally. Increasing the insulation thickness and decreasing the heat permeability rate will reduce the cooling load, but will increase the installation cost. This temperature should be as low as possible. When all these heat loads are taken into account, the sandwich panel thickness is determined according to the U value and the country where the cold storage will be built. Heat Load CalculationĬooling Load is calculated in 4 main groupsġ- Heat losses on the wall, floor, and ceiling surrounding the cooled volumeĢ- Hot air entering the cold storage while the cold room door is openĤ- Heat from the heat sources inside the cold storage (People, Lighting, engine, etc.) We will first examine the heat sources and then we will examine an example of how to calculate the cold room cooling load in a simplified example. In this article, we will tell you how to calculate the cooling load for a cold room. ![]() If the cooling system elements are selected correctly, the system will work efficiently and for many years in a way that is expected. The purpose of calculating cooling load is to choose the equipment in the cooling system cycle correctly and economically.
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