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The formula to calculate the cooling capacity is as follows: [ text {Cooling Capacity (kJ)} = text {Volume (m³)} times text {Density (kg/m³)} times text {Specific Heat Capacity (kJ/kg°C)} times (text {Initial Temperature (°C)} - text {Final Temperature (°C)}) ]. The formula to calculate the cooling capacity is as follows: [ text {Cooling Capacity (kJ)} = text {Volume (m³)} times text {Density (kg/m³)} times text {Specific Heat Capacity (kJ/kg°C)} times (text {Initial Temperature (°C)} - text {Final Temperature (°C)}) ]. Capacity is a measure of the amount of cooling provided by a refrigeration or air conditioning system. It is the product of the refrigerant circulated and the net refrigeration effect. It's usually measured in British Thermal Units (BTU) per hour or in kilowatts (kW). Understanding refrigeration capacity is crucial for several reasons: Ensures. . Understanding and calculating the cooling capacity of a cold storage facility is critical for ensuring efficient energy use and proper refrigeration. With accurate calculations, you can optimize your energy consumption, minimize unnecessary costs, and create the ideal storage environment for your. . Here is a refrigeration formula cheat sheet: To achieve optimal cooling, you need to calculate how much heat to remove from a space, which requires the refrigeration capacity and cooling load formulas. These formulas help you with repairs, equipment sizing, and upgrades. The refrigeration capacity. . The refrigeration effect is the amount of heat removed per unit mass of refrigerant: RE = h1 – h4 Where: The mass flow rate required for a given cooling load: ṁ = Q / RE Where: Compressor power required: P = ṁ × (h2 – h1) Where: COP is a measure of system efficiency: COP = RE / Compressor work. . Free online refrigeration capacity calculator for cold storage, freezers, and cooling systems. Calculate required cooling capacity in BTU/hr, tons, and kW based on heat load and temperature.