The CFM of the equipment are given, how to calculate Static Pressure for it.
2000 cfm. 400 a ton.
To convert CFM (cubic feet per minute) to BTU/hr (British thermal units per hour), you can use the formula: BTU/hr = CFM × ΔT × 1.08, where ΔT is the temperature difference in degrees Fahrenheit between the inlet and outlet air. The constant 1.08 is derived from the specific heat of air and the conversion factors of CFM to BTU. Therefore, the exact number of BTU/hr from CFM depends on the temperature difference you are considering.
The full form of CFM is "Cubic Feet per Minute." It is a unit of measurement used to quantify the flow rate of air or other gases. CFM indicates the volume of air that passes through a specific point in one minute, and is commonly used in HVAC systems, ventilation, and various industrial applications.
cfm stands for cubic feet per minute - this is a term that describes the amount of air flow in duct work - it takes approximately 400 cubic feet per minute air flow per ton of air conditioning
To calculate the horse power of a compressor one would need to use the following calculation. Pump ratio x GPM @ 100 psi = CFM. For a gas compressor divide CFM by 2 and for an electric compressor, divide CFM by 4. GPM is gallons per minute and CFM is air consumption in cubic feet per minute.
The cubic feet per minute (CFM) produced by a 50 horsepower (hp) air compressor can vary based on efficiency and the specific type of compressor. However, a rough estimate is that a 50 hp air compressor can produce between 150 to 200 CFM at 100 psi. For precise calculations, factors such as the compressor's design and application should be considered.
Specific Power means Power required to generate the 1 CFM that means KW/CFM..
11.5 cfm@90psi
8 liters per hour
The discharge of an air compressor can be calculated by multiplying the compressor's displacement volume (cubic feet per minute or CFM) by its efficiency factor. This will give you the actual output volume of air per minute that the compressor is able to deliver at the specified pressure.
As psi (pressure) increases, cfm (cubic feet per minute) generally decreases. This is because at higher pressures, air volume decreases due to compression. The relationship between psi and cfm is influenced by factors such as the compressor type, design, and operating conditions.
For blowing out sprinklers, you should use a compressor with a minimum size of 50-60 gallons and a minimum airflow of 5-6 cubic feet per minute (CFM).
CFM (cubic feet per minute) is not directly related to horsepower unless a pressure is given with the CFM number. A 1 HP pump might only generate 2.5 CFM at 100 PSI, for example. That same 1 HP can push hundreds of CFM at standard air pressure (a large fan, for example).
To effectively blow out sprinklers, you should use a compressor with a minimum size of 5-6 gallons and a minimum airflow of 5-6 cubic feet per minute (CFM).
The compressor will not be able to keep up with the demand of rapid nail gun firing. In other words, you'd have to stop nailing, and let the compressor catch up.
2.6 C.F.M. @ 90 lbs is what I use. ( A Porter Cable "Pancake" style compressor 150 lbs max, 6 gal)