To convert cubic feet per minute (CFM) to pounds per square inch (PSI), you need to consider the context, as they measure different things: CFM measures volumetric flow rate, while PSI measures pressure. You cannot directly convert CFM to PSI without additional information, such as the characteristics of the system (pipe diameter, airflow resistance, and temperature). Typically, you would use formulas from fluid dynamics, involving the ideal gas law or specific equipment characteristics, to find the relationship between flow rate and pressure in a given application.
To convert bar to psi (pounds per square inch), you can use the conversion factor that 1 bar is approximately equal to 14.5038 psi. Therefore, to convert 2.4 bar to psi: 2.4 bar × 14.5038 psi/bar ≈ 34.8 psi. So, 2.4 bar is approximately 34.8 psi.
Use this formula: psi x 0.07031 = kg/cm2
To convert 2.4 bar to psi (pounds per square inch), you can use the conversion factor where 1 bar is approximately equal to 14.5038 psi. Therefore, 2.4 bar is equal to about 34.8 psi (2.4 bar × 14.5038 psi/bar ≈ 34.8 psi).
Multiply by 0.036 http://www.enercongroup.com/conversion_factors.htm One PSI is equal to 27.7 inches of water column
No thats why i am asking you if it is possible then give me answer or any possible answer
To convert cmh to cfm ..... divide cmh by 1.7 to convert into cfm....
To convert cfm (cubic feet per minute) to kW (kilowatts), you first need to know the efficiency of the system. Once you have the efficiency, you can use this formula: kW = (cfm x pressure x efficiency) / 229. upheld wp-admin css where pressure is in psi.
To convert from 400 scfm at 116.0302 PSI to cfm, you can use the ideal gas law equation. Assuming standard conditions of 14.7 PSI and 60°F, you can adjust the volume flow rate from the given conditions to standard conditions using the ideal gas law. Applying this equation will give you the equivalent flow rate in cfm at standard conditions.
Tr = cfm/400
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.
Because it can.
350
More cfm's more airflow. Yes, more is better when you are powering certain airtools. Check the air tool specifically to see the demands
11.5 cfm@90psi
divide by 60
Multiply psi x 0.07 to get atmospheres.
No, they are not equal. The volume of air at different pressures does not directly correlate in a linear manner. Pressure and volume are inversely proportional according to Boyle's Law, so as pressure decreases, volume increases and vice versa.