You'll also need to know the length of pipe through which the air travels from the reservoir to atmosphere, along with any fittings, elbows, valves, etc. to calculate the minor losses in the system.MANPREET SINGH said:Sir, Kindly let me know how to calculate flow rate (cfm or Litre/m) of air flowing through a pipe of 12 mm dia from a reservoir at pressure 7 kg/cm2 to atmosphere.
i.e ;- how much volume of compressed air could pass within a minute through a "X"mm dia pipe from a constant pressure (7 kg/cm2)
Thanks
Those were my reasons for asking for more information on the exit piping.Chestermiller said:You also need to consider viscous/turbulent friction loss in the pipe.
Chet
The air flow rate can be calculated by multiplying the velocity of the air (in feet per minute) by the cross-sectional area of the air duct or opening (in square feet).
The formula for calculating air flow rate is: Q = VA, where Q is the air flow rate (in cubic feet per minute), V is the velocity of the air (in feet per minute), and A is the cross-sectional area of the duct or opening (in square feet).
Air flow rate can be measured using an anemometer, which measures the velocity of the air, or by using a flow hood, which measures the volume of air passing through a duct or opening.
Air flow rate can be affected by factors such as the size and shape of the duct or opening, the temperature and humidity of the air, and any obstructions or bends in the air flow path.
Calculating air flow rate is important for several reasons. It allows for proper ventilation and air circulation in a space, helps determine the efficiency of HVAC systems, and is crucial in industries such as manufacturing and construction where precise air flow rates are necessary for safety and quality control.