Physics Asked by Polo AM on September 30, 2021
I have a trouble with a simple question (I think). Well, if a have a tank full of compressible air at a pressure of for example 6 bar and a valve with a hole of 8 mm diameter, how can I know the volumetric flow coming out of the valve in function of the actual pressure? The temperature of the ambient is 20 °C and a pressure of 1 bar. I had been searching the way to resolve it but I’m confuse because all the problems I find about compressible air are about turbines and others with not straight out pipe. Thanks for your responses.
I'm not sure about compressible liquids like air, but you might try Bernoulli's equation. At least, that's what you would use i.e. for water.
For this case: $$ frac{v^2}{2}=frac{p}{rho(p)} $$ Where $rho$ is dependent on the pressure. I figured something around 380 meters per second, but at such high speeds, friction might play a non-neglectable role.
Answered by Andrew on September 30, 2021
If the pressure ratio between high and low pressure is greater than 2 for a compressible fluid such as air, in general the flow is "choked", and exits the valve or orifice at Mach 1 (e.g., 330 m/s). If you know the cross-sectional area of the exit hole, you can calculate a volumetric flow rate, or you can use the ideal gas law at 1 bar to calculate a mass flow rate.
Answered by David White on September 30, 2021
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