Calculating Mass Flow Rate of a Fluid in a Pipe

AI Thread Summary
To calculate the mass flow rate of a fluid in a pipe, use the formula: mass flow rate = density * area * velocity. The density can be derived from the specific volume, where density equals 1 divided by the specific volume. For a pipe with a diameter of 38mm and a flow velocity of 5 m/s, the calculated mass flow rate is approximately 5.202 kg/s. It's important to ensure that all units are consistent and to understand the relationship between the variables involved. Understanding the underlying principles of fluid flow is crucial for accurate calculations.
felixj500
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Hi, how do i work this one out?

The mass flow rate of a fluid flowing through a section of pipe with a diameter of 38mm at a flow velocity of 5ms-1 with a specific volume of 0.00109 m3/kg is?

Thanks,
 
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mass flow rate = density * area * velocity
density = 1 / specific volume

mass flow rate = 5.202 kg/s

is that right?
 
You have:
Pipe diameter
Flow velocity
and sp.Vol.

Look at your units, then look at the units of the answer you expect and try to work it out. Equations are not enough, try to understand what is happening.

You've got a mass of liquid flowing through a pipe at a certain velocity, yea? The pipe has a given cross sectional area, and a specific amount of liquid will pass through a given cross section at any time, given the flow velocity, right?

So think about how you can relate these variables into something usable.
 
Also, yep. That's correct. Do you understand how that formula makes sense, though?
 

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