Time for a Gas to Expand: Can You Determine the Speed of Expansion?

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In summary, if you have a large tank of air at a certain high pressure and you open up a valve into a much smaller tank, the rate of flow is proportional to the pressure difference across the valve and goes inversely with the impedance of the valve.
  • #1
Pengwuino
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If you have a large tank of air at a certain high pressure and you open up a valve into a much smaller tank, is there a way to determine how fast the air will expand into the smaller tank?
 
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  • #2
Generally, you assume the pressure in each tank is uniform.

If you're asking how quickly air or a fluid will go from one tank to another, there are equations for determining fluid flow through valves and piping. The Crane paper #410 is the most widely used reference for those equations.
 
  • #3
Dang, this cannon of ours is going to be more complex then i thougth :D
 
  • #4
The rate of flow is proportional to the pressure difference across the valve and goes inversely with the impedance of the valve, which is a function of the valve length, opening size and Reynold's number of the flow (which in turn, is a function of flow velocity, and is hence determined iteratively for a general case).
 
  • #5
Hey P, if I were going to do a really quick and dirty analysis for something like that, I'd do a spreadsheet that calculated flow through the valve only and just oversize the pipe. The valve is generally your largest restriction by far, unless you have a ball valve. If using a ball valve, just reduce it a bit. Or go through the entire system and calculate the flow at a single pressure differential, and come up with an "equivalent Cv". The Cv is the flow coefficient for the valve. If you come up with an equivalent one, it makes all the math much easier since you don't then have to recalculate flow through the pipe.

Use the equations on this page for valve flow:
http://www.ces.clemson.edu/chemeng/uolab/equipment/valves.html

Then start a spread sheet. Make tiny steps, 0.0001 seconds at a time or something. First column in your spreadsheet is time, then pressure in supply, then pressure in cannon, then volume of cannon, flow of air through valve, etc... Each row gives you the conditions at a given point in time, and each column calculates one of those parameters.

You really need to incorporate the first law into it, because the temperature of the supply and cannon is going to change fast. If that's too difficult for you, assume its isothermal. At least you'll get some very rough estimate of what will happen.
 
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FAQ: Time for a Gas to Expand: Can You Determine the Speed of Expansion?

What is the meaning of "Time for a gas to expand"?

The term "Time for a gas to expand" refers to the amount of time it takes for a gas to fill a given space or expand to a larger volume.

What factors affect the time for a gas to expand?

The time for a gas to expand is affected by several factors, including the initial volume of the gas, the pressure applied to the gas, the temperature of the gas, and the type of gas.

How is the time for a gas to expand calculated?

The time for a gas to expand can be calculated using the ideal gas law, which states that the product of the pressure and volume of a gas is directly proportional to the number of moles of gas and the temperature. By rearranging this equation, the time for a gas to expand can be calculated.

Why is the time for a gas to expand important to know?

The time for a gas to expand is important to know in various scientific and engineering applications. It can help in predicting the behavior and properties of gases, such as how long it takes for a gas to fill a container or how quickly a gas reacts in a chemical reaction.

How can the time for a gas to expand be measured?

The time for a gas to expand can be measured using various experimental techniques, such as using a stopwatch to record the time it takes for a gas to fill a container or using specialized equipment to measure the changes in pressure and volume of a gas over time.

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