Effect of Downstream Pressure Fluctuations on Choked Mass Flow Rate

AI Thread Summary
Downstream pressure fluctuations do not affect the choked mass flow rate, as the choked condition is determined by upstream pressure. While upstream pressure influences density and can change mass flow, it does not alter flow velocity in a choked section. Changes in downstream pressure cannot propagate upstream to impact the choked area due to the speed of sound limitation. Understanding choked flow is crucial, especially in applications like welding, where consistent flow rates are essential. The discussion emphasizes the complexity of fluid dynamics beyond simplistic explanations.
arhanbezbora
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What would be the effect on a choked mass flow rate if there were fluctuations in the downstream pressure?

Thanks
 
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Downstream pressure has no affect on an upstream choked condition. The only way to increase mass flow in a choked section is to increase pressure and thus density.
 
I thought that wit chocked flow upstream pressure did not effect the flow rate?!
 
Here is a web-based flow rate calculator for various pipe sizes, lengths, head etc.
http://www.pipeflowcalculations.com/pressuredrop/index.htm
If this doesn't work out, then try
http://www.pipeflowcalculations.com/
 
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jaap de vries said:
I thought that wit chocked flow upstream pressure did not effect the flow rate?!
Upstream pressure will change the density and thus change the mass flow through the nozzle. An increase in pressure will not increase the velocity though. The downstream pressure changes will not be able to propagate upstream to the choked area so the downstream pressure change will never be seen by anything upstream.

Here's a quick read by a manufacturer of precision orifices...orifii...whatever
http://www.okcc.com/PDF/Choked Flow of Gases pg.48.pdf
 
arhanbezbora said:
What would be the effect on a choked mass flow rate if there were fluctuations in the downstream pressure?

Thanks

Many years ago my fluid flow professor had this to say when I indicated I couldn't understand how the flow would not increase when the downstream pressure was lowered. He said think of it this way; "It would IF it knew the pressure was lower but the pressure wave that tells it the pressure is lower only travels at the speed of sound so it never gets there to tell it!"
Frankly I have the hardest time telling welding enginers about "Choked Flow" as it related to a product I recently patented that saves shielding gas (see www.NetWelding.com[/url]) It is important since some folks sell a product that operates at a low pressure which doesn't use choked flow and the preset flow rate varies all over the placewith minor restriction changes that occur in production. I even wrote a technical paper for our Society's Journal ([PLAIN]http://files.aws.org/wj/2007/04/wj200704/wj0407-22.pdf ) without the math but it appears to me many folks don't like to think beyond what I cal the CNN 15 second answer to complex problems! Choked flow takes more than that. Electrical analogies don't work well.
Jerry
 
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