Fluid Mechanics Q: Find Vol. Flow Rate & Head Loss at C

AI Thread Summary
The discussion revolves around solving a fluid mechanics problem involving a leak at point C, where the volumetric flow rate and friction factor are provided. The user initially struggles with applying Bernoulli's equation to calculate the flow rate into the bottom tank and the head loss in sections BC and CD. They calculate a volumetric flow rate of 3535 L/s, which seems excessive for a 22 cm diameter pipe, and express uncertainty about determining the pressure at point C due to the leak. The conversation highlights the importance of considering both velocity head and potential head when calculating pressure, especially in the context of open reservoirs. Ultimately, the user reflects on the challenge of algebraic manipulation and hopes for a simpler example on the exam.
morry
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Ok guys, here's a q from a past exam and I am not sure how to tackle it.
At point C, there is a leak and flow rate is given in L/s. I am also given the friction factor. I also know the diameter of the pipe.

The question asks for the vol. flow rate into the bottom tank. And then the head loss in BC and CD

What I am unsure of is the steps I need to take with Bernoullis equation. ie apply at AB then BC etc. I don't get that bit.

So if someone could point me in the right direction, Id be very happy.

Thanks.
 

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Ok, so I think I've calculated the volumetric flow rate, but it came out to be 3535 L/s, which is a fair bit for a 22cm diameter pipe.

I now have to find the head loss in BC and CD, but I don't know how to do this since I don't know the pressure at C.

Finally I have to sketch the hydraulic gradient, which I've never even heard of before.

Anyone have any ideas about these last bits?
 
Is the top reservior an open reservoir? Do you know the height at point C? That would mean that the pressure at C should be a combintation of the velocity head and the potential head at point C while the pressures at A and E are 0.

http://www.engineeringtoolbox.com/energy-hydraulic-grade-line-21_613.html

also, check out the definition on page 47 here:
http://www.engineeringtoolbox.com/energy-hydraulic-grade-line-21_613.html
 
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Both reservoirs are open to the atmosphere.

I don't know the height of C. Normally, finding pressure at C wouldn't be a worry, but this time there is a leak at C.

So would the pressure be the velocity head (With leak taken into account) plus potential head?

Thanks Fred!
 
Since it appears that that is the only information you have to go on, then I would say that you are correct. You should have some potential head, but if you are not given that information, then it might as well be considered insignificant. Velocity head is all you have left.
 
Cheers Fred.
 
Did it come out OK? Hope I helped.
 
Yeah came out eventually. :)

I think I've been letting the algebra get in my way, instead of letting my head look at the particular question. Hope there's an easy example of this question on the exam. :)
 

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