Flow Rate Calculation Help - Solve Pipe Flow Problem Now!

  • Thread starter Thread starter vison54
  • Start date Start date
  • Tags Tags
    Flow Pipe
AI Thread Summary
To determine if the required flow rate through a manifold is achieved, additional information such as available pressure or fluid velocity is necessary. The dynamic pressure formula, P = ρ . v^2 / 2, can be used to calculate velocity, which can then be applied to the flow rate formula Q = v.A to find volumetric flow rate. The length of the pipe does not significantly affect flow rate unless friction is considered, which is only impactful in low manifolds. It's important to note that the initial equation applies to laminar flow, while most applications will likely involve turbulent flow. For irreversible pressure drop calculations, the Darcy Weisbach equation is recommended.
vison54
Messages
1
Reaction score
0
I need help!

I was given the pressure and flow rate needed through a manifold and I need to find out if this is producing the require flow rate based on the inlet/outlet diameter and total length.


I have been out of school for years and need help on this! thanks
 
Engineering news on Phys.org
If I understand your problem correctly, you'll need a little more information to find out what you need.

Do you have the available pressure or fluid velocity?

Dynamic pressure in fluid flow is

P = ρ . v^2 / 2
Where:
P = Dynamic pressure (Pa)
v = Velocity (m/s)
ρ = Fluid Density (kg/m3)

Using this formula we can solve for velocity.
v = (2*P/ρ)^0.5

Now we can apply the flow rate formula:

Q = v.A

Where:
Q = Volumetric Flow Rate (m3/sec)
v = velocity (m/s)
A = Area (m2)

This will give volumetric flow rate at given pressure. It won't matter what area you use (inlet, outlet, or in between) as flow rate is constant under constant pressure (how I'm imagining this problem). Velocity will change with cross sectional area but it doesn't sound like you're particularly interested in velocity.

The length won't affect flow rate if you ignore friction. Even taking friction into account will only reduce the flow rate by a significant amount on a very low manifold (how long are we talking?).

Also keep in mind the first equation is for laminar flow (I think.. it's late here and brain's switched off for the night). Google 'laminar flow' if you're unfamiliar with the concept. I'd guess you'd be passing either water (or similar viscosity) or air through this manifold and I'd expect it to be in the turbulent region, not laminar flow. I dont' know how to accurately calculate this information for non-laminar flow.
Hope this helps.
 
Last edited:
Hi vision, welcome to the board. You'll need a bit more than Bernoulli's equation to determine irreversible pressure drop in pipe. In the thread below you'll find an attachment (post #2) that gives you the Darcy Weisbach equation for irreversible pressure drop through pipe which is what you need. The standard text in industry is the Crane paper TP410 and can be purchased online here.
https://www.physicsforums.com/showthread.php?t=179830
 

Thread 'Query on Isentropic relationships (such as PV^gamma = constant)'

Hi all, I have a question. So from the derivation of the Isentropic process relationship PV^gamma = constant, there is a step dW = PdV, which can only be said for quasi-equilibrium (or reversible) processes. As such I believe PV^gamma = constant (and the family of equations) should not be applicable to just adiabatic processes? Ie, it should be applicable only for adiabatic + reversible = isentropic processes? However, I've seen couple of online notes/books, and...
View full post »
Thread 'How can I find the cleanout for my building drain?'

Thread 'How can I find the cleanout for my building drain?'

I am a long distance truck driver, but I recently completed a plumbing program with Stratford Career Institute. In the chapter of my textbook Repairing DWV Systems, the author says that if there is a clog in the building drain, one can clear out the clog by using a snake augur or maybe some other type of tool into the cleanout for the building drain. The author said that the cleanout for the building drain is usually near the stack. I live in a duplex townhouse. Just out of curiosity, I...
View full post »

Thread 'Dry sump pump issue'

I have an engine that uses a dry sump oiling system. The oil collection pan has three AN fittings to use for scavenging. Two of the fittings are approximately on the same level, the third is about 1/2 to 3/4 inch higher than the other two. The system ran for years with no problem using a three stage pump (one pressure and two scavenge stages). The two scavenge stages were connected at times to any two of the three AN fittings on the tank. Recently I tried an upgrade to a four stage pump...
View full post »

Similar threads

Question about fluid flowing into branching pipes
Replies
11
Views
4K
Heat Flow in a Pipe with integrated Sensor
Replies
21
Views
3K
Calculating Flow rate for an oxygen system
Replies
4
Views
2K
Cooling of a thick walled pipe transporting water
Replies
4
Views
2K
How Do You Calculate the Flow Rate of Oxygen in a Pressurized System?
Replies
13
Views
3K
Fluid Mechanics - Need Help on a Water Pipeline Project
Replies
7
Views
2K
How to calculate if wind through a funnel can open a check valve?
Replies
20
Views
2K
Volumetric flow rate of nitrogen through relieving pressure regulator
Replies
3
Views
2K
Calculation of coolant tank size required to feed multiple grinding stations
Replies
4
Views
2K
Pressure in a 2" pipe branching into four 1" pipes
Replies
10
Views
4K

Hot Threads

Recent Insights

Back
Top