Pressure in pipe and find leakage

AI Thread Summary
In a pipeline system with both 100mm and 150mm diameter pipes, pressure remains constant throughout when filled with water and without leaks. If a leak occurs in the 100mm pipe at a rate of 1 L/min, the pressure difference can be calculated using flow rate equations, considering the Hazen-Williams equation for friction losses during flow. The proposed method of isolating sections of the pipeline to measure flow rates is valid for identifying leaks. Opening multiple outlets simultaneously will affect flow direction and pressure, which should be monitored for accurate results. This scenario is for simulation purposes, with plans to integrate sensors for real-time monitoring.
darren000
Messages
5
Reaction score
0
Could someone please help me with this??

I am working on a problem with 2 pipes, one 100mm and one 150mm in diameter. The shape of the pipeline is a square. half is 100mm pipe and the other half is 150mm pipe.

1.If entire pipeline is filled with water, no leak and no supply, is pressure the same through out the pipeline?

2. If no supply, and there is a leak point on the 100mm pipe at a rate of 1 L/min. what formula should I use to calculate the pressure difference?
 
Physics news on Phys.org
if you could be more clear on how the pipeline looks I think I could be able to help but I do not know what the pipeline looks like at all...
 
Thanks for your reply WillemBouwer.

The pipe network is attached. As you can see, water comes in from supply and goes out to E if all other outlet are shut off.

1. My first approach is to find Leak 1 and Leak 3 by closing A and C. Then flow rate in - flow rate out = flow rate leak. Is my though correct? I assumed leak 1 and leak 3 are minor leaks.

2. Known Leak 3 and Leak 1, I will close B and open A,C,D and assume no other leaks exist. Then I can measure leaks on the left side of A if they are opened.

Please let me know if I'm on the right track or not.
Thanks You. Appreciated.
 

Attachments

If there is no leak and no flow the pressure will be the same, if there is flow theoretically the pressure in the 150mm pipe will be larger but the speed in the 100mm pipe wil be more. If it is a long pipeline the friction will account for some pressure losses if there is flow, which can be calculated using the Hazen-Williams equation.
Yes that thought process will be correct for that specific piece of the pipeline... However, if you open A and B simultaneously what will the flow in both the pipelines be? Is this a real live scenario? If it is, just take a measuring bucket and let the leak flow into the bucket for one minute and see what the volume of the water is... This is the most accurate approach you can have...
 
Thanks for your reply.

I assume if both A and B opens water will flow both ways, I will update on this tomorrow.
This is for simulation purpose. Connecting all the sensors to PLC and monitor them through a display.

Best Regards
 
Thread 'Is 'Velocity of Transport' a Recognized Term in English Mechanics Literature?'

Thread 'Is 'Velocity of Transport' a Recognized Term in English Mechanics Literature?'

Here are two fragments from Banach's monograph in Mechanics I have never seen the term <<velocity of transport>> in English texts. Actually I have never seen this term being named somehow in English. This term has a name in Russian books. I looked through the original Banach's text in Polish and there is a Polish name for this term. It is a little bit surprising that the Polish name differs from the Russian one and also differs from this English translation. My question is: Is there...
View full post »

Thread 'Effect of mass on the acceleration of an elastic pendulum?'

I know that mass does not affect the acceleration in a simple pendulum undergoing SHM, but how does the mass on the spring that makes up the elastic pendulum affect its acceleration? Certainly, there must be a change due to the displacement from equilibrium caused by each differing mass? I am talking about finding the acceleration at a specific time on each trial with different masses and comparing them. How would they compare and why?
View full post »

Similar threads

How to calculate pressure for gas pipe?
Replies
5
Views
2K
Water Pressure and Different Pipe Sizes
Replies
9
Views
2K
Pressure at the closed end of a pipe with a leak?
Replies
1
Views
1K
Ejection speed and travel distance of a ball in a pressurized water pipe
Replies
8
Views
2K
PressureDrop/Pressure/Volumetric flow rate calculation (in a Pipe)
Replies
5
Views
4K
Leak detection based on pressure
Replies
3
Views
2K
I Pipe Air Blowing - Exit Velocity of Air
Replies
19
Views
3K
Flow rate of fluid at a burst leakage in a pipeline due to over pressurization
Replies
5
Views
4K
What is the leakage rate of my underground piping system?
Replies
13
Views
4K
Static hydraulic pressure in a pipe
Replies
33
Views
3K

Hot Threads

Recent Insights

Back
Top