Hydrostatic Test: Calculate Leakage Rate of Thread & Coupling

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Discussion Overview

The discussion centers on conducting a hydrostatic test to determine the leakage rate of a threaded and coupled pipe connection when pressurized to 6000 kPa. Participants explore methods to measure or calculate the leakage rate based on pressure drop over a specified duration, focusing on the use of water as the test fluid.

Discussion Character

  • Exploratory
  • Technical explanation
  • Debate/contested

Main Points Raised

  • Northdust outlines the setup for the hydrostatic test, specifying the parameters to be measured, including pressure, temperature, and volume of the test fluid.
  • One participant suggests using Boyle's Law to calculate the volumetric flow of a leak if the fluid were a gas treated as ideal.
  • Another participant clarifies that the test fluid will be water, which may affect the calculations and methods used.
  • A suggestion is made to collect leakage or measure the volume of fluid injected to maintain pressure during the test.
  • It is proposed that a flow meter could be used to measure the flow rate of the test fluid, indicating whether there is a leak based on the flow observed.
  • CS references the bulk modulus of water as a potential factor in the calculations, providing a link to additional information.

Areas of Agreement / Disagreement

Participants present various methods for measuring leakage, but there is no consensus on the best approach. Some methods are suggested for gas and others for liquid, indicating differing views on how to proceed with the hydrostatic test.

Contextual Notes

Participants have not resolved the implications of using water versus gas in their calculations, nor have they agreed on a definitive method for measuring leakage. The discussion includes assumptions about the constancy of temperature and pressure during the test.

Northdust
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I am looking to conduct a hydrostatic test on two short pieces of pipe connected via coupling a round thread coupling. Our intent is to pressurize the sample to 6000 kPa and hold for 1 hour to see if there is any sort of pressure drop, and if so what is the leakage rate of the system through the thread and coupled connection.

With this set-up we will know (or approximately know) the volume of the sample, the density of the test fluid, both initial and final pressure, both initial and final temperature (hopefully constant), and time the sample was pressurized.

If there is a drop in pressure over this time frame could someone help me determine the quantity of the test fluid that has leaked from the test specimen.

Regards,
Northdust
 
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If the fluid is a gas and can be treated as ideal, just use Boyle's Law with the total test duration to get the volumetric flow of the leak.
 
The test fluid will be water.
 
Collect the leakage or measure the volume injected to maintain pressure.
 
The true way to do it is to put a flow meter in line with the pressure producing part, i.e. pump. If the seals hold, there will be no flow. If there is a leak, the flow meter will tell you the rate. You can put a totalizer counter on the flow meter to give you the total amount flowed.
 
Northdust said:
I am looking to conduct a hydrostatic test on two short pieces of pipe connected via coupling a round thread coupling. Our intent is to pressurize the sample to 6000 kPa and hold for 1 hour to see if there is any sort of pressure drop, and if so what is the leakage rate of the system through the thread and coupled connection.

With this set-up we will know (or approximately know) the volume of the sample, the density of the test fluid, both initial and final pressure, both initial and final temperature (hopefully constant), and time the sample was pressurized.

If there is a drop in pressure over this time frame could someone help me determine the quantity of the test fluid that has leaked from the test specimen.

Regards,
Northdust

Use the bulk modulus of water:

http://hyperphysics.phy-astr.gsu.edu/HBASE/permot3.html

CS
 

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