The Flange Weld Tester is used to hydrotest the integrity of new welds where a Weld(ing) Neck or Slip On flange has been added to a pipeline.
When a new flange has been welded to a pipeline, traditionally the method used to prove the integrity of a weld would involve flooding the pipeline in order to hydrotest. This is time consuming and costly, and often it is impossible, to fill a whole pipe system with e.g. demineralised water.
The Flange Weld Tester overcomes this problem, because he creates a chamber around the weld and only that chamber is tested.
The images below should clarify the method of a Flange Weld Tester.
Fig. 1 shows the Flange Weld Tester. The tool are designed with a single seal and flange configuration and are available in a range of sizes compatible with common pipe schedules and flange types/sizes. Size range: common pipe sizes NPS 1/2-24 as standard, specially configured tools in sizes up to NPS 48 may be engineered and designed for specific applications. Designed to provide recommended test pressure requirements up to ASME Pressure Class 2500.
Fig. 2 shows that the Flange Weld Tester is inserted into the pipe, with a gasket between the two flanges.
Fig. 3 shows a cross section where the Flange Weld Tester is inserted into the pipe (flange bolts are hand-tightened). Nut (X) is tightened, causing the sealing ring (red color) has been expanded. Flange bolts can now be put to the correct torque.
Fig. 4 shows a typical setup for a hydrostatic pressure test. At the lowest point, the chamber filled with water, until at the highest point the water flows out, and hence the chamber is bleeded.
Fig. 5 shows a typical arrangement for a hydrostatic pressure test. At the top a pressure gauge is installed, and depending on customer's specification, the pressure must remain a certain time, usually between 10 and 60 minutes.
The test is typically undertaken using water as the test medium, but can be undertaken using inert gas where necessary. The test undertaken is normally a strength test of the joint at 1.5 times the design pressure, but can also be used as a leak testing means, typically undertaken at 1.1 times the design pressure.
If the pressure test was positive, the chamber can be depressurized, and the Flange Weld Tester can be removed.
Please take a moment and look at In-Line tools for Weld Testing and Isolation
Remark(s) of the Author...
If a Weld(ing) Neck flange is used, the weld inside the pipe has a height of 2 to 3 millimeters. Before mounting the Flange Weld Tester, that increase should be removed with a grinder, because otherwise the Flange Weld Tester can probably not inserted into the pipe.