What is it about?
The effectiveness of autogenous metallic (iron and copper) pipe leak repair as a function of leak size, pipe wall thickness, water pressure, and leak orientation was examined at water pressures up to 60 psi. The time to repair for carbon steel pipe leaks statistically increased with leak size to the power of 0.89 to 1.89, and decreased with pipe wall thickness to the power of −1.9 to −1.0. Additionally, water pressure and leak orientation did not influence the time to or likelihood of self-repair of galvanized iron coated pipe leaks, but leak size was a limiting factor as the repair likelihood decreased with the ln of leak size with a slope of −0.65. In contrast, the time to repair 150 μm leaks in copper statistically increased with water pressure to the power of 1.7.
Featured Image
Why is it important?
This is the first paper to examine the impact of physical parameters on in-situ remediation of water pipe leaks.
Perspectives
As our water infrastructure is on the verge of failure, it is critical for us to think out of box and find new transformative approaches to address existing leaking and aging water infrastructure. This paper is the first to examine how physical parameters are going to influence autogenous leak repair process.
Dr. Min Tang
Virignia Tech
Read the Original
This page is a summary of: Impact of Leak Size, Pipe Wall Thickness, Water Pressure, and Leak Orientation on Autogenous Metallic Pipe Leak Repair, CORROSION, July 2017, NACE International,
DOI: 10.5006/2323.
You can read the full text:
Contributors
The following have contributed to this page
