For immediate release
San Antonio — June 14, 2017 — Southwest Research Institute (SwRI) patented a new technology to inspect coatings of pipelines installed through horizontal directional drilling (HDD), a trenchless technology that has gained widespread acceptance over the past 20 years.
The technology can determine both the extent and the configuration of any damage to the coating that occurs during HDD installation. “Our system provides a significant improvement over existing technologies that are only capable of estimating the extent of coating damage but do not provide information about the configuration of that damage,” said Dr. Pavan Shukla, one of the two SwRI engineers who invented the technology.
Traditionally, workers install pipelines in open trenches, a method that disturbs roads, sidewalks, and environmentally sensitive areas. With this installation method, coating damage is more easily detected using various conventional techniques from the surface above the pipeline.
HDD is used for pipelines that run under surface features, such as rivers, roadways, and railways, where trenching is not desirable or practical. Special methods and devices to detect coating damage and corrosion of HDD-installed pipelines are necessary because access to the surface above the pipeline is limited. Additionally, the HDD installation itself tends to damage coatings as pipeline segments are pulled through a borehole and contact soil, rock and other debris. The SwRI-patented technology can determine damage to the coating along both the length and around the circumference of the pipeline. Additional field testing is needed before the technology can be licensed for commercial use.
SwRI’s “Detection of Coating Defects on Buried Pipelines Using Magnetic Field Variations within the Pipeline” (Patent No. 9,638,667) technology inspects pipeline segments for coating damage immediately after HDD installation. With this technology, engineers place a magnetic field sensor array within the pipeline. The sensor array generally matches the interior profile of the pipeline but is smaller. As the array moves along the pipeline, engineers analyze the output from each sensor to determine location, configuration, and the extent of coating damage.
“It is important to determine the condition of the coating on the pipeline segment immediately after installation,” added Dr. Jay Fisher, the co-inventor of the technology. “Understanding the extent of any damage to the coating will help determine if it is too severe to be protected by a cathodic protection system, which inhibits the oxidation process and prevents corrosion, or whether it can be repaired or needs to be replaced before it is placed into service.”