With an increasing number of severe accidents in the global oil and gas industry caused by damaged pipelines, University of Houston (UH) researchers are developing an autonomous robot to identify potential pipeline leaks and structural failures during subsea inspections. The technology will make the inspection process safer and more cost effective, while protecting subsea environments from disaster.
Thousands of oil spills occur in US waters each year for a variety of reasons. While most are small, spilled crude oil still can cause damage to sensitive areas such as beaches, mangroves, and wetlands. When larger spills happen, pipelines are often the culprit. From 1964 through 2015, a total of 514 offshore pipeline-related oil spills were recorded, 20 of which incurred spill volumes of more than 1,000 bbl, according to the Bureau of Ocean Energy Management.
The timely inspection of subsea infrastructure, especially pipelines and offshore wells, is the key to preventing such disasters. Current inspection techniques, however, often require a well-trained human diver and substantial time and money. The challenges are exacerbated if the inspection target is deep under water.
The SmartTouch technology now in development at UH consists of remotely operated vehicles (ROVs) equipped with multiple stress wave-based smart touch sensors, video cameras, and scanning sonars that can swim along a subsea pipeline to inspect flange bolts. Bolted connections have accelerated the rate of pipeline accidents that result in leakage, according to the Bureau of Safety and Environmental Enforcement (BSEE).
The BSEE is funding the project with a $960,493 grant to UH researchers Zheng Chen and Gangbing Song, who are working in collaboration with Oceaneering International and Chevron.
“By automating the inspection process with this state-of-the art robotic technology, we can dramatically reduce the cost and risk of these important subsea inspections, which will lead to safer operations of offshore oil and gas pipelines as less intervention from human divers will be needed,” said Chen, noting that a prototype of the ROV has been tested in his lab and in Galveston Bay. The experiments demonstrated the feasibility of the proposed approach for inspecting the looseness of subsea bolted connections. Preliminary studies were funded by UH’s Subsea Systems Institute.