Offshore oil and gas platform undergoes simultaneous joint replacements in GOM

Source: TDW

T.D. Williamson uses non-intrusive double block and monitor isolation technology to ensure offshore oil platform safety, increase efficiency, and deliver first-time run success.

Operating in the deepwater Gulf of Mexico presents technical challenges that make assuring structural integrity and safety highly complex, time consuming, and expensive. That’s why most offshore oil and gas operators see even regularly scheduled maintenance activities as anything but routine.

For example, when an oil and gas exploration and production company prepared for the planned replacement of two flexible joints connecting two steel catenary risers to their tension leg platform 120 km (75 mi) off the coast of Louisiana, it could have chosen to bleed down and flood the entire pipeline—a costly, time consuming, and potentially hazardous endeavor. Instead, the operator contracted T.D. Williamson (TDW) to perform simultaneous isolations on the platform’s 10-inch oil pipeline and 14-inch natural gas pipeline.

Jay Knudsen, TDW Project Manager, points out that as a result of the SmartPlug® double block and monitor isolations, only a very low volume of product needed to be evacuated before the inline joint replacements, reducing the project turnaround and overall cost. Effective seals on the two pipelines helped safeguard workers by preventing hydrocarbons, vapors, or seawater from backing onto the work platform, Knudsen adds.

Pre-project testing helps assure first-time run success

Pigging through an offshore pipeline system can be a high-risk operation. But with proper planning, engineering, and execution, risks can be mitigated.

In this case, TDW assured the efficacy of its tools—and ensured that the isolation operations would achieve first-time run success—by performing communication and pull-tests in a test rig that replicated the platform’s risers.

In order to execute the isolations, the SmartPlug tools were launched into both the 10- and 14-inch pipelines and monitored by the through-wall SmartTrack™ pig tracking system. The 10-inch oil pipeline was first isolated using a combination of high friction and high sealing pigs that traveled a total distance of 84 m (276 ft). After the pipeline section was depressurized, it was partially lifted out of the seawater to allow access to the flexible joint. Once the new joint was in place, the pipeline was re-pressurized. The SmartPlug tool was then lowered by cable into the riser—below the new flexible joint—where it was used, along with a ported blind flange, to create an isolation barrier for hydrotesting the new welds.

Inline inspection ensures isolation tool can pass through check valve

The 14-inch natural gas line isolation followed a similar, yet more intricate, course: A threemodule SmartPlug tool traveled a total distance of 72 m (250 ft) to perform a DNV GLcertified, double block and monitor isolation and provide an additional barrier to enable a hydrotest after the flexible joint was replaced.

What made the isolation tool’s journey more complex was the fact that it had to pass through the platform’s inline check valve on its way through the pipeline. In order to assure that the check valve could accept the tool, TDW recommended that the line first be inspected using a high resolution deformation inspection tool. The inline inspection (ILI) data was utilized in the SmartPlug tool piggability report during the engineering phase, giving both TDW and the client the confidence that the tool would make it through the check valve and that the project could be performed successfully.

“The ILI information and engineering studies provided a high level of assurance that the line was acceptable for SmartPlug tool operations,” Knudsen explains. “Data from the ILI run was useful to the client’s process engineers and may be applicable to additional projects.”

According to the operator, the replacement project required close collaboration among multiple service companies, and it was completed ahead of schedule and under budget. 

Drawing upon a 95-year history of industry leadership, TDW is a global solutions provider for the owners and operators of pressurized piping systems. TDW delivers a comprehensive portfolio of solutions for onshore and offshore applications, including hot tapping and plugging, pipeline cleaning, integrity inspection, pigging, and non-tethered plugging pig technology. 

Safety and service first

PennEnergy was invited to tour the TDW facilities this week. We already knew that T.D. Williamson is one of the world's most recognized names in pipeline equipment and services. But what we didn't know is that they take training and safety very seriously, as it's TDW's first priority in everything they do.

TDW's in-house, comprehensive approach to each customer's needs means that they delivery fast and safe service from beginning to end.

TDW is committed to service and training. Here they are seen demonstrating hot tapping and plugging.

Did You Like this Article? Get All the Energy Industry News Delivered to Your Inbox

Subscribe to an email newsletter today at no cost and receive the latest news and information.

 Subscribe Now


Making DDoS Mitigation Part of Your Incident Response Plan: Critical Steps and Best Practices

Like a new virulent strain of flu, the impact of a distributed denial of service (DDoS) attack is...

The Multi-Tax Challenge of Managing Excise Tax and Sales Tax

To be able to accurately calculate multiple tax types, companies must be prepared to continually ...

Operational Analytics in the Power Industry

Cloud computing, smart grids, and other technologies are changing transmission and distribution. ...

Maximizing Operational Excellence

In a recent survey conducted by PennEnergy Research, 70% of surveyed energy industry professional...

Latest Energy Jobs

View more Job Listings >>