This the multi-page printable view of this section. Click here to print.

Return to the regular view of this page.

Overview & Events

Project description, task information, and event opportunities

Objective

This project intends to help improve engineering-based design and installation procedures to accommodate electrical, mechanical, and thermal requirements for long-term performance, considering thermo-mechanical behaviors of cables and accessories as well as corrosive environments of buried or in-manhole components. Results can help utilities with effective inspection and monitoring methods for cable system condition assessment, as well as a better understanding of cable and component aging and failure mechanisms and end-of-life criteria.

Approach

This project investigates methods and technologies for extruded dielectric transmission cable systems. Solutions are applicable to design, selection, installation, commissioning, testing, operation, and maintenance of these systems. The project seeks to answer research questions and addresses industry issues through the following activities:

  • Laboratory testing to validate engineering design models.
  • Laboratory testing to understand failure mechanisms and end of life.
  • Development and evaluation of innovative inspection and assessment tools, methods, and technologies.
  • Laboratory testing and field demonstration of developed or available diagnostic methods.

Research Value

The new materials, devices, and methods produced in this project could improve the performance of extruded dielectric transmission cable systems to meet power system safety, reliability, and maintainability requirements and to contribute to improved technical standards. For example:

  • Full-scale laboratory testing may validate and improve theoretical understanding of the thermo-mechanical behavior of extruded dielectric transmission cables. The results would support improved specifications and standardized designs, leading to higher system reliability, fewer circuit outages, and lower life-cycle costs.
  • Development and deployment of advanced inspection and monitoring techniques may assist in asset management, improve utility operation efficiency, and increase system reliability.
  • Investigation of corrosion inspection, assessment, and remediation methods and techniques for cable components in underground vaults addresses this emerging issue and may improve the design, inspection, maintenance, and protection of these components.
  • Laboratory testing can deepen the industry’s understanding of system performance and help determine the end-of-life criteria of the system.

Engagement Opportunities

Meeting

Scheduled Date

Location

Information

Underground Transmission Task Force February 19-21 (In Person) : February 26-29 (Virtual) Charlotte, NC Meeting Materials
EPRI R&D Project Update: Underground Transmission Mid-Year Webcast June 11 : 1:00pm - 2:30pm ET Webcast Meeting Materials
Underground Transmission 2025 ARP Rollout #1 June 18 : 1:00pm - 2:30pm ET Webcast Meeting Materials
Underground Transmission 2025 ARP Rollout #2 August 6 : 1:00pm - 2:30pm ET Webcast Meeting Materials
Underground Transmission Task Force August 19-22 (In Person) : August 26-29 (Virtual) Charlotte, NC Meeting Materials
EPRI Underground Transmission (Program 36) New Supplemental Launch Webcast October 15 : 1:00pm - 2:00pm ET Webcast Meeting Materials
EPRI End of Year Webcast: P35.019, P36.008, P37.116 High Voltage Direct Current November 22, 11:00am - 12:00pm ET Webcast Meeting Information
Underground Transmission Task Force - March 2025 March 10-13 (In Person) : March 17-20 (Virtual) Charlotte, NC Register Here