Academia and private sector working together on graphene-enhanced aluminum composite cable technology for improved power lines

A research team consisting of private sector and academic partners and led by NETL (a U.S. Department of Energy national laboratory that drives innovation and delivers solutions for a clean and secure energy future) is working on a new ultra-conductive carbon (graphite and graphene) aluminum composite cable technology that could increase the electrical conductivity and strength of transmission cables leading to higher grid capacity and efficiency to accommodate future power generation demand.

In addition to NETL, the research team includes, Ohio University, MetalKraft Technologies, Frisk Alloy, Hydro Extensions, General Graphene Corporation and CONSOL Innovations.

 

Known as ultra-conductive carbon aluminum composite (UCAC), the novel approach will have superior electrical and mechanical performance for use in power lines to transport electricity reliably and efficiently.

Conductors like aluminum and copper currently used in grid applications allow substantial energy losses and have high costs, low durability and limited capacity to integrate renewable energy electricity sources.

Researchers said they believe UCAC cables can address critical issues by significantly increasing the electrical conductivity and strength which can lead to higher grid capacity, durability, and efficiency to handle future power generation and demand.

NETL’s Congjun Wang explained that UCAC cables can upgrade existing and newly constructed power grids and offer performance, economic and environmental advantages.

“The performance of UCAC conductors will be enhanced by incorporating NETL’s high-quality carbon materials — graphite and graphene — into aluminum using a novel hot-extrusion technique,” he said.

He added that the UCAC cable technologies have the potential to increase electricity transport efficiency by more than 30%, enhance line capacity by more than 187%, lower CO2 emissions by 10.3 million tonnes per year and enable seamless integration of diverse and intermittent energy sources.

“We believe this technology’s durability and cost-effectiveness will reduce installation and maintenance costs, supporting a resilient nationwide energy distribution network,” Wang said.

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Posted: Oct 26,2024 by Roni Peleg