Community Research and Development Information Service - CORDIS

Dressing Power Lines to Bring More Renewables to Cities

Contributed by: EEIG

A higher volume of electricity delivered to the grid requires the adaption of current transmission lines and improvement of the system’s security. To this end, innovative materials and geometries of components are being designed and tested.
To date, European consumers pay more for energy from renewables than for energy from conventional resources.

One of the reasons is still the immaturity of the technology used for harnessing and distributing renewable energy. In addition, some power stations are located far away from consumption centres. This is the case of wind farms, many of which are located on offshore sites, in the North and Baltic Seas.

To transport electricity over long distances, the existing alternating current (AC) transmission lines must be upgraded or new lines built.

“Using innovative materials and geometries for pylons, conductors and insulators helps to keep within the space already used, while allowing for a higher electrical capacity,” says Vanessa Gombert, project manager at 50Hertz, a power transmission operator, in Berlin, Germany.

Insulated cross-arms can reduce the pylon widths and high-temperature low sag conductors can transmit higher electrical capacity without having to increase pylon height. “Nevertheless, we need to make sure that the innovative materials and geometries of the line components are reliable throughout their planned lifetime and that they don’t interfere with any of the other components,” emphasises Gombert.

Other scientists agree. Changes in the design of the lines can lead to a higher volume of electricity carried.

”For example, we use aluminium conductors and add steal in the middle of the conductor for mechanical reasons. Researchers are looking into conductors capable of carrying more electricity because land for building new pylons comes at a high price.” notes Nicolae Golovanov, PhD Professor at the Power Engineering Faculty, Polytechnic University of Bucharest, Romania.

New power lines will remain too expensive until new energy producers come in and redraw the areas of consumption, according to Nicolae Mogoreanu, PhD in technical science at the Technical University in Chisinau, Republic of Moldova.

That’s why the structural adjustments in power line components are key to connecting “green” energy to the national grid.

“We would go forward with redimensioning the existing networks, partially reshaping the grid geography to fit the new conditions of electricity generation and with upgrading where necessary.” explains Mogoreanu.

Repowering of the AC transmission lines faces other challenges, namely their dependence on the availability and intensity of the respective renewable energies: sun, wind, and water.

“We need good weather forecasting for electricity generation. This will enable us to precisely plan the feed-in to the grid,” says Vanessa Gombert. She adds that part of her team’s work is the development of a low-cost sensor to assess the current ambient conditions correctly and to secure a safe line operation.

The downtime could be reduced if the maintenance work was conducted during the operation of the line. It implies working on a “live” high-voltage line.

The experts are also looking at ways to increase flexibility: “Our main goal is to use our grid in the most efficient way, working also on the distribution systems: transformers, intelligent breakers, etc.” notes Federico Caleno, Head of New Technology and Global Infrastructure and Networks Innovation at the Enel Group, in Rome, Italy.

Optimisation of the transmission capacity on existing lines is suitable for reducing the overall investment costs, conclude the experts working on the European Best Paths research project, whose partner is 50 Herz. According to Vanessa Gombert, they expect a reduction in downtime of the lines by the end of the project in 2018.

By Sorina Buzatu


Organisation EEIG
    Drève du Pressoir 38
    B-1190 Brussels


Related information


Countries (5)

  • Germany, Italy, Moldova, Norway, Romania


power line, renewable energy, electricity, grid, transmission, security, energy, technology, power station, wind energy, electricity conductor, solar energy,
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