ECP | European Composite Power Pylon

Summary
The European electricity grid is undergoing major expansions to accommodate the switch to renewable sources and more
decentralized energy production. Yet, the lattice towers are facing increasing public opposition due to their unsightly visual
appearance, and the alternative method of underground cables is too costly for long stretches. The TSOs are increasingly
looking for less intrusive, smaller, easier to erect, visually appealing and cost-effective transmission systems that could raise
general public, environmental and land owners associations acceptance, and therefore enabling TSOs to expand the
electricity grid with minimal resistance.
The ECP consortium has developed a turnkey transmission system, more compact and with minimal visual impact. It relies
on the use of composite materials on pylon cross-arms, enabling the integration of insulators and consequently the reduction
of the size of pylons.
This funding programme enables Bystrup/DK, the main instigator of the project, to join forces with 4 global companies,
Valmont/DK, Reinhausen Power Composites/GER, Nexans/FR and Dervaux/FR to secure the final steps to
commercialisation by demonstrating the Composite Pylon at operational conditions. This will be the first step to ensure
market and key stakeholders acceptance, including TSOs, general public, environmental and land owners associations,
policy- and opinion-makers.
The ECP project will increase the partners’ competitiveness and innovation capacity with direct impact on economic turnover
and job creation. Also, the Composite Pylon leads to higher standards of environmental and societal sustainability of the
European and global OHTL sector.
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/869180
Start date: 01-11-2019
End date: 31-10-2022
Total budget - Public funding: 4 216 311,00 Euro - 2 951 417,00 Euro
Cordis data

Original description

The European electricity grid is undergoing major expansions to accommodate the switch to renewable sources and more
decentralized energy production. Yet, the lattice towers are facing increasing public opposition due to their unsightly visual
appearance, and the alternative method of underground cables is too costly for long stretches. The TSOs are increasingly
looking for less intrusive, smaller, easier to erect, visually appealing and cost-effective transmission systems that could raise
general public, environmental and land owners associations acceptance, and therefore enabling TSOs to expand the
electricity grid with minimal resistance.
The ECP consortium has developed a turnkey transmission system, more compact and with minimal visual impact. It relies
on the use of composite materials on pylon cross-arms, enabling the integration of insulators and consequently the reduction
of the size of pylons.
This funding programme enables Bystrup/DK, the main instigator of the project, to join forces with 4 global companies,
Valmont/DK, Reinhausen Power Composites/GER, Nexans/FR and Dervaux/FR to secure the final steps to
commercialisation by demonstrating the Composite Pylon at operational conditions. This will be the first step to ensure
market and key stakeholders acceptance, including TSOs, general public, environmental and land owners associations,
policy- and opinion-makers.
The ECP project will increase the partners’ competitiveness and innovation capacity with direct impact on economic turnover
and job creation. Also, the Composite Pylon leads to higher standards of environmental and societal sustainability of the
European and global OHTL sector.

Status

CLOSED

Call topic

EIC-FTI-2018-2020

Update Date

26-10-2022
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Horizon 2020
H2020-EU.2. INDUSTRIAL LEADERSHIP
H2020-EU.2.1. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies
H2020-EU.2.1.0. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies - Cross-cutting calls
H2020-EIC-FTI-2018-2020
EIC-FTI-2018-2020