Nexans
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The OPHELIA research project aims to promote the development of linear photovoltaic power plants by installing solar panels on long, narrow land surfaces (running alongside dikes, roads, railways, etc.).
Selected in 2023 as the winner of the “DEMO TASE” call for proposals launched by the French Agency for Ecological Transition (ADEME), and developed by five partners (Nexans, CNR, Schneider Electric, SNCF, and SuperGrid Institute), OPHELIA is a research project focused on the electrical architecture of linear photovoltaic power plants and their integration into the built environment.
A solar canopy demonstrator will be deployed over a near-900-meter section of the ViaRhôna - a cycling route following the Rhône River, in the Vaucluse department, France, by 2028.
Set to showcase a truly disruptive technology, the OPHELIA project will help accelerate regional photovoltaic development without creating any land-use conflicts, as it will make use of linear land that has already been developed.
Though faced with a scarcity of land available for new projects, the photovoltaic industry remains key to hitting the energy transition targets set by the French State. Long linear photovoltaic power plants provide a response to land scarcity, as they help optimize the use of long, narrow land surfaces and structures that have already been designated for other uses (dikes, spaces alongside railways, roads, cycle paths, etc.), leaving natural spaces they are. The wedges of land in question retain their original use while electricity production becomes a complementary activity. France’s gross development potential is estimated at more than 60,000 km, corresponding to an installed capacity of nearly 60 GWp.
With the OPHELIA project, Nexans and its partners will be testing a medium-voltage direct current electrical architecture and paving the way for the development of projects on long linear land, spanning at least 20 km.
In line with two of the photovoltaic industry’s goals, the OPHELIA project aims to exploit linear land running alongside existing infrastructure and reduce long cable-related electrical losses by developing technological building blocks that make it possible to replace alternating current with medium-voltage direct current (MVDC).
OPHELIA is an innovative R&D project comprising electrical architecture design, prototype production, and on-site testing.
The demonstrator will consist of a series of three solar canopies, installed over around 900 meters of the ViaRhôna cycling route, which follows the Rhône River, in Caderousse in the Vaucluse department. Expected to have an installed capacity of around 900 kWp (generating enough electricity to meet the annual needs of approximately 700 people), the demonstrator will comprise 30 solar canopy structures. The panels will be angled toward the east and the west, forming a roof.
The partners involved in the project will be given the opportunity to design and conduct on-site testing of an electrical architecture and all the equipment required to transmit MVDC electricity from the point of production to the point of delivery.
The construction and testing phases are scheduled to take place between 2025 and 2028, following three years of engineering design studies, R&D, and prototype development.
The OPHELIA project was selected as the winner of the “Technologies Avancées pour les Systèmes Énergétiques : DEMO TASE” call for proposals launched by ADEME in 2022.
Representing a total investment of over €20 million, the project is co-funded by the French State (contributing around 40% of funding) as part of the France 2030 investment plan, which is being executed by ADEME in a bid to enhance the country’s industrial competitiveness and future technology development.
This funding is key to supporting the partners involved in developing this large-scale R&D project. OPHELIA has also been awarded labels by the Tenerrdis and i-Trans industrial clusters.
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The OPHELIA research project aims to promote the development of linear photovoltaic power plants by installing solar panels on long, narrow land surfacesfive partners (Nexans, CNR, Schneider Electric, SNCF, and SuperGrid Institute)Representing a total investment of over €20 million, the project is co-funded by the French Stateas part of the France 2030 investment planOPHELIA has also been awarded labels by the Tenerrdis and i-Trans industrial clusters