11.22.19
Large-scale floating photovoltaic plants can be one of the solutions for sustainable energy supply.
The EU approved a project that will optimize the anchoring and mooring of floating solar plants and adapt the anchoring to the ocean environment as well. The aim is to significantly reduce the cost of anchoring floating solar parks.
RISE is part of a consortium of Swedish, Spanish and Portuguese players who have now received funding from the European Union's European Maritime and Fishery Fund (EMFF) to develop the technology for anchoring and mooring floating solar cells.
The project (FRESHER - Floating Solar Energy mooring: Innovative mooring solutions for floating solar energy) started in November 2019 and lasts for two years.
The main goal of the FRESHER project is to be able to showcase and validate new innovative anchoring technology for floating solar power plants. The new technology results in both greatly improved Levelized Costs of Energy and increased capacity for solar power. The solar power should, therefore, cost less and provide more energy, which makes it possible to increase the rate of expansion so that ocean-based solar parks can be profitable.
The project leader is Seaflex, a company that offers flexible and environmentally friendly anchoring and mooring solutions.
"Seaflex has worked in the marine industry for a long time, focusing on the environmental aspect of safe and efficient mooring systems. The development in this project is aimed directly at floating solar cells and is therefore very important to us," said Lars Brandt, CEO at Seaflex.
Another partner in the project is EDP, the Portuguese energy company whose energy production to 70% comes from renewable sources, and which already has an active floating solar cell park in northern Portugal.
"Portugal has the ambition to be carbon neutral by 2050 and to have 80% of the energy supplied by renewable sources, a commitment that EDP shared from the first day," said João Maciel, director EDP CNET. "Hybridizing alternative sources of energy with our hydro fleet is one of the fastest ways to help accomplish this target. Floating photovoltaic, only in Portugal, has a potential of more than 2 GW. However, the harsh environment in our dams and competition with other conventional RES technologies requires an optimization of the mooring designs and a reduction of costs. Our ambition goes in three ways: Improve the existing solutions, bring competitive proposals and contribute to the design in harsher environments, as offshore seawater applications."
FRESHER's goal is to show that floating solar energy is ready to take the next step and grow in market share. Among the new technologies in the project are so-called PV anchoring suitable for the marine environment, which opens up new markets and uses in the green energy transition. The design is based on lessons learned from previous tests and commercial implementations as well as experience from the industrial and offshore sectors.
Other partners in the FRESHER project are EDP PP, WaveC and ISIGENERE.
The EU approved a project that will optimize the anchoring and mooring of floating solar plants and adapt the anchoring to the ocean environment as well. The aim is to significantly reduce the cost of anchoring floating solar parks.
RISE is part of a consortium of Swedish, Spanish and Portuguese players who have now received funding from the European Union's European Maritime and Fishery Fund (EMFF) to develop the technology for anchoring and mooring floating solar cells.
The project (FRESHER - Floating Solar Energy mooring: Innovative mooring solutions for floating solar energy) started in November 2019 and lasts for two years.
The main goal of the FRESHER project is to be able to showcase and validate new innovative anchoring technology for floating solar power plants. The new technology results in both greatly improved Levelized Costs of Energy and increased capacity for solar power. The solar power should, therefore, cost less and provide more energy, which makes it possible to increase the rate of expansion so that ocean-based solar parks can be profitable.
The project leader is Seaflex, a company that offers flexible and environmentally friendly anchoring and mooring solutions.
"Seaflex has worked in the marine industry for a long time, focusing on the environmental aspect of safe and efficient mooring systems. The development in this project is aimed directly at floating solar cells and is therefore very important to us," said Lars Brandt, CEO at Seaflex.
Another partner in the project is EDP, the Portuguese energy company whose energy production to 70% comes from renewable sources, and which already has an active floating solar cell park in northern Portugal.
"Portugal has the ambition to be carbon neutral by 2050 and to have 80% of the energy supplied by renewable sources, a commitment that EDP shared from the first day," said João Maciel, director EDP CNET. "Hybridizing alternative sources of energy with our hydro fleet is one of the fastest ways to help accomplish this target. Floating photovoltaic, only in Portugal, has a potential of more than 2 GW. However, the harsh environment in our dams and competition with other conventional RES technologies requires an optimization of the mooring designs and a reduction of costs. Our ambition goes in three ways: Improve the existing solutions, bring competitive proposals and contribute to the design in harsher environments, as offshore seawater applications."
FRESHER's goal is to show that floating solar energy is ready to take the next step and grow in market share. Among the new technologies in the project are so-called PV anchoring suitable for the marine environment, which opens up new markets and uses in the green energy transition. The design is based on lessons learned from previous tests and commercial implementations as well as experience from the industrial and offshore sectors.
Other partners in the FRESHER project are EDP PP, WaveC and ISIGENERE.