Can Floating Solar Islands Meet the World’s Future Energy Needs?

Floating Solar Works Best Where Weather Conditions Are Calmer
“The ocean is big!” says Kristiansen.

However, not all the ocean expanses are suitable for the development of floating solar.

“Placing floating solar cells in areas with the calmest weather, wind and wave conditions possible is clearly an advantage. The Doldrums, a belt around the Earth near the equator, have little wind and the sun shines directly down, so these places are well situated for floating solar. So are places that have swells rather than rough seas,” says Kristiansen.

Floating solar is competitive with offshore wind power.

“If you covered one square kilometre with solar panels in southern Spain, where the annual average solar radiation is 200 watts per square metre, floating solar would be able to produce about 44 megawatts. Today’s wind turbines produce on average about 6 megawatts for the same area,” he says.

How Do Solar Photovoltaics Float?
We haven’t figured out the best technology for this approach yet. Floating solar has to be cost effective. At the same time, solar islands need to be able to tolerate some rough seas and strong winds. The floating structures have to follow the waves for it to work.

So how are the solar panels supposed to stay afloat? And what is the best solution to link them?

Kristiansen highlights two main concepts for floating solar.

·  One option consists of floating membranes that are attached to floating collars. The Norwegian company OceanSun has already built several full-scale membrane-supported systems.

·  The second concept consists of smaller, rigid modules that are interconnected in large matrices. Several companies offer different variants of this system, including Equinor and Moss Maritime, who are testing a floating prototype off the island of Frøya.

“Other concepts are also possible, like air cushion-supported constructions and flexible tubing connected in different configurations,” Kristiansen said.

Floating Solar Power a Fairly New Concept
A number of floating solar pilot plants have already been built around the world. They are often found on bodies of water on islands, in cities and in communities that do not have other sources of power. Floating solar panels have been installed on several hydropower reservoirs in Japan and China.

“We need this power in Norway as well, such as for onsite power at aquaculture facilities or to provide power for Norway’s new power-intensive industries, such as battery factories,” he said.

The idea of expanding solar panels in floating structures on dams and other land-based water sources and in the ocean is relatively new.

“Floating solar is a field of research in its very early stages. Only in the last two years has it has started to attract attention. The EU has announced calls for research projects in the past year,” Kristiansen said.

Live Oftedahl is Senior Executive Officer Communication, Department of Marine Technology, Faculty of Engineering, NTNU.This story is republished courtesy of Norwegian SciTech News.