The Netherlands is building 2 gigawatts of floating solar
Usage of inland waters and then the sea inevitable for increasing power
UTRECHT – The Netherlands will build floating solar parks on a large scale in the coming years. First on inland waters and then at sea. In 2023, already 2 gigawatt-peak of floating power will have been realized, scientists and project developers predict. This puts The Netherlands ahead in Europe.
The advantage of floating solar parks is that scarce land does not have to be used to generate sustainable energy. At first, mainly sand extraction ponds, dredging depots, reservoirs and basins of water companies are used. Moreover, floating solar parks generate more power than onshore PV installations, research shows. Especially when rotating panels are constantly aligned with the sun.
The target of 2 gigawatt-peak on water in 2023 has been set by the National Consortium Sun on Water, the platform that combines 35 governments, science institutions and companies to work together on concrete projects. “That target is feasible and we are well on schedule. For the period up to 2021, a SDE+ subsidy for over 500 megawatts has already been granted to floating solar parks, so that pipeline looks promising. We are not overtaking number one China with this, but we are at the forefront in Europe,” says chairman Dr Wiep Folkerts of the consortium.
He is Program Manager Solar Energy Applications at TNO and will discuss the latest developments around floating solar during the 11th edition of The Solar Future NL conference on 13 June in DeFabrique in Utrecht. “We have to build at least a thousand square kilometers of solar parks in the Netherlands if we want to meet our climate objectives. We don’t have that much space on land, so the step to water is a necessity. We did the same with wind energy, so you don’t have to be clairvoyant to predict that we will do the same with solar,” says Folkerts. ,”Sand extraction ponds, dredging depots and basins of water companies are all waters we don’t use for anything else. Also industrial operations can continue as normal. If you start with that, you will come a long way.”
Project developer GroenLeven will build 17 floating solar parks on sand extraction ponds in the coming years. At this moment the market leader has already received SDE+ subsidy for 400 megawatts and will realize at least 200 to 300 megawatts. “That means we are already taking care of 15 percent of those 2 gigawatt peaks by the end of 2020,” says CEO Roland Pechtold. GroenLeven has a lot of experience with dual usage and will discuss this during The Solar Future NL. “There are many sand extraction ponds and dredging depots in the Netherlands. These are industrial areas where the public is not allowed. You do not take away water from other functions, they are often connected to a grid and the installations there can run on this solar power,” Pechtold summarizes the benefits.
Recently GroenLeven started the construction of a floating solar park on a sand extraction pond in Tynaarlo in Drenthe, with 23,000 solar panels and a capacity of 8.4 megawatts peak, now the largest in Europe. The developer will lose that position temporarily to Floating Solar, a joint venture of Sun Projects and Dromec. This fall it starts with the construction of a floating solar park with 73,500 panels and a capacity of 22.6 megawatts peak on the reservoir of water company PWN in Andijk in North Holland.
The park is divided into fifteen islands with a diameter of 140 meters, each with 4900 floating solar panels. The construction of the first three starts in September. Ultimately, a maximum of 50 percent of the reservoir will be covered, in order not to damage the ecology under water too much.
Following the sun
Thanks to the Floating Solar rotation system, the panels follow the sun, generating 30 percent more power than traditional PV installations. “We will soon be the largest floating solar park in the Netherlands and the largest sun-following park in the world,” says Arnoud van Druten of Floating Solar. According to Folkerts of TNO, solar panels on large waters catch more solar radiation. Also a positive effect can be measured by the natural cooling of the panels.
Although the required technology is at an early stage, it is developing very quickly. Current disadvantages are the higher costs of floating parks and the difficult procedures for obtaining the necessary permits.
After 2023, the Netherlands will also start constructing floating solar parks at sea, all experts expect. Because solar energy and wind energy are complementary and have only a 5 percent overlap, the floating solar parks could be built next to the wind farms, where sailing or fishing are not allowed. The advantage is that they can use the grid connection together. “If we go towards the sea, an explosive increase of floating solar parks is possible, but we will have to deal with higher waves and more difficult conditions. This requires a lot of innovation, but we are working on that,” says Folkerts.
The consortium is currently having Floating Solar carry out a pilot with floating panels at the Slufter dredging depot on the Tweede Maasvlakte. Here the panels have to resist waves of one meter high. “During the storm in January 2018 we even endured waves of one and a half meters,” says Van Druten.
If the pilot is successful, a floating solar park of approximately 100 megawatt peak will be built on the Slufter. After that the step is made towards the IJsselmeer and its adjacent lakes and finally towards the North Sea.
GroenLeven also expects to take the step towards the sea. That is why it cooperates with companies and experts from the maritime sector. Pechtold: “What we find complicated, for example the anchoring, is an easy solution to the maritime industry. There, everything is already floating. You can also ask yourself whether everything on the water needs to be floating. Especially in combination with wind farms. That is why we can still learn a lot from the offshore industry.”