Will “Floatovoltaics” Become the Next Big Thing?
(3BL Media/Justmeans) -Â Energy and water keep showing up together in many articles and conversations. We now have the energy-water nexus, which is a term that highlights the interdependencies of the two. Getting water (from wells or desalination plants), moving it around and purifying it, requires a great deal of energy.
Â At the same time, you need water to make energy, especially if you use hydropower or any type of thermal plants, which accounts for most of the electricity being produced today. You also need lots of water for fracking. New energy production methods such as tidal power or ocean thermal energy conversion also link the two.
But another combination that has recently caught my attention could become significant. We know that fully two-thirds of the Earthâs surface is covered with water. We also know that enough sunshine hits the surface of the Earth every hour to provide energy for all of humanity, at todayâs conversion rates. So if you put these two things together, it makes sense to put solar collectors out on the water, to make the most of these two things.
As it turns out, a number of people have been doing that, several of them, in fact, claiming to have the largest project around. Letâs take a look.
First, there is Sonoma County, California. Since land is so valuable there (and they havenât yet figured out how to turn water into wine), the folks at Sonoma Clean Power decided to float a bunch of solar panels on top of several wastewater ponds. Says their CEO Geof Syphers, âThe advantage to us is weâre in a community that values open space and farmland. We have solar on land, but this helps deploy more renewable energy and cut emissions without using farmland for our systems.â
The ponds for the 12.5 MW installation, enough to power 3,000 homes, are leased by developer Pristine Sun, whose CEO, Troy Helming, refers to these projects as âfloatovoltaics.â The water helps to keep the panels cool, which keeps their efficiency up. The project is the largest of its kind in the US.
Not to be outdone, Indiaâs largest hydroelectric company National Hydro Power Corporation is planning a 50MW project in the southern state of Kerala. According to the developers, âThe ecology of the water body is not likely to be affected much and it will also reduce evaporation, thus helping preserve water levels during extreme summer. Solar panels installed on land, face reduction of yield as the ground heats up. When such panels are installed on a floating platform, the heating problem is solved to a great extent.â
That project will be overtaken by another project in Japan. Â A new project near Kato City, is being developed by Kyocera Corporation in collaboration with Century Tokyo Leasing LLC (video). It uses a modular approach, combining thousands of modules floating on ponds. Together they will eventually provide a combined 70MW. According to Liat Clark at Wired UK, keeping the panels cool improves efficiency by 11%.
If you think that sounds big, Brazilâs National Electric Energy Agency (ANEEL), has announced plans for a 350MW floating solar plant at the Balbina hydroelectric plant in the Amazon. Given the severe drought that Brazil has been experiencing, if this large array will reduce evaporation; that will be a major fringe benefit.
Finally, last but not least, there is the 465 MW Sunflower Solar Power Plant in South Korea. The modules were provided by SolarPark Korea. The system utilizes active tracking which keep[s the floating panels aimed at the sun, which, combined with the cooling effect of the water, increases the efficiency by 22% over land-based systems. In addition to benefits already noted, these floating arrays help to suppress algae growth and can also be combined with fish hatcheries.
This idea, which has managed to float under the radar, so to speak, could, considering its many advantages, become a relatively big deal.
Image courtesy of Sonoma County Water Agency
Shown: Installation at Far Niente Winery in Napa County, CA