Hybrid systems of floating solar panels and hydropower plants may produce a significant portion of electricity across the globe—NREL analysis.

According to an analysis by researchers at the U.S. Department of Energy’s National Renewable Energy Laboratory (NREL), hybrid systems of floating solar panels and hydropower plants may hold the technical potential to produce a significant portion of the electricity generated annually across the globe.

The researchers estimate that adding floating solar panels to bodies of water that are already home to hydropower stations could produce as much as 7.6 TW of potential power a year from the solar PV systems alone, or about 10,600 TWh of potential annual generation, globally. Those figures do not include the amount generated from hydropower.

For comparison, global final electricity consumption was just over 22,300 TWh in 2018, the most recent year for which statistics are available, according to the International Energy Agency.

“This is really optimistic,” said Nathan Lee, a researcher with NREL’s Integrated Decision Support group and lead author of a new paper published in the journal Renewable Energy (italicize). “This does not represent what could be economically feasible or what the markets could actually support. Rather, it is an upper-bound estimate of feasible resources that considers waterbody constraints and generation system performance.”

The article, “Hybrid floating solar photovoltaics-hydropower systems: Benefits and global assessment of technical potential,” was co-authored by NREL colleagues Ursula Grunwald, Evan Rosenlieb, Heather Mirletz, Alexandra Aznar, Robert Spencer and Sadie Cox.

Floating PV remains a nascent technology in the United States, but its use has caught on overseas where space for ground-mounted systems is less available. Previous NREL work estimated that installing floating solar panels on man-made U.S. reservoirs could generate about 10% of the nation’s annual electricity production.

So far, one small hybrid floating solar plus hydropower system has been installed, and that is in Portugal.

NREL estimates 379,068 freshwater hydropower reservoirs across the planet could host combined floating PV sites with existing hydropower facilities. Additional siting data is needed prior to any implementation because some reservoirs may be dry during parts of the year or may not be otherwise conducive to hosting floating PV.

Potential benefits exist by coupling floating PV with hydropower. For example, a hybrid system would reduce transmission costs by linking to a common substation. 

Additionally, the two technologies can balance each other. And solar power will continue operating during dry seasons, while hydropower rainy seasons present the best opportunity. Under one scenario, that means operators of a hybrid system could use pumped storage hydropower to store excess solar generation.

Culled from Billy Ludt 

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  3. Floating solar photovoltaics (FPV) is a new and increasingly feasible photovoltaics (PV) application in which systems are installed directly on waterbodies. Despite increased market interest, FPV system adoption is still in its early stages, with potential users worried about the technology, its benefits, the advantages of combining it with hybrid systems (such as hydropower), and how to assess technical potential. We give a study of related benefits of hybrid FPV-hydropower system functioning, as well as a unique, geographic technique to assess the worldwide technological potential of these systems using publicly available, global statistics, to aid decision-making. Based on the assumptions stated, we estimate that FPV hybridized with hydropower has a worldwide potential of 3.0 TW to 7.6 TW (4,251 TWh to 10,616 TWh yearly production).

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