Case Study SolarEdge Helps Keep Water District Afloat Floating PV System Filters Smart Energy into Savings for Wastewater Plant “A lack of roof and ground space put our creative minds to work, ultimately driving the floating solar concept. So far in 2020, our SolarEdge DC-optimized solution for Lake County Special District’s Kelseyville Wastewater Treatment Plant has generated about 16% more…
Case Study SolarEdge Powers Mission-Critical Medical Manufacturer Facility Connecticut’s Medline Offsets Electricity by Half, Puts Savings Back into Operations “We chose SolarEdge to supply the inverters and power optimizers for this project for several reasons. First, its state-of-the-art technology produces more electricity in cloudy regions, like the Northeast, due to superior design and…
Case Study SolarEdge Powers Largest PV System in Rural Alaska Ground mount farm with bifacial panels and power optimizers reduces diesel reliance, creates local solar jobs Background Diesel Fuels Rural Alaska Economy Alaska’s energy demand per capita is the fourth highest in the US, and it has traditionally been one of the biggest producers of crude oil. As a result, the state’s electricity…
Case Study Empowering Iowa’s First Commercial Peak Shaving Plant Agri-Industrial Plastics reduces operating costs by 10%, with co-optimized SolarEdge PV system and storage “Iowa is very up-to-date on the electrical code—an early adopter of NEC 2017, and SolarEdge’s Rapid Shutdown solution provides the best combination of technology and cost. Our client, Agri-Industrial Plastics preferred…
Leistung von PV-Topologien bei Abschattung W hitepaper “Das SolarEdge-System lieferte in allen Tests einen höheren Energieertrag als das Strangwechselrichtersystem. Im Jahresdurchschnitt gewann das SolarEdge-System 24,8 % der durch Verschattung verloren gegangenen Energie zurück, während das Mikro-Inverter-System nur 23,2 % zurückgewann “ sagt Matt Donovan, PV Evolution Labs. Übersicht Laut…
W hite Paper Safety Risks & Solutions in PV Systems for North America Introduction In traditional photovoltaic (PV) systems, high DC voltages are present and pose risks to installers, maintenance personnel and firefighters. In addition, the possibility of electrical arcs, which can result in a fire, creates a threat to people working or living in the vicinity of a PV system. Safety mechanisms…