One Floating PV Installation - Double the Benefits Case Study Pushing PV boundaries on land and now on the water * The De Krim Resort chose an innovative and productive route to green energy by installing a floating solar PV installation on a 7728 sq. meter rainwater reservoir that irrigates their golf course. The floating installation covers the majority of the water surface, reducing fresh…
Installation Date: July, 2013 Inverter: 1 x Single-phase SE5K inverter Power Optimizers: 23 x OPJ300-LV, Module Embedded Power Optimizers Modules: 23 x SOLON Black 220/16 250Wp Installed by: PETALO Srl SolarEdge | Case Study | Multi-Facet Residential More Energy on the Roof “The SolarEdge DC optimized inverter system significantly improved the RoI of this installation. The flexibility of design…
Helsingør, Denmark 56.4 kWp Installation Date: July 2015 SolarEdge | Case Study | BIPV Optimizing BIPV in Apartment Buildings The design flexibility of the SolarEdge DC optimized inverters allowed modules to be installed in a single string on roofs with varying tilts, orientations, and sun exposures, while still maximizing power generation. This allowed a 5% increase in system size versus a…
London, UK 1,730 kWp Installation Date: October 2015 SolarEdge | Case Study | WIM London Award-winning 1.73MWp Rooftop PV and Self-Consumption System in London The SolarEdge SafeDC™ feature is designed to enable safe DC voltage during installation, maintenance and emergencies, which was key in making the decision to install the SolarEdge solution on the public roof of the WIM SolarEdge inverters…
www.solaredge.com | info@solaredge.com CASE STUDY Belgian organic food manufacturer supports environmental and community values by choosing a SolarEdge solution to maximize energy yield of modules impacted by shading from a nearby wind turbine. La Cuisine des Champs manufactures high-quality, organic, environmentally friendly, healthy meals for kindergartens, schools and elderly care centers in…
Mismatch in typical commercial rooftops in the Netherlands Objective PV modules produce maximum power at a specific working point (Maximum Power Point – MPP) which is achieved at a specific current (Impp) and voltage (Vmpp). Mismatch between modules occurs when modules that are connected in series require different combinations of voltage and current to generate maximum power. Extensive research…