Heat Your Water with Excess Solar Cut water heating costs by equipping your home with a smart energy device that uses excess solar energy and smart scheduling to power your hot water system. No wasted solar production Excess energy is generated when your solar system produces more energy than your household requires, and is then diverted for use when and where it’s needed in your home. The Smart…
07/2019/V1/ENG ROW solaredge.com | info@solaredge.com Case Study The company, a leader in high-reliability design, manufacturing and supply chain solutions, decided to reduce electricity costs in their Thailand factory by installing a rooftop solar system. After installing 1MW rooftop with traditional string inverters, they decided to switch to SolarEdge’s optimized solution, for their second,…
SolarEdge® Commercial Solar | Case Study | Strathmore University Optimizing Education with SolarEdge “SolarEdge’s module-level MPPT improved the energy yield of Strathmore University’s PV system by up to 20%, while its flexibility of design allowed the University to increase the overall system size by more than 50%.” Philip Mwangi, Engineer of Questworks and Resol “We recommend SolarEdge…
Benefit 1 Full roof utilisation As a SolarEdge installer, you already know that a DC Optimised Inverter System can increase revenue, decrease expenses, and minimise risk for your business. But how is the SolarEdge advantage best explained to homeowners? Here’s a breakdown of the benefits. How to Sell SolarEdge For the Homeowner: Get the solar design you want, where you want it. SolarEdge enables…
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…
www.solaredge.com | info@solaredge.com ExamplE: In the example, 11 blocks are affected, resulting in a ~11% reduction in system output due to the shading object: SF = 1 - (11*0.01) = 1 – 0.11 = 0.89 MCS Shade Procedure & the SolarEdge Advantage The MCS Shade Evaluation Procedure1 is a method for installers to present decent evaluation of the shading effect on the performance of solar systems…