Solar Installation Completed In Cambridgeshire
UK based developer AGR has partnered with Hanwha Q CELLS to deliver a new 24.3MW solar installation in Stowbridge, Cambridgeshire. Once complete, the ground-mounted plant will boast a total of 94,500 Q.Pro-G3 solar panels generating an estimated 22,445MWh of energy per year "“ enough to power 24,800 local households and save approximately 9650 tons of carbon emissions each year.
AGR, a UK renewable energy developer specialising in utility scale PV and medium scale wind, lead the project development of the Stowbridge project, with Hanwha Q CELLS taking the lead on construction, delivering the park under an EPC (Engineering, Procurement, Construction) contract and supplying its "Engineered in Germany" PV modules. Completion of the project and full grid connection is scheduled for March 2014.
"The Stowbridge project strengthens our footprint in the attractive UK market and underlines our position as full service provider for advanced power plant solutions "“ from design development through to the supply of high-class modules to EPC", said Frank Danielzik, Vice President EPC at Hanwha Q CELLS. "Our high quality PV power plants make sense for UK investors, since they offer attractive and reliable returns on their investments."
Hanwha Q CELLS has a proven track record of around 600 MW of large scale power plant solutions around the globe.
"We are very happy to be cooperating with Hanwha Q CELLS on this project", said Oliver Breidt, one of the founders and co-owners of AGRenewables. "Together we can deliver fast and reliable development and EPC capabilities as well as attractive LCOE." The competitive LCOE (Levelized Cost of Electricity) of the power plant are a consequence of its low BOS (Balance of System) cost, low running cost and best in class yields. The latter two will be ensured by the high quality and high performance Q CELLS solar modules, featuring Q.ANTUM technology, Anti PID, Hot-Spot Protect and leading low-light performance. Additionally the minimal construction times and the successive connection to the grid with cascade structures reduce cost further and ensure the earliest possible yields of the plant."