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Nameplate capacity, also known as the rated capacity, nominal capacity, installed capacity, maximum effect or gross capacity, [1] is the intended full-load sustained output of a facility such as a power station, [2] [3] electric generator, a chemical plant, [4] fuel plant, mine, [5] metal refinery, [6] and many others.
The wind farm consists of 30 Vestas V90-3MW wind turbines with a total nameplate capacity of 90 MW. [1] Turbines were installed by the Danish offshore wind farms services provider A2SEA. [2] Between 2007 and 2010, the capacity factor was around 30%. [3] Its levelised cost has been estimated at £66/MWh. [4]
Enercon E-126 wind turbine. The Enercon E-126 [1] is an onshore [2] [3] wind turbine model manufactured by the German company Enercon.With a hub height of 135 m (443 ft), rotor diameter of 126 m (413 ft) and a total height of 198 m (650 ft), the turbine can generate up to 7.58 megawatts of power, making it the largest wind turbine in the world (by nameplate capacity) for several years, until ...
The plant has a nameplate capacity of 203 [8] (208 [1] [6] [7]) MW. According to this source, [ 9 ] the nameplate capacity is 208 MW when pumping and 239 MW when generating energy. The power station contains 4 reversible Francis turbine -generators with 52 MW each. [ 3 ]
It consists of 111 wind turbines and has a nameplate capacity of 400 megawatts (MW). As of 2014, it was Denmark's largest marine wind park and among the five largest marine wind parks in the world. [citation needed] It provides energy to the island to replace much of the current diesel-powered electricity. The main part of the electricity is ...
Thermal capacity: 1 × 700 MW th (decommissioned) 2 × 2957 MW th: Power generation; Units operational: 1 × 902 MW 1 × 895 MW: Make and model: Unit 1: BWR-1 (Mark 1) Units 2–3: BWR-3 (Mark 1) Units decommissioned: 1 × 197 MW: Nameplate capacity: 1797 MW: Capacity factor: 98.13% (2017) 73.30% (lifetime, excluding Unit 1) Annual net output ...
The wind farm consists of 67 Siemens Wind Power SWT-6.0-154 turbines, each with a 6 MW capacity. [3] In January 2017, 18 months after the financial close, the first of the turbines started delivering power to the German grid. The last turbine was installed on 25 May 2017, and commissioning activities were completed on 31 May 2017.
[5] [6] [unreliable source?] 30 turbines each with 5 MW nameplate capacity are provided by REpower and electrical works were to be carried out by Areva. [7] Steel foundations for generators were developed and designed by OWEC Tower and produced by Burntisland Fabrications. [8] Logistics and assembly services are provided by Harland and Wolff.