Engineering and technology company Sener is putting into operation, on a multi-phase basis, the different components of the Noor Ouarzazate III CSP plant. This plant is the second CSP plant designed and built by Sener using its own central receiver tower and molten salt heat storage technology, and one of the first ones in the world to apply this configuration on a commercial scale.
Sener recently carried out the start up of the solar receiver, pointing the heliostats towards the receiver located on the top of the tower, at a height of 250 m, to pre-heat it to 320ºC.
As a preliminary step in the receiver start-up, Sener has completed the functional tests in the solar field, comprising 7,400 heliostats HE54, designed and patented by the company. This model (the HE54) incorporates improvements such as a larger reflective surface (178.5 sqm compared to the 115.7 sqm of the Gemasolar heliostats) and a highly accurate tracking system known as ‘solar tracker’, which uses Sener space technology.
Once the receiver pre-heating tests currently underway are completed, the next step in the commissioning phase will be to circulate the molten salt throughout the receiver to heat them to the daily commercial operation temperature (550º C). This milestone will be accomplished in the coming weeks. The last phase will consist in generating steam using the heat captured from the mentioned molten salts.
Noor Ouarzazate III forms part of the Noor solar complex located in Morocco and managed by Masen, and the largest solar complex in the world. In this complex, Sener forms part of the turnkey building consortium for the Noor Ouarzazate I and Noor Ouarzazate II plants, both of which use SENERtrough® parabolic trough technology, and Noor Ouarzazate III, with additional advanced innovations than those applied in the pioneer plant Gemasolar located in Seville (Spain), in commercial operation since 2011, which was designed and built by Sener.
In the Noor Ouarzazate III thermal power plant, Sener is responsible for the plant’s conceptual and basic engineering, detail engineering and supplying equipment for the thermal storage system, engineering and construction of the solar field and the molten salt receiver, as well as the commissioning of the entire plant. The plant’s delivery to the client is planned for the last quarter of 2018.