Students from BarcelonaTech UPC who were winners in the latest round of the SENER Awards paid a visit to the Gemasolar plant. Students from BarcelonaTech UPC who were winners in the latest round of the SENER Awards paid a visit to the Gemasolar plant.[+]
SENER signs contract for more than 500 million Euros in the world’s largest solar complex27/05/2015 (Morocco)
Following a contract won in Morocco worth more than 500 million Euros, the technology and engineering group SENER is beginning construction of thermosolar plants NOORo II and NOORo III. Together with NOORo I, they comprise the biggest thermosolar complex in the world and boast a production capacity of more than 510 MW.
Having been responsible for everything from the turnkey construction to the commissioning of the NOORo I plant, SENER recently won the contract to carry out the turnkey construction of the NOORo II and NOORo III phases along with SEPCO III. All of the engineering, construction, commissioning and start-up for this project will be carried out by SENER and its partners. SENER, therefore, will complete the three thermosolar phases of the NOORo project, given that Noor IV will be a photovoltaic technology plant.
The complex, located in the vicinity of the Moroccan city of Ouarzazate, is made up of four plants. Three of its plants are equipped with thermosolar technology developed 100% by SENER. The first, NOORo I, has a production capacity of 160 MW and is equipped with the SENERtrough® cylindrical parabolic troughs, designed and patented by SENER. Noor I will begin operations later this year. With regards to the construction which is already underway, NOORo II will have installed the second generation of SENER’s troughs, the SENERtrough®-2 system, and will have a production capacity of 200 MW. Finally, NOORo III, capable of producing 150 MW of power, will employ central tower technology with salt receivers. This central tower technology was applied by SENER in the Gemasolar plant in Seville and is therefore a natural evolution of this pioneering installation. All three power plants incorporate a molten salt storage system which will make possible to produce electricity in absence of solar radiation.
Miguel Domingo, SENER’s Environment and Solar Power Director, declared that “SENER is taking part in the engineering and construction of large thermosolar plants in which it applies its own technological solutions that report large cost savings and significant improvements in efficiency”. He also added that “it is of great satisfaction to SENER to be a part of the consortium which will make possible for the world’s largest thermosolar complex to start commercial operations in 2017”.
Today, SENER is a leading company in thermosolar power, not only for the number of projects it has under its belt –29 to date, the majority of which comprises turnkey projects across Spain, the United States, South Africa and Morocco– but also for the development and incorporation of technical solutions using its own patents. In total, these installations have over 2,000 MW of installed capacity and produce an annual saving of more than 1 million tons of CO2. Only the three plants constructed by SENER in Morocco prevent the yearly emission of 450,000 tons of CO2.
The responsibilities of his new position will include ensuring that the facility is operating optimally toward the objective of increasing electrical production, continuing with the reductions in operating costs, and maintaining Torresol Energy’s stringent safety standards for all of its facilities. ... [+]
It is a 100 MW plant with parabolic troughs (specifically, the SENERtrough®-2 system, designed and patented by SENER) and a thermal energy storage capacity of 4.5 hours, thanks to the use of molten salts.[+]
The engineering and technology group SENER participates in the 14th International Planetary Probe Workshop (IPPW), held in The Hague, Holland. The aim of this annual conference is to bring together scientists, technicians and engineers from the international community to focus on planetary exploration probes.... [+]