SENER's proven experience in solar power places the company in an unbeatable position in hybridization projects, which open a new landscape on the world energy map.
SENER has been involved in 29 solar thermal power plants built all around the world, using SENER’s own technology, and most of them featuring thermal storage. The last one, nearing completion, is the Noor Ouarzazate III plant in Morocco, the largest facility to use tower and molten salt storage technologies, which is already on commercial operation. SENER was responsible for the engineering, turnkey construction and operation activities, and also provided all the technology.
Thanks to its leading position, SENER is making great strides in hybridization technologies following different models:
Hibrydization of solar thermal (CSP) and photovoltaic (PV) solar power
SENER offers an integrated solution that leverages the synergies of both technologies by combining the advantages of each. This led to the concept of an hybrid solar themal + photovoltaic facility, which can satisfy a given generation profile both during the day and at night: the energy generated during the day comes from a highly cost competitive photovoltaic field, while at night - from dusk until dawn, when demand peaks happen and electricity prices are highest - the solar thermal plant with storage capacity goes into operation, as it offers an option to grid managers in the absence of sunlight. These are flexible and dispatchable plants that adapt to the energy demand and where resources are optimized to yield lower operation and maintenance costs.
Hibrydization of solar thermal power with biomass
Thanks to its experience in the design and turnkey construction of low-emissions biomass power plants, with three projects in Spain, SENER combines the advantages of this energy source with those of a solar facility with central tower and molten salt storage technologies to achieve a power plant where biomass conversion is improved thanks to the high efficiency of the molten salt cycle. In addition, the combined investment is lower, since a single turbine (and common area) is employed for both facilities. This again optimizes the resources by reducing operation and maintenance costs.
Date: Apr 24, 2019