Abstract: Molten salt solar receiver and procedure to reduce the temperature gradient in said receiver. The receiver consists of at least one panel of semi cylindrical geometry, formed by a combination of vertical pipes. The receiver (10) is supplied with a heat transfer fluid made up of molten salts which originate from a recirculation system which is composed of a mixture deposit (6), a hot salt storage tank (9) and a cold salt storage tank (8); the mixture tank (6) which is supplied by a part of the hot heat transfer fluid (4) which exits the receiver (10) and the cold heat transfer fluid (5) which exits the cold salt storage tank (8); the hot salt storage tank is connected to the exit of the receiver (10) so that a part of the heat transfer fluid which does not recirculate is stored (3).

Abstract: Method for obtaining solid samples or suspensions of graphene optionally doped with heteroatoms from synthetic or natural polymers, which are subjected to pyrolysis in a furnace without oxygen at temperatures of between 400° C. and 1,200° C. and subsequently to a liquid-phase exfoliation phase. The polymers used are preferably polysaccharides, such as chitosan, alginate and alginic acid, which can be optionally doped with any heteroatom. The invention is intended primarily for use in microelectronics and photovoltaic devices in which graphene sheets are very useful. In addition, the graphene prepared cn be uses as an additive for polymers and ceramic materials.

Abstract: The invention relates to a portable mixing platform for producing a heat-transfer fluid on site and on an industrial scale, said fluid consisting of a eutectic mixture of diphenyl (DP) and diphenyl oxide (DPO). The platform includes a device that stores DPO in liquid state, a device for supplying DP in solid state, a mixing device in which both components are mixed in liquid state and in the right amount for forming a eutectic mixture, and a device for inerting and treating gases which maintains the DPO and mixing devices under inert atmosphere, as well as drawing the gases vented from both devices to pass said gases through an activated-carbon filter prior to expelling same into the atmosphere. The present invention also relates to the method for producing the eutectic mixture of DP and DPO using the described portable mixing platform.

Abstract: The invention relates to a synchronous power controller for a generation system based on static power converters, said controller comprising two main blocks referred to as: block 1 (electric block) (10) and block 2 (electromechanical block) (20), electric block 1 (10) being, in turn, formed by a virtual electrical characteristic controller (11) and a virtual admittance controller (12) and the electromechanical block 2 (20) being formed by a virtual electromechanical characteristic controller (21) and an inertia and damping factor controller (22).

Abstract: The invention relates to a prestressed solar collector module forming a support structure for solar collectors, of the type formed by a lattice bar structure including a central beam (1) essentially characterized in that: the central beam or torque box (1) takes the form of a multi-face polyhedron or cylinder, that is divided into sections (3) each section (3) being formed by multiple bent or curved plates (4), a surrounding triangular lattice structure (16) is provided to support the parabolic reflector (17) which structure is formed with L-shaped elements, all of the connections being formed with rivets, and all of the structure is prestressed using a series of tension rods (13, 14, 15) which optimize the flexural behavior of the structure and which include end anchoring points and intermediate through-points allowing the necessary curvature to be obtained and the tension to be maintained.

Abstract: The present invention relates to a method for creating electrical contacts in optoelectronic and electronic devices, including high and low concentration solar cells, thin films, organic light emitting diodes (OLED) and in general any device requiring the extraction or injection of a current by means of electrical contacts. The method comprises the following stages: (a) depositing the contact material on the final substrate through the laser induced forward transfer (LIFT) of said material from a donor substrate to the final substrate, preferably using a pulsed laser and (b) sintering the contact material using a laser source, preferably a continuous laser. The contacts thus created present excellent conductivity and adherence properties, as well as high height (thickness) to width ratios.

Abstract: An economizer in a solar tower plant and operating method of said plant the purpose whereof is to make use of the heat from the heat losses generated around the solar tower receivers (3) to preheat the fluid with which the saturated steam or superheated steam solar receivers are fed. When the heat from the losses absorbed by the economizer (2) is not sufficient to achieve the necessary minimum temperature, a secondary economizer (4) is used which takes live steam (prior to it entering the turbine) and increases the temperature of the feed water of the receiver (3).

Abstract: Solar concentrator plant using natural-draught tower technology, in which the tower is, in turn, used as cooling system. The tower houses saturated or superheated steam receivers in cavities with different orientations, with adaptive dynamic control of the heliostat field in order to direct said receivers towards different focusing points, for the production of electricity, process heat or solar fuels or for use in thermochemical processes.

Abstract: Manageable hybrid plant using photovoltaic and solar thermal technology and associated operating method, wherein said hybrid plant comprises three levels of generation: Level 1 (1) of photovoltaic generation (42) covering the self consumption of the plant; Level 2 (2) of generation of the solar thermal plant (44) and another part of photovoltaic generation (45) that covers the consumption of the auxiliary services of the solar thermal plant (43); Level 3 (3) of generation of another area of photovoltaic production (46) that improves the total production curve, the total power generated by the hybrid plant and discharged into the network (47), being the result of the sum of generation of the three levels. The photovoltaic modules of the invention are located in: in the north or south side of the tower not occupied by the cavity; the area surrounding the solar receivers of the tower; on covers or roofs of the plant at the rear of the heliostats; on land annexed to the tower plant.

Abstract: A high-concentration photovoltaic solar module is formed by a casing (1) that contains photovoltaic receivers (2) in the base (3) thereof, which are interconnected with one another, and in the upper part thereof has Fresnel concentrator lenses (7) in a plane parallel to that of the photovoltaic receivers (2), which close the casing in a leak-tight manner. Each of the Fresnel concentrator lenses (7) is arranged on one of the photovoltaic receivers (2). Furthermore, the module includes secondary optical elements (8), each arranged on the photovoltaic cell (5) of each photovoltaic receiver (2). The casing (1) is produced by injection-molding of plastic and incorporates cavities (9) in the base (3), each of the cavities housing a photovoltaic receiver (2), and metal laminar elements (10) for interconnecting the photovoltaic receivers (2).

Abstract: It facilitates the foundation and assembling of the pedestal (15) on the ground, allowing calibration of its verticality and azimuthal orientation, further serving as a formwork element. Said frame comprises a quadrangular structure (1), articulated in at least one of its corners, preferably two, and adapted to surround the pedestal (15), which is provided with four horizontal profiles (2); calibration bolts (5) through which the pedestal (15) is pressed and adjusted in a vertical position; with said bolts (5) being inserted into nuts (4), which are connected to vertical bodies (3) linked to the profiles (2); and plates (7) linked to those profiles (2) which feature holes (8) through which picks (9) are vertically inserted, designed to be nailed to the ground for fixation and stability of the frame.

Abstract: The invention relates to a hydraulic oil-driven structural support rotating mechanism comprising at least two hydraulic cylinders for driving the rotational movement of the structural support with respect to at least one axis, selected from vertical, horizontal or a combination of both, and a hollow core, comprising at least one opening on its side surface for the passage of a first and a second pivotable hydraulic cylinder, fixed to the core by means of two parallel vertical shafts, the ends of each hydraulic oil cylinder being fixed by attachment means to a rotating mechanical element selected from a slew ring or bearing, located inside the hollow core to which it is fixed by rotating mechanical element-core attachment means, and attached to the structural support by structural support-rotating mechanical element attachment means.

Abstract: Method for the natural-draught cooling of a high-concentration thermoelectric solar plant that includes a central receiver or tower with a heliostat field, wherein the tower is used as a natural-draught cooling tower. The steam originating from the turbine will be made to circulate through a series of condensers located at the base of the tower, where said condensers condense the steam therein and discharge the condensation heat to the atmosphere. The fluid responsible for this heat exchange is the air at ambient temperature at the base of the tower. Once condensed, the steam is pumped back towards the receiver so that it can be re-used as a heat-transfer fluid. The cooling air travels up through the tower and exits through the highest part thereof. The plant can be used to reduce not only its own electricity consumption, but also water consumption.

Abstract: Concave receiver for a Stirling dish the main components of which are tubes (which form the surface on which the concentrated solar light beam falls), collectors (welded to the tubes and place the fluid that runs through the tubes in communication with the tanks), tanks (the internal areas of the collectors from which the working gas is distributed to each of the tubes) and cupolas (of which there are two types, that for housing the regenerator and the expansion cupola which is the area where the working gas is at a higher temperature) comprising a series of tubes (10, 11) extending from one collector (2), perpendicular thereto, to the other (2), also perpendicular thereto, and having a straight part (12) running from the inside of each collector (2) to the point where the tube starts to curve and a central part (13) in the shape of an arc of a circumference.

Abstract: Molding bench for curving mirrors comprising a sheet (1) supported on a frame by means of a joint system that prevents the sheet (1) from shifting and moving and to the lower part of which are fixed a series of air pipes (14) having a general air header pipe (3) connected to a vacuum pump. The sheet (1) consists of a square lattice the intersections of which have perforations that match up with a series of suction points of the air pipes (14), intended to produce a vacuum in the bench and which have been previously calibrated, such that said bench can be used to manufacture mirrors having any curvature.

Abstract: The present invention relates to formulations comprising aluminum nitride nanoparticles, at least one dispersant and at least one aqueous solvent, to the method for obtaining said formulations as well as to their use for obtaining a leveling barrier layer.

Abstract: The invention relates to a method for producing a solar power receiving tube and to the resulting tube, which is of the type that includes: an outer glass tube, an inner metal absorber through which a heat-transfer fluid flows, and an intermediate area in which the vacuum is produced. The method comprises the following steps: i. Production of the metal tubes ii. Production of the glass tubes: namely a longer central glass tube and two shorter glass tubes for the ends. iii. Process for the production of the Kovar rings or glass-metal transition elements iv. Process for the welding of the Kovar rings to the tubes v. Process for the production of the bellows or expansion compensating devices assemblies vi. Assembly of the products obtained in the preceding operations vii. Creation of the vacuum and anodising of the welds.

Abstract: A reflective photovoltaic solar concentration system is formed by a primary reflecting mirror (1) changing the direction of the light beams entering the system and redirecting the beams toward a secondary reflecting mirror (2), changing again the direction of the received light beams and redirecting them toward a tertiary optical element (3), which in turn transmits the received light beams to a photovoltaic receiver. The tertiary optical element (3) has a convex-curved input face (4) of circular section, and truncated pyramid section (5) which transmits the received light beams by complete internal reflection to a photovoltaic receiver. The leading end (6) of the truncated pyramid section (5) has, immediately after the input face (4), a circular cross-section (6) which is progressively transformed into a square cross-section until reaching the trailing end (7) of the truncated pyramid section (5).

Abstract: Portable spectrophotometer and method for characterizing solar collector tubes for simultaneously and on-field characterizing reflection and transmission coefficients. This device includes all the components needed to take this measurement, such as a module that takes the measurement of the reflection coefficient (R) of the inner tube (1?), a module that takes the measurement of transmission coefficient (T) of the outer tube (1?), an electronic data acquisition and processing system (12), an external computer (13) for controlling the device and sending the measured data (17) and a communication system (15) between device and the computer (13).

Abstract: Superheated steam tower receiver with a well-defined configuration that benefits the transfer of heat between the surface of the component and the working fluid. Composed of at least four subpanels that define the circulation circuit for the steam by means of internal passages. The component is provided with saturated steam and for the production of said steam it is possible to use other solar concentrator technology. The proposed configuration minimizes the technological risks inherent in superheated steam receiver technology where drawbacks arise in the structure of the material owing to the thermal cycles to which the solar component is subjected.