Abstract: Systems, methods, and apparatus by which solar energy may be collected to provide electricity or a combination of heat and electricity are disclosed herein. Examples of solar energy receivers are disclosed that may be used to collect concentrated solar radiation.

Abstract: The present disclosure is directed to concentrating sunlight. In some implementations, a concentrator includes a plurality of reflector support structures and a plurality of reflector segments associated with each reflector support structure. Each reflector support structure formed to include a curved surface that receives an associated reflector segment and a bottom portion that distributes the weight of the reflector segment along a surface area. Each reflector segment includes a reflecting surface adjacent a flexible element such that the reflecting surface reflects incident sunlight light. In some examples, the reflector support structures may comprise a light weight material such as a polyurethane and/or the reflecting surface may be 5 mils or less.

Abstract: Systems, methods, and apparatus relating to the use of Stirling engine technology to convert heat, such as from solar radiation, to mechanical work or electricity. Apparatus, systems, components, and methods relating to energy converting apparatus are described herein. In one aspect, the invention relates to the field alignment of panels and the assembly of a concentrator. In another aspect, a passive balancer is used in combination with a ring frame and other moving masses to reduce engine forces and vibration on the structure of the energy converting apparatus while maintaining properly constrained alignment of various suspended masses. In yet another aspect, the invention relates to various over-insolation control and management strategy to prevent overheating of the energy converting apparatus or components and subsystems thereof.

Abstract: A novel thermal storage device includes a container of metallic phase change material (MPCM). The MPCM has a high latent heat of fusion and a high thermal conductivity in its solid state. A thermal energy receiver is adapted to receive thermal energy from a thermal energy source and transfer the thermal energy directly to the MPCM, without the need for an intermediate thermal transfer fluid. A thermal energy discharge mechanism transfers thermal energy directly from the MPCM to a device that uses the thermal energy. In a solar energy embodiment, the thermal energy receiver is formed from a material (e.g., polished copper) that has a relatively low absorptivity value and a relatively low emissivity coefficient, which unexpectedly results in the attainment of a highly efficient solar receiver.

Abstract: A solar powered generator assembly is provided for driving a turbine using steam produced by solar power. The assembly includes a fluid tank and a fluid line having a first end and a second end each in fluid communication with the fluid tank. A fluid is positioned in the fluid tank and the fluid line. A lens focuses solar rays into a heat collector coupled to the lens. The heat collector has a reflective curved interior surface configured for reflecting solar rays to facilitate heating the heat collector. A medial portion of the fluid line is wrapped around and heated by the heat collector converting the fluid into a gaseous state. A turbine is operationally coupled to the fluid line driving the turbine to produce electrical current.

Abstract: The present embodiments provide methods and systems to homogenize illumination on a target.

Abstract: Melting metals using the sun's energy is not new, but is new is making the technology ergonomic, and easy to use. Invented is a half-circular-planar-reflector with a cut-a-way-triangle, hinged and attached a half-shell-parabolic-reflector. When the sun is overhead, the sun's energy reflects off the flat half-circular-planar-reflector to a half-shell-parabolic-dish-reflector, which redirects the sun's energy to a crucible for smelting metals, which is also the focus of the sun's energy. The entire assembly rotates on top of a turntable, which can be steel wheel, floating on compressed air, bicycle wheels, or other suitable methods. The entire assembly rotates about a crucible located at the focal of the sun's energy. A smaller version of the smelter can be used for solar cooking.

Abstract: A solar energy transfer system including a spherical dish measuring 0-100 meters in diameter, with stem measuring 0-100 meters in length (its length depends on the dish dimensions), perpendicular to the base of the dish. At the top of the stem is a spheroid where power concentration and transfer occurs by reflecting quantum and electromagnetic solar energy by means of reflecting material with the same curvature as the spherical dish.

Abstract: A multiplicity of Fresnel lenses are attached to tubular branches of a tree-like support structure. Fiber optic bundles are connected to the Fresnel lenses and routed inside the tubular branches and collected as a larger fiber optic bundle inside a main trunk structure to which each of the branches is connected. The larger fiber optic bundle may be connected to a remotely located power generating plant or other processing facility via a fiber optic transmission network. A domed solar energy collector includes an outer dome and one or more inner domes concentrically nested therewith, one or more Fresnel lenses being positioned on the hemispherical surface of each of the outer and inner domes. Each of the inner domes is sized and positioned such that its hemispherical surface lies on the focal point of the next larger dome to thereby multiply the solar energy focused through each of the domes to a collection area within the innermost dome.

Abstract: A tower type heat dissipating structure is applied to dissipate the heat of a solar power system. The solar power system is provided with a reflector having a hemispheric surface for reflecting the sunlight to a solar cell. The heat dissipating structure comprises a heat-conducting plate, a plate type heat pipe and a plurality of heat dissipating fins. One side of the heat-conducting plate is connected with the solar cell, and the other side is provided with a groove for being embedded an end of the plate type heat pipe. The heat dissipating fins is arranged with an inclination angle against the plate type heat pipe that can promote the heated air within the gaps to rise. The heat is rapidly conduced to prevent the solar cell from being destroyed by overheating for reducing the repairing costs.

Abstract: Disclosed is a Lightweight low-cost solar concentrator comprising two sheets which are connected or sealed to each other on their outer periphery to define a gasproof chamber which is inflated with air or gas (5) in order to form the inflated mirror. One sheet is transparent (1) for sunlight (3) and the other sheet has a reflecting mirror-like surface (2). The periphery of the two connected sheets is fixed to a rigid support or envelopes it. The rigid support, such as a support frame (6), which is further fixed to a mirror support structure (7), defines the outline of the inflatable mirror and provides stability. For a defined adjustment of the pressure in the air or gas (5) which is enclosed in the gasproof chamber means for inflating or deflating the mirror (4) and a device for the generation of a defined pressure in the air or gas (72) are provided.

Abstract: A reflector element carrier structure is disclosed for use in a solar energy reflector system. The structure comprises a reflector element (11), a corrugated platform (12) which carries the reflector element and a skeletal frame structure (13) which supports the platform. The frame structure comprises hoop-like end members (14) that are supported by rollers (18) and the rollers accommodate turning of the carrier structure about an axis of rotation that lies substantially coincident with a longitudinal axis of the reflector element (11). The combination of the corrugated platform (12), the frame structure (13) and the hoop-like end members (14) of the frame structure provide the carrier structure with a torsional stability that permits the application of turning drive from one end of the structure.

Abstract: A solar dish collector system includes a solar dish collector panel for reflecting sunlight, and a conduit adjacent the solar dish collector panel. The conduit includes a supply tube to provide fluid to be heated by the reflected sunlight, and a return tube to return the heated fluid. A collector encloses open ends of the supply and return tubes, and is positioned to receive the reflected sunlight from the solar dish collector panel. The fluid from the supply tube at least partially fills the collector and is heated by the reflected sunlight while circulating therein. The heated fluid is then returned via the return tube.

Abstract: A heliostat for the collection of solar energy while resting on a surface is disclosed, comprising a rigid disk having an exposed surface, a back surface, and a circular peripheral edge connecting the exposed surface to the back surface. The peripheral edge includes a plurality of wheels each having a rotational axis substantially tangent to the circular peripheral edge of the disk. Each wheel is driven by an electric motor electrically connected to a power source. A hollow, substantially transparent spherical enclosure contains the rigid disk. Each wheel of the disk frictionally engages an inner surface of the enclosure such that rotation of the any of the wheels changes the orientation of the disk within the enclosure. A control circuit is electrically disposed between the power source and each motor. The control circuit includes a direction setting means for causing the motors to orient the exposed surface substantially facing a commanded direction.

Abstract: A hybrid optical component that collects and concentrates incident light. The hybrid component includes both refractive and reflective elements. In preferred embodiments, refractive and reflective components focus rays on a common focal plane generally located at the bottom of the reflector where they are absorbed by a device such as a photovoltaic (solar) cell. Additionally, the optical component combines both imaging and non-imaging optical elements into a single device, for improved overall performance.

Abstract: An apparatus and method for solar energy powered gas processing. There is disclosed a processor assembly for use in heating a process or feed gas by means of a convective heat exchanger which receives solar energy from a focused solar energy collector. A specialized heat exchanger is described, which maximizes the area upon which solar energy can radiate, as well as the available area for heat transfer to the flowing gas. Various modes for operating the processor assembly are described. The apparatus and method may be utilized to heat a gas to drive a heat engine. The apparatus and method also may be used to heat feed gasses to drive a gas processing reaction, such as for steam methane reformation or a reverse water-gas shift reaction.

Abstract: A method of manufacturing a mirror for a dish reflector of a system for generating electrical power from solar radiation is disclosed. The method includes the steps of: (a) shaping a blank of a deformable material to have a concave surface that is a required surface profile for a mirror; and (b) glueing, laminating or otherwise adhering together a back surface of a sheet of reflective glass and the concave surface of the shaped blank to form the mirror.

Abstract: The present invention is a solar concentrator system incorporating a square primary mirror, a square secondary mirror, and an optical receiver. The square secondary mirror provides highly efficient throughput of light in combination with the square primary mirror, with minimal shading. Manufacturing features may be incorporated into the square secondary mirror to assist in simplifying fabrication issues and assembly steps related to its non-circular shape. An optional heat shield around the optical receiver may be included, further enhancing performance of the solar concentrator system.

Abstract: There is disclosed herein a concentrating solar energy receiver comprising a primary parabolic reflector having a center and a high reflectivity surface on a concave side of the reflector and having a focal axis extending from the concave side of the reflector and passing through a focal point of the primary parabolic reflector; and a conversion module having a reception surface wherein the reception surface is spaced from the focal point by a predetermined distance and disposed to receive a predetermined cross section of radiant solar energy reflected from the concave side of the primary parabolic reflector for conversion to electrical energy in the conversion module. In one aspect, the conversion module includes a reception surface comprising a planar array of at least one photovoltaic solar cell. In another aspect, the conversion module includes a reception surface coupled to a thermal cycle engine. The mechanical output of the thermal cycle engine drives an electric generator.

Abstract: This invention relates generally to method and apparatus for solar-boost assist and solar-sail assist by a mini-optics light concentrator system utilizing a dynamic ensemble of mini-mirrors. In the boost phase of a rocket ship launch, the system focusses solar energy into the rocket chamber to raise the temperature of the propellant and increase the impulse. In the mid-course phase, the system focusses solar energy onto the rocket's solar sail to increase the thrust. In both cases, the system reduces the weight of the rocket by providing a weightless source of thrust.

Abstract: The invention relates to an adjustable reflector having a first plate made of substantially transparent material, a second plate positioned substantially parallel to the first plate, and a reflector element rotatably mounted between the first plate and the second plate. The reflector element is at least partially transparent and has a substantially spherical shape and a reflective surface. In addition, at least one of the plates is movable relative to the other while maintaining the distance between the first plate and the second plate. Preferably, a plurality of reflector elements is rotatably mounted between the first plate and the second plate, each reflector element being two hemispheres with a reflective surface positioned on an equatorial plane. Driving devices may also be provided for moving at least one of the plates.

Abstract: According to the proposed invention, this technical result is achieved so that many-facet concentrator of a solar setup for exposure of objects, placed in a target plane, to the action of solar radiation containing a supporting frame and facets differing by that the facets of the concentrator are chosen with spherical focusing reflective surfaces of equal focal lengths and with selective coatings reflecting a desired spectral fraction of solar radiation, and are arranged on the supporting frame symmetrically with respect to the common axis of the concentrator, their optical axes being directed to the single point on the optical axis of the concentrator located before the nominal focus point of the concentrator and determining the position of arranging the target plane.

Abstract: A central solar receiver comprising a housing with a window for the admission of incident concentrated solar radiation, a volumetric solar absorber within the housing comprising a base body holding an array of absorber members spaced from each other and projecting from one face thereof with their free ends facing said window, means for the injection of working fluid into the volumetric solar absorber in flow directions which intersect the absorber members and means for the withdrawal of heated working fluid. The window of the central solar receiver is a tubular frusto-conical body coaxial with the housing, whereby the receiver is adapted for operation at elevated pressure.