Methods, systems, and devices for a triangular heliostat structure comprising a heliostat drive mounted on a post at each corner of the structure. Embodiments include determining an installation position of a heliostat structure based on the position of an adjacent heliostat structure when a pivotable spacing bar is detachably attached to at least two posts of the heliostat structures and may be based on the heliostat structures comprising three posts in a triangular configuration.

A method of manufacture of an optical element for focusing electromagnetic radiation, comprising the steps of:•(a) providing a first light-transmissive glass substrate (20) having a front surface on which the electromagnetic radiation is incident in use and a back surface opposite to the front surface;•(b) applying a liquid silicone resin (30) to the back and/or the front surface of the glass substrate;•(c) contacting the liquid silicone resin with a mould such that the liquid silicone resin adopts the form of the mould and forms microstructures extending over the surface(s) of the glass substrate to which the liquid silicone resin has been applied;•(d) curing the liquid silicone resin to form a microstructured light-transmissive silicone coating wherein the glass surface has been

C roughened before application of the silicone.

Various ways of creating polynomial interpolations in one, two and three dimensions using purely mechanical means are disclosed. Various arrangements of gears are disclosed that can constrain certain rotating elements to rotate equal to the average or difference of the rotation angles of other rotating elements. These arrangements are combined in various ways to create mechanical arrangements having a set of rotating elements that are constrained to be linear or polynomial functions in one or many dimensions. Various uses of mechanical polynomial interpolation are disclosed, including focusing rays of the sun onto a target.

Various ways of creating polynomial interpolations in one, two and three dimensions using purely mechanical means are disclosed. Various arrangements of gears are disclosed that can constrain certain rotating elements to rotate equal to the average or difference of the rotation angles of other rotating elements. These arrangements are combined in various ways to create mechanical arrangements having a set of rotating elements that are constrained to be linear or polynomial functions in one or many dimensions. Various uses of mechanical polynomial interpolation are disclosed, including focusing rays of the sun onto a target.

A solar power collection system includes one or more photovoltaic (PV) panel assemblies positioned by one or more tracker drive units. Each PV panel assembly includes at least one PV panel comprising PV cells that collect solar energy and a base attached to the PV panel. The base includes at least one curved rocker surface that presents a first convex surface in at least a first direction to a substrate. The base is positionable on the substrate with the first direction aligned with an east-west orientation. The tracker drive unit is mechanically coupled to the base via a selected one of: (i) a drive rod; (ii) a closed loop cable; (iii) a torsion mechanism to impart a selected amounting of rolling-rocking movement of the base across the substrate to position the PV panel to efficiently receive sunlight.

An energy or water storage system can comprise a storage reservoir, a discharge reservoir, a pump for charging the storage reservoir, and a turbine or similar discharge device. The storage reservoir can comprise a flexible bag covered by overburden that creates pressure inside the bag. Energy is stored by raising the overburden. The bag can comprise a shaped internal filler piece to prevent formation of a crease at the bag edge. Solar panels can be mounted above any bag to make additional use of the land. Solar panels mounted on overburden can have tracking mechanisms and controls suitable to achieve desired orientation regardless of the slope of overburden. Elevation difference between the storage reservoir and discharge reservoir can be used, including an underground cavity. The bag can have internal tethers to influence bag shape.

A foldable portable load distributed lightweight dual-axis tracker with solar panels consists of a foldable pedestal with spokes and tracks, a foldable rotating spoke-platform with spokes equipped with sprocket gears on top of the pedestal, a motor with a sprocket gear, a front supporting structure with a hinge, a rear supporting structure with sprocket gears connected with chains, solar panels with cables. The motor is connected to the hub-platform through a chain. The motor drives the spoke-platform to rotate around a vertical axis at the center of the pedestal. The sprocket gears and the chains lift the solar panels to rotate them around the hinge mounted on the front supporting structure. The foldable hub-platform is expanded by the foldable lattice girders. The load of the tracker is distributed among the wheels sitting on the tracks of the pedestal.

A foldable portable load distributed lightweight dual-axis tracker with solar panels consists of a foldable pedestal with spokes and tracks, a foldable rotating spoke-platform with spokes equipped with sprocket gears on top of the pedestal, a motor with a sprocket gear, a front supporting structure with a hinge, a rear supporting structure with sprocket gears connected with chains, solar panels with cables. The motor is connected to the hub-platform through a chain. The motor drives the spoke-platform to rotate around a vertical axis at the center of the pedestal. The sprocket gears and the chains lift the solar panels to rotate them around the hinge mounted on the front supporting structure. The foldable hub-platform is expanded by the foldable lattice girders. The load of the tracker is distributed among the wheels sitting on the tracks of the pedestal.

A mobile system for treatment of a fluid containing organic material using sunlight may provide a trailer and a fluid treatment system mounted on the trailer. The fluid treatment system may include a solar tracking subsystem coupled to the trailer, a lens support mounted on the trailer and controlled by the solar tracking subsystem, a refracting lens coupled to the lens support, and a receiver mounted on the trailer. The receiver may be positioned with respect to the refracting lens to receive substantial concentrated light energy from the sunlight passing through the refracting lens. The fluid may be routed through the receiver for treatment of the organic material with concentrated sunlight.

The present invention comprises at least two independently maneuverable panels, either reflective of photovoltaic, arranged linearly, and physically interconnected to at least one common control capable of moving the panels simultaneously. Each panel is mounted on a separate support allowing it to be pivoted from side-to-side and/or up-and-down independently of the other panels. The preferred embodiment will permit every panel in series to be moved in unison using two main cables. This apparatus is further designed to track the sun along two-axes-both side-to-side and up-and-down-while maintaining constant tension on these cables throughout all degrees of freedom permitted by design. The apparatus also permits each mirror to be focused independently on a smaller target by means of mirror warping.