Abstract: A composition of matter having a coated silicon substrate with multiple alternating layers of polydopamine and polyallylamine bound copper-indium-gallium oxide (CIGO) nanoparticles on the substrate. A related composition of matter having polyallylamine bound to CIGO nanoparticles to form PAH-coated CIGO nanoparticles. A related CIGO thin film made via conversion of layer-by-layer assembled CIGO nanoparticles and polyelectrolytes. CIGO nanoparticles are created via a flame-spray pyrolysis method using metal nitrate precursors, subsequently coated with polyallylamine (PAH), and dispersed in aqueous solution. Multilayer films are assembled by alternately dipping a substrate into a solution of either polydopamine or polystyrenesulfonate and then in the CIGO-PAH dispersion to fabricate CIGO films as thick as 1-2 microns.

Abstract: A process of making a dense, cohesive and uniform aluminum oxide coating on a metallic substrate includes electrodepositing polynuclear aluminum oxide hydroxide clusters from a polynuclear aluminum oxide hydroxide cluster solution on a metallic substrate to form a precursor coating, and post-treating the precursor coating to form a final aluminum oxide coating on the metallic substrate.

Abstract: Various aspects as described herein are directed to a radiative cooling device and method for cooling an object. As consistent with one or more embodiments, a radiative cooling device includes a solar spectrum reflecting structure configured and arranged to suppress light modes, and a thermally-emissive structure configured and arranged to facilitate thermally-generated electromagnetic emissions from the object and in mid-infrared (IR) wavelengths.

Abstract: Disclosed herein is a solar collector of a fixed and concentrating flat panel type in which V-band type absorption plates each configured to have coating layers formed on both surfaces thereof and configured to maintain regular intervals are formed within the solar collector having a flat panel type and a reflection plate configured to reflect solar energy toward the absorption plates and to have an elliptical symmetry structure are disposed under the absorption plates. Accordingly, a solar energy absorption ratio can be maximized, and concentration efficiency can be improved.

Abstract: A solar collector has an opaque cover heated by solar energy. Heat flows from the opaque cover by conduction, convection, and infrared emittance across a gap within an at least substantially airtight enclosure to an absorber containing a working fluid. The exterior surface of the opaque cover has high solar energy absorptance and the interior surface has high infrared emittance. The exterior surface preferably has low infrared emittance. In one embodiment, fully wetted surface geometry permits direct and reflected infrared absorption by the absorber. The opaque cover eliminates the weight, cost and other shortcomings of glass. A hollow continuous side wall with rounded corners provides an embodiment that is robust yet economical, that is easy to manufacture and seal, that permits a reduced thickness of the opaque cover and mitigates the destructive potential of severe winds, and that can withstand the compressive forces experienced by an evacuated solar collector.

Abstract: A solar receiver includes a wavelength selective coating comprising a first diffusion barrier layer, a metallic IR reflective layer, a solar absorptive layer, an anti-reflective layer, and/or a hard coat protective layer. Selective absorber coatings, which are characterized by a high solar absorption coefficient and low thermal emission, can be used to convert captured solar radiation into usable heat. In embodiments, more efficient selective coatings are provided that combine relatively high solar absorbance (e.g., greater than about 0.96) with relatively low thermal emittance (e.g., less than about 0.07 at 700° C.), and that are thermally stable above 600° C., for example, in outdoor conditions. The use of such coatings in a solar field may allow for an increase in the operating efficiencies thereof at operating temperatures of about 600° C. or greater.

Abstract: A solar energy receiver includes a plurality of solar receiver elements. Each solar receiver element includes a substantially solid core configured to absorb solar radiation and to store the solar radiation as heat. The core includes a base surface and a plurality of absorption surfaces. The receiver further includes at least one fluid passageway defined within the core adjacent at least one absorption surface of the plurality of absorption surfaces, wherein the at least one fluid passageway is configured to channel a working fluid therethrough for absorbing heat stored in the core.

Abstract: This invention relates to solar engineering. The solar collector, which comprises a closed enclosure and an absorber 5 with channels for a liquid heat carrier, is designed in the form of a cylindrical portion having radius R1 and an axis coinciding with the axis of the central cylindrical portion 1 of the enclosure. The absorber 5 consists of thin-walled, interconnected modules. The modules are provided with bulges on the rear side thereof, in which channels with slots are made for arranging pipes forming heat-carrier flowing channels. In addition, the absorber can be designed in the form of a storage tank. The shape of the collector is optimized in such a way that the axes of the two lateral cylindrical portions 2 thereof are remote at distance L and the central cylindrical portion 1 is as remote as possible from a plane 3 tangential to the lateral cylindrical portions 2 at a distance H having the defined ratio of geometric parameters.

Abstract: The present disclosure provides a frameless photo-energy assembly including a photo-energy converter, wherein an edge of the photo-energy converter is sealed by an adhesive tape, comprising an adhering layer for adhesion and cushioning; and an aging-resistant protective layer. The adhering layer is used to contact the edge of an article and comprises: a substrate layer; optionally, a first adhesive layer and a second adhesive layer situated at both sides of the substrate layer oppositely, wherein the first adhesive layer being used to be contact with the article. The aging-resistant protective layer is situated on the adhering layer, which comprises: an optional primer layer, which is situated on the adhering layer; and a film layer, which is situated on either the primer layer or the substrate or the second adhesive layer. The present disclosure further provides an adhesive tape for sealing an edge of an article and an article made of the assembly.

Abstract: An energy-generating transparent (EGT) structure is provided, in addition to a method for generating energy from light incident to an EGT structure. The EGT structure is made up of a window pane with an interior surface adjacent a reflective structure. The method accepts light incident to an exterior surface of the window pane, and transmits light in the visible spectrum through the window pane and reflective structure. However, light in the near-infrared (NIR) spectrum is reflected back from the reflective structure into the window pane, so that reflected NIR, spectrum light is supplied to an edge of the window pane. For example, reflected NIR spectrum light is supplied to the window pane edge if the light has an angle greater than or equal to an angle TIR occurring between the window pane exterior surface and air. This reflected NIR spectrum light can be converted to electrical or thermal energy.

Abstract: A solar heater for space heating is formed by a frame that provides structural support for a plate that absorbs sunlight. In one aspect, the plate is directly molded into the frame. In another aspect, the plate is incorporated into an assembly which is then sealed to the frame. The solar heater is configured such that multiple similarly configured solar heaters may be coupled together in a series and/or parallel arrangement.

Abstract: Disclosed is a radiation collector comprising a pressure cell which is subdivided into a first pressure chamber and a second pressure chamber by means of the concentrator. The small pressure difference between the pressure chambers keeps the concentrator operational in a beam-concentrating form and reduces the wear on the reflective layer of the concentrator. The radiation collector further comprises adequately designed means for establishing the desired pressure in the respective pressure chamber, said means making it possible to compensate changes of the pressure chamber volume resulting from wind load, for example.

Abstract: There is disclosed a receiver panel. In an embodiment, the panel is configured to receive a curtain of particles in a solar central receiver system. A porous structure of the panel has a top end and a bottom end. The porous structure is disposed between the top end and the bottom end. The porous structure has a size to impede movement of the particles during downward travel from the top end to the bottom end. There is disclosed a solar central receiver system. In an embodiment, the receiver system includes a plurality of receiver panels, a tower supporting the plurality of receiver panels in a configuration to receive solar irradiation, and a hopper forming a slot configured to dispose the particles at a given location on to the porous structure. Other embodiments are also disclosed.

Abstract: A construction element (29) which extends in two dimensions comprises a solar energy converter member (1) which also extends along and defines one surface of the construction element (29). The construction element (29) further comprises a building construction member (30) which extends along the construction element (29) and defines the second surface thereof. At least a part of the solar energy converter member (1) is integral with at least a part of the building construction member (30) whereby this integral part both contributes to the requirements for solar energy conversion as well as to requirements for constructions.

Abstract: A solar radiation receiver includes a quartz window system for the closure of the receiver having intermediate tubes/bars (1M) and end tubes/bars (1E) arranged in parallel forming a sheet contiguously to close an opening in a delimiting surface of the solar receiver and a seal (1A) which has a cross section with the shape of an eight or convex lens, being the seal (1A) located between every two tubes/bars (1M, 1E). The seal (1A) having a first auxiliary generatrix (1A1) in a throat of the cross section. The intermediate tubes/bars (1M) and the end tubes/bars (1E) include respectively a first intermediate (1M1) and an end generatrix (1E1) in contact with the first auxiliary generatrix (1A1), forming a union wall of the seal (1A) with an intermediate tube/bar (1M) and an end tube/bar (1E). The end tubes/bars (1E) include a second external generatrix (1E2) contacting an edge of the opening forming a union wall of the end tube/bar (1E) with the edge of the opening.

Abstract: An outer side of a receiver is covered with a housing, so that the receiver is not exposed to the open air and no heat of the receiver is taken by winds, to improve thermal efficiency. Although the outer side of the receiver is covered with the housing, a lower side thereof has an opening, so that sunlight reflected by heliostats is introduced through the opening to the inside of the receiver and is surely received by an inner face of the receiver.

Abstract: The supply unit comprises a box type profile frame (1), whose base rests on wheels (2) and on whose top side (3), a square frame (16), as seen from above, is placed, said frame containing a solar panel (7). This can be swiveled about a horizontal axis (8) and is so connected to one of the top sides of the box type profile frame (1). A peripheral, square frame (5) of same size, each containing a solar panel (6), is connected in a swiveling way to each side of this square frame (16), so that out of the five square frames (16;5), a cube is formed when these frames are swiveled down. The peripherally connected square frames (5) can be swiveled to the plane of the central square frame (16) and can be locked in this position to the central square frame (16).

Abstract: An absorber for converting solar rays into thermal energy, in particular for use in a solar collector (10), is proposed, which comprises a non-porous dark ceramic, wherein the absorber is flowed through by a heat transport medium.

Abstract: A cylindrical shaped solar cell having a water vapor transmission rate of 10?4 g/m2·day or less is provided. The cylindrical shaped solar cell unit comprises a substrate that is either (i) tubular shaped or (ii) rigid solid rod shaped, a back-electrode circumferentially disposed on the substrate, a semiconductor junction layer circumferentially disposed on the back-electrode, and a transparent conductive layer circumferentially disposed on the semiconductor junction. A transparent tubular casing is circumferentially disposed onto the cylindrical shaped solar cell. A first sealant cap is hermetically sealed to a first end of the transparent tubular casing. A second sealant cap is hermetically sealed to a second end of the transparent tubular casing. In some instances, the solar cell unit is a monolithically integrated arrangement of solar cells. In some instances, the solar cell unit is a solar cell.

Abstract: A paintable, low VOC coating improving the solar absorption of materials consists of an aqueous suspension of nanoparticle aluminum oxide, carbon nanotubes, and carbon black.

Abstract: Disclosed is a radiation collector comprising a pressure cell which is subdivided into a first pressure chamber and a second pressure chamber by means of the concentrator. The small pressure difference between the pressure chambers keeps the concentrator operational in a beam-concentrating form and reduces the wear on the reflective layer of the concentrator. The radiation collector further comprises adequately designed means for establishing the desired pressure in the respective pressure chamber, said means making it possible to compensate changes of the pressure chamber volume resulting from wind load, for example.

Abstract: Solar receivers and particularly to solar receivers having one or more cavities and optionally having absorptivity/reflectivity patterns on surfaces and methods of reflective material application.

Abstract: A device for concentrating optical radiation comprises a collection frame, and a radiation collector. The collection frame also has a collecting surface and a focal point 120. The collecting surface is adapted to collect optical radiation, and more particularly to collect solar radiation, from different directions, and guide the radiation to the focal point. The radiation collector is located at the focal point. It can collect the concentrated radiation for further utilization. The present invention is using simple, stationary and economical structures to increase area for collecting more sun light from all directions instead of increasing the radiation collector's area which largely saves the cost.

Abstract: A solar collector which is illuminated by the sun through a glass panel wherein the glass panel is constructed of glass without low-e coatings with a first surface coating of a magnetron sputtered vapor deposition coating consisting primarily of titanium dioxide. The titanium dioxide achieves a hydrophilic photocatalytic surface to produce a solar collector which is self-cleaning for increased solar energy transmittance with less cleaning cost.

Abstract: The subject of the invention is modular system for utilization of solar energy for heating of sanitary water, which is composed from individual modules, each of which comprises a prefabricated, upper-outflow transparent (diaphanous), translucent or non-transparent element (1), one or several intermediate transparent (diaphanous), translucent or non-transparent element(s) (2), and a lower-inflow transparent (diaphanous), translucent or non-transparent element (3). Their mutual connection by means of junctions (4a, 4b) enables flow of nontransparent media from one element to the other while absorbing solar energy. Several modules can be mutually and in parallel connected to the modular system replacing the existing roofing tiles. The choice of an appropriate color for the nontransparent media makes the system compatible and consistent with the look of surrounding existing roof tiles.

Abstract: A solar thermal energy transmission system having a bellows that sealingly interconnects a first structure to a second structure is disclosed. The bellows includes a surface that is compatible with a molten salt and is configured to resiliently deform in response to contraction and expansion of at least one of the first and second structures, to thereby accommodate relative movement of the structure(s) to which it is coupled.

Abstract: A solar energy collecting apparatus for heating a working fluid using the plurality of substantially identical reflective elements arranged in rows is provided. Each reflective element comprises a substantially rectangular element having opposing side walls and opposing end walls which together form a bottom edge for supporting the reflective element on a flat support such as a sheet metal or molded base. Each reflective element further includes a top wall connected with and supported by the side walls and the end walls. The top wall is formed to provide a reflective surface facing away from the bottom edge and is formed in a shape for reflecting solar radiation falling thereon, from a range of incident angles, to a focal axis. The focal axis of each reflective element is substantially parallel with a longitudinal axis of the reflective element and when the reflective elements are arranged in parallel rows, each row includes a focal axis along its longitudinal length.

Abstract: This invention relates to a photoelectric transfer device which comprises a photoelectric transfer element, a cholesteric liquid crystal layer and an ultraviolet cut-off layer, said cholesteric liquid crystal layer being arranged between said photoelectric transfer element and said ultraviolet cut-off layer and said ultraviolet cut-off layer being arranged at the side for the incidence of light. According to this invention, there is provided a colorful photoelectric transfer device which is prepared at an inexpensive cost without a marked decrease in the generation efficiency of the photoelectric transfer element and is fit to be used over a prolonged period.

Abstract: A solar collector and a method of manufacture is disclosed. The solar collector frame has internally oriented projections for positioning a light transmissive cover, absorber plate, insulation and base to form an enclosure. To provide for maximum active or passive collection efficiency, by increasing resistance to heat flow, an easily maintained evacuated cover is disclosed. The solar collector can be economically manufactured and can be on-site fabricated, and adapted for single or multiple installation in original or retrofit applications in a building with minimal structural modification.