Energía solar fotovoltaica

Storage of wind and solar electricity in compressed air

MODULAR SOLAR POWER AND ENERGY STORAGE SYSTEMS AND METHODS

Resumen de: WO2025244632A1

A power generation device is provided. The power generating device includes a photovoltaic panel configured to generate a first type of electrical power, a power converter electrically coupled to the photovoltaic panel and configured to convert the first type of electrical power to a second type of electrical power for transmission to a grid and/or load, and at least one energy storage device electrically coupled to the power converter, the at least one energy storage device configured to store electrical energy provided by the power converter. The power generating device further includes at least one heat management component and at least one back housing physically attached to the photovoltaic panel and defining a space between the photovoltaic panel and the at least one back housing. The power converter, the at least one energy storage device, and the at least one heat management component are positioned in the space.

FLOATING SOLAR POWER GENERATION DEVICE WITH SEMI-SUBMERSIBLE FLOATING BODY

Resumen de: WO2025241139A1

The present invention relates to a floating solar power generation device with a semi-submersible floating body, comprising a plurality of solar panels, at least one sun-tracking device, a supporting frame, a plurality of floating devices and a plurality of plates, wherein each solar panel has a first light receiving surface and a second light receiving surface on two opposite sides, and the plurality of solar panels are horizontally arranged and connected in a continuous manner to form a solar power generation module; the sun-tracking device is connected to the solar power generation module; the supporting frame is arranged below the solar panels, and has a base frame portion at the lower part; each floating device comprises a horizontally-straight hollow cylindrical main floating body and a plurality of vertical auxiliary floating bodies, and the main floating bodies are spaced apart from each other and horizontally arranged below the supporting frame; the bottoms of the auxiliary floating bodies are joined to the main floating bodies, and the tops of the auxiliary floating bodies are fixedly connected to the supporting frame, creating flow guide spaces between the assembled auxiliary floating bodies; and the plates are fixedly arranged above the base frame portion of the supporting frame, thus integrally forming a floating power generation module. In this way, the present invention has higher floating stability and power generation efficiency.

STRUCTURAL ARRANGEMENT APPLIED TO A MULTIFUNCTIONAL STRUCTURE FOR CONVERTING WIND, SOLAR AND TIDAL ENERGY INTO ELECTRICITY

Resumen de: WO2025241011A1

The present application for a utility model relates to a product pertaining to the renewable energy sector, and more particularly to a product which is useful in installations in marine and coastal environments, where conditions are conducive to the simultaneous exploitation of wind, solar and tidal energy. The application provides a multifunctional structure (1) intended for generating electricity, comprising an integrated set of aerodynamic blades (2) provided with photovoltaic solar panels (5) and an inverted and submerged tidal turbine (6), the configuration of which allows the simultaneous and optimized capture of wind, solar and tidal energy, thereby increasing energy efficiency and continuous energy production capacity. Integration of the three energy sources into a single structure reduces the need for multiple installations, maximizes the use of available space and minimizes the environmental impacts associated with the construction and operation of separate energy infrastructures.

DISPLAY DEVICE AND METHOD OF MANUFACTURING THE DISPLAY DEVICE

Resumen de: US2025366319A1

A display device includes: a substrate including a display area including a first pixel area, a component area adjacent to the display area, and a non-display area adjacent to the display area, where the component area includes a second pixel area and a transmission area, and the non-display area includes a bending area; a first inorganic layer continuously arranged in the transmission area on the substrate, where a lower opening overlapping the bending area is defined through the first inorganic layer; a blocking layer on the first inorganic layer, a blocking layer opening overlapping the transmission area and an intermediate opening overlapping the lower opening are defined through the blocking layer; and a display element layer on the blocking layer, where the display element layer includes a first display element overlapping the first pixel area and a second display element overlapping the second pixel area.

IMPROVED ANIMAL TAG ASSEMBLY

Resumen de: US2025359532A1

Animal ear tag assembly comprising: ear tag comprising a housing for enclosing electronic components, the housing comprising at least photovoltaic panel being arranged to form an external frontal outer face of the tag for receiving sunlight and powering the electronic componentry therein; a tether body configured to contact the animal's body during use, the tether body having an in-use upper female coupling portion for receiving and coupling an ear attachment stud member and an in-use lower cradle portion being configured for securing an attachment portion of the ear tag extending from the housing of the tag to arrange the photovoltaic panel in an outwardly facing configuration during use.

RAMMED SOLAR TRACKER FOUNDATIONS

Resumen de: US2025361692A1

A method for installing a solar tracker A-frame foundation includes: placing a first pile at a first location along a ground surface; placing a second pile at a second location along the ground surface, the second location spaced apart from the first location; simultaneously ramming the first pile into the ground surface at the first location and ramming the second pile into the ground surface at the second location; and after simultaneously ramming the first and second piles into the ground surface, coupling a first leg of a solar tracker A-frame support to the first pile and coupling a second leg of the solar tracker A-frame support to the second pile.

Transparent Stain Containing Metal Oxides for Antimicrobial and Antifungal Protection of Solar Photovoltaic Panels

Resumen de: US2025361412A1

The invention relates to a transparent stain containing transparent metal oxides, such as copper oxide, zinc oxide, or titanium oxide, with particle sizes less than 100 nm, for application on photovoltaic panels. This stain provides antifungal properties that reduce microbial growth, particularly in humid and hot equatorial regions. By maintaining the efficiency of photovoltaic panels over time, this invention addresses the problem of efficiency loss due to fungal contamination without frequent maintenance.

ORGANIC MOLECULES FOR USE IN OPTOELECTRONIC DEVICES

Resumen de: US2025361207A1

An organic molecule is disclosure having a structure of Formula Iwherein Q is at each occurrence N or CRIII; W is at each occurrence N or CRIV; Z is at selected from the group consisting of a direct bond, CR3R4, C═CR3R4, C═O, C═NR3, NR3, O, SiR3R4, S, S(O) and S(O)2; RA is selected from the group consisting of CN and CF3; and wherein exactly one Q and exactly one W is N.

ORGANIC ELECTROLUMINESCENT MATERIAL AND USE THEREOF

Resumen de: US2025361246A1

The present disclosure relates to an organic electroluminescent material having a structural formula as shown in formula (A) or (B). Based on a conventional B-N resonance structure, in such material, an aromatic ring that does not participate in the resonance is fixed to a resonance ring by means of a dimethyl-substituted methylene group to form a larger rigid structure, thereby decreasing non-radiative vibration, reducing delayed fluorescence lifetime and reducing efficiency roll-off. Moreover, the introduction of the dimethyl-substituted methylene distorts the B-N planar skeleton, which can reduce fluorescence quenching at high concentrations, thereby obtaining relatively high efficiency. In addition, when Cy1 and Cy2 are different, especially after a heteroatom is introduced, this type of asymmetric structure can further distort the molecular plane, reduce film aggregation and quenching, and achieve a higher current efficiency.

DRONE DEPLOYABLE MODULAR SYSTEM FOR REMOTE SOLAR ENERGY GENERATION

Resumen de: US2025361008A1

A drone deployable modular system for remote solar energy generation utilizes remote-controlled multi-rotor drones configured to deliver and maintain modular heliostat units for assembly into heliostat fields in remote locations. The drone deployable modular heliostat unit may include a frame that supports at least one deployable, mirrored surface controlled by a heliostat driver. In one embodiment, the deployable, mirrored surface is a Mylar film tensioned over a mirror frame portion supported and controlled by the heliostat driver to orient a working face of the mirrored surface in various positions. The drone deployable modular heliostat unit may include a deployable stand arrangement and/or an anchor system. The modular heliostat units May be configured to be deployed in heliostat fields in a generally peripheral arrangement to provide reflected solar energy to a centrally located concentrating solar collector/energy utilization system.

CARBON CAPTURE APPARATUS AND METHOD

Resumen de: US2025360461A1

A carbon sequestration device configured to remove carbon dioxide from environmental air in an exterior environment has a housing forming a concave region with an open top, and a panel covering the open top. At least a portion of the panel is light-transmitting and also includes at least one solar cell. The panel and concave region together form an interior chamber configured to contain water and algae. The device also has an environmental air inlet formed in the housing for receiving pressurized environmental air from the exterior environment, as well as a temperature sensor in thermal communication with the interior chamber to sense the temperature in the interior chamber. The device also has a thermal regulator in thermal communication with the interior chamber. The thermal regulator is configured to control the temperature in the interior chamber as a function of the temperature sensed by the temperature sensor.

NEGATIVE PRESSURE SUCTION-BASED FIXING DEVICE

Resumen de: US2025361981A1

Disclosed is a negative pressure suction-based fixing device comprising a housing, a suction and holding member, a negative pressure creating assembly, a solar panel and a battery; wherein, the housing may have an accommodating cavity thereinside; the suction and holding member may be suctioned onto a suction surface; an end of the suction and holding member away from the housing may be provided with a suction cavity that is in communication with the accommodating cavity; the suction cavity may cooperate with the suction surface to form an enclosed space; the negative pressure creating assembly may be configured to generate negative pressure in the accommodating cavity to create negative pressure in the enclosed space; the solar panel may be disposed on the housing. In this way, the negative pressure suction-based fixing device can continuously supply power to the battery through the solar panel.

ORGANIC COMPOUND AND PREPARATION METHOD THEREOF AND USE THEREOF

Resumen de: US2025366297A1

An organic compound, a preparation method of the organic compound, a perovskite solar cell comprising a hole transport layer that comprises the organic compound, a preparation method of the perovskite solar cell, and an electric apparatus comprising the perovskite solar cell. The organic compound includes head groups, a tail group, and a carbon chain, where the carbon chain connects the head groups to the tail group, and there are at least two head groups.

FUNCTIONAL MATERIAL, PASSIVATION FILM, SOLAR CELL, PHOTOVOLTAIC MODULE, AND PHOTOVOLTAIC SYSTEM

Resumen de: US2025366298A1

A functional material, a passivation film, a solar cell, a photovoltaic module, and a photovoltaic system are disclosed. The functional compound is represented by formula (1): where formula (2) represents a nitrogen-containing heteroaromatic group having 5 to 60 ring atoms or an aromatic amine group having 6 to 60 ring atoms, substituted by n2 R2 groups, and at least one nitrogen atom in formula (2) is bonded to n1 -LR1 groups; in each occurrence, L is independently selected from linear alkylene group having 1 to 10 carbon atoms; at least one of R1 and R2 is selected from —CHO, —C(O)R4, —C(O)NH2, —C(O)SH, —C(S)SH, —OH, or —SH; R4 is selected from any one of substituted or unsubstituted alkyl group having 1 to 10 carbon atoms; and n1 is an integer ≥1, and n2 is an integer ≥1.

LIGHT EMITTING ELEMENT

Resumen de: US2025366270A1

A light emitting element includes: a semiconductor structure; first and second electrodes formed above the semiconductor structure. In a plan view: the first electrode comprises a first pad electrode, a first extending portion extending from the first pad electrode, and two second extending portions extending from the first pad electrode, and the second electrode comprises a second pad electrode, and two third extending portions extending from the second pad electrode.

ORGANIC COMPOUND AND APPLICATION THEREOF

Resumen de: US2025366310A1

Provided are an organic compound and an application thereof. The organic compound has a structure represented by Formula I. Through a design of a molecular structure, the organic compound has a low refractive index, no absorption within a visible light wavelength range, a low extinction coefficient within a wavelength range of 400-600 nm and an excellent light extraction effect, thereby significantly improving the luminescence efficiency of an element as a material of a capping layer. Moreover, the organic compound has a relatively high glass transition temperature and excellent thermal stability, thereby meeting a processing requirement of evaporation. In addition, a small difference is between refractive indexes of the organic compound in different light colors, and when display is performed at multiple angles, the color cast can be effectively improved, thereby giving a more excellent light emission and display effect to the element.

ORGANIC COMPOUND, ORGANIC ELECTROLUMINESCENT DEVICE, AND ELECTRONIC APPARATUS

Resumen de: US2025366365A1

The present invention belongs to the field of organic light-emitting materials, and particularly relates to an organic compound, an organic electroluminescent device using the organic compound, and an electronic apparatus. The organic compound has a structure represented by formula (1). The organic compound is used in the organic electroluminescent device, such that the performance of the device can be improved.

SOLAR MODULE

Resumen de: US2025366220A1

A solar module includes a plurality of solar cells and a carrier plate. The carrier plate includes a front cover and a back cover. The plurality of solar cells are welded and connected in series to define a plurality of solar battery string groups. The plurality of solar cells are connected in series at a predetermined spacing distance therebetween in a first direction to form each of the plurality of solar battery string groups. A width of each of the plurality of solar cells in the first direction is a first length, a length of each of the plurality of solar cells in a second direction is a second length, and a ratio of the second length to the first length is greater than 10. The plurality of solar battery string groups are pressed between the front cover and the back cover via a plurality of bus strips.

INTEGRATING A SOLAR PANEL IN A VEHICLE BODY PART

Resumen de: US2025364943A1

Method for connecting a solar panel to a frame of a vehicle body part, the method comprising the steps of providing a recess (3) in the frame (2) of the vehicle body part (1), providing at least one inlet opening (6) in the recess, the at least one inlet opening providing a first passage (6a) between the recess and an interior (7a) of the vehicle body part, positioning the solar panel (5) over the recess, therewith defining a volume (10) by the solar panel and the recess, after the step of positioning the solar panel over the recess, providing a filler material (12) via the at least one inlet opening to the recess, filling the volume with the filler material to connect the solar panel to the frame with the filler material.

PHOTOVOLTAIC FRAME AND PHOTOVOLTAIC MODULE

Resumen de: US2025364945A1

A photovoltaic frame includes: a carrying plate configured to support a backlight surface of a laminate; and a first side plate and a second side plate. The first side plate has a protruding portion protruding from the carrying plate, the protruding portion and the carrying plate enclose a mounting groove. The protruding portion and/or the carrying plate is provided with a glue groove structure, and a side surface of the second side plate away from the first side plate is provided with a glue overflow plate protruding towards in a direction away from the first side plate, the glue overflow plate and the second side plate enclose a first glue overflow groove in communication with the mounting groove, when the laminate is mounted on the photovoltaic frame, a top end of the protruding portion is lower than or coplanar with a light-receiving surface of the laminate.

PHOTOVOLTAIC TILE SYSTEM FOR EASY APPLICATION TO A ROOF

Resumen de: US2025364942A1

An induction photovoltaic tile system, the induction photovoltaic tile system comprising: a first induction photovoltaic tile which includes a photovoltaic outer layer, an internal energy storage unit in electrical communication with the photovoltaic outer layer and an induction power transfer unit comprising a first receiver coil in electrical communication with the internal energy storage unit, and a first transmitter coil; and a second induction photovoltaic tile which includes a second photovoltaic outer layer, a second internal energy storage unit in electrical communication with the second photovoltaic outer layer and a second induction power transfer unit comprising a second receiver coil in electrical communication with the second internal energy storage unit, wherein the first transmitter coil is aligned with the second receiver coil.

ASYMMETRIC LIGHT TRANSMISSION SURFACES FOR ENHANCING EFFICIENCY OF SOLAR CONCENTRATORS

Resumen de: US2025366256A1

A luminescent solar concentrator including a light propagation device, one or more photovoltaic cells, and one or more waveguides is provided. The light propagation device includes a plurality of nanostructures configured to permit preferential propagation of a wavelength range of light in one direction. The one or more photovoltaic cells are positioned adjacent an end of the light propagation device. The one or more waveguides are configured to guide light toward the one or more photovoltaic cells via total internal reflection within the luminescent solar concentrator.

SOLAR PANEL HAVING ZIGZAG-ORIENTED SOLAR MODULES

Resumen de: US2025364946A1

A solar panel with zigzag-oriented solar module pairs for maximizing solar power generation is disclosed. Each solar module has two solar modules oriented relative to each other so that their respective photovoltaic sides define an approximately twenty-degree angle. Each solar panel may have a series of photovoltaic sides where each adjacent photovoltaic sides are interconnected by an intermediate portion that is flexible to move from a flat condition to a folded condition that defines the zigzag-oriented solar module pairs

T-Bar Support System and Method for Solar Modules

Nº publicación: US2025364944A1 27/11/2025

Solicitante:

JA SOLAR USA INC [US]
JA Solar USA Inc

Resumen de: US2025364944A1

Embodiments of the present disclosure are directed to an apparatus (also referred to as a T-bar, or torque-bar support) having an elongated, anodized tubular member (12) that attaches to a solar module frame (30). The tubular member (12) has one or more holes that align with holes (22) on the solar module frame (30). The T-bar apparatus (10) also includes a silicone gasket (14) to protect the glass (26) from damage and strengthen the amount of loading of the solar module (20). On the side of the tubular member (12), a preinstalled grounding washer (16) ensures that when installed the torque-bar support (10) is electrically grounded. A typical solar module (20) includes two or more T-bar supports (10) that are spaced apart and symmetrical to a center location of the solar module (20).