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35
results.
Updated on
07/12/2025 [07:43:00]
Absstract of: FR3162776A1
Un dispositif mobile de couverture pour bassin, configuré pour prendre une position fermée selon laquelle une surface du bassin est recouverte par le dispositif et une position ouverte selon laquelle la surface du bassin n’est pas recouverte par le dispositif, le dispositif comprenant des moyens de déplacement (200, 205) configurés pour déplacer ledit dispositif de l’une des positions ouverte et fermée à l’autre des positions ouverte et fermée, des moyens de contrôle (210) d’au moins une caractéristique d’eau contenu dans le bassin et des moyens de transfert (215, 225) configurés pour transférer de l’eau entre le bassin et les moyens de contrôle lorsque le dispositif est dans la position fermée. Figure pour l’abrégé : Figure 2
Absstract of: WO2025250053A1
A thermal energy storage (TES) bin assembly for a high temperature, particle-based solar power plant, the TES bin assembly including a TES bin for storing hot particles therein and a feeder assembly configured to insert the hot particles inside of the TES bin. The TES bin has a base, a lid separated from the base, and a hollow body extending between the base and the lid. The hollow body is made of a plurality of cylindrically shaped structures. The innermost cylindrically shaped structure defines an interior of the TES bin together with the lid and the base. The innermost cylindrically shaped structure is made with abrasion resistant bricks. A second cylindrically shaped structure is made of an insulating material and surrounds the second structure. A third cylindrically shaped structure surrounds the second structure and includes expansion joints. The base has a funnel shape and the lid has a removable component.
Absstract of: WO2024158283A1
The invention relates to a clamping element (101, 201) configured engaging at least part of an edge of a solar panel and a system comprising such clamping element (101, 201) and at least one support structure (20) for supporting at least part of at least one solar panel.
Absstract of: WO2024159230A1
The present subject matter relates to structure systems, including structures with integrated solar racking systems, frame systems, post and frame components, and related methods. In particular, the present subject matter relates to posts and frame components that form a frame system that can be used to support a roofing system. The frame system and roofing system can forma structure system. The roofing systems can include integrated solar panels in the roofing structure and/or support the use of insulated roofing panels for non-solar applications to form a roofing system for a building, a structure, or a canopy.
Absstract of: WO2025244831A1
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.
Absstract of: AU2024271974A1
A thermal energy storage and exchange device (100) comprising: - an external casing made of metal carpentry (1), - a fluidizable bed of particles (4), - metal separation means (3), peripheral to the bed of particles, and distant from 5 the walls of the external casing so as to create a hollow volume (20), - an amount of stationary particles (2) filling-in said hollow volume, - means (5) for heating the fluidized bed, in configuration so that the metal separation means allows the tightness of the fluidization air and the section of stationary particles, nor fluidized nor aerated, acts as thermal insulation.
Absstract of: WO2024153706A1
The invention relates to a system and facility for collecting solar energy, this system and facility being versatile which means that it can be installed, in particular, on flat roofs without mounts or adhesives, or heavy lifting equipment. According to the invention, each system comprises two rigid-frame solar panels and two cylindrical support members each having: - an elongate hollow body (210) intended to receive a ballast; and - two end caps (220) of the hollow body, each comprising a vertical rigid wall capable of supporting the weight of the solar panels and a portion for the attachment of the solar panels, such that the solar panels are supported on the ground (S) by the end caps.
Absstract of: GB2641224A
A Carbon dioxide (CO2) engine used to generate energy comprising: a piston 7 in a piston chamber 22 driven via the expansion of carbon dioxide 21 when it changes phase from a liquid to a gas using ambient air as a heat source; and conduits 25 for transferring the gaseous carbon dioxide to a heat exchanger 16 to transform the carbon dioxide back into a gas via condensation. The heat exchanger can be used for energy generation by using the vacuum created by the change in fluid from a gas to a liquid. The absorbed heat from the sink can be amplified by using a refrigerator 12 and fed to the heat source.
Absstract of: US2025354723A1
An adaptor for connecting a ground screw to an upright beam of a solar panel support assembly includes (a) a cylindrical connector having an open ground-screw receiving bottom end and a top end, the cylindrical connector having an inner circumferential surface with a diameter slightly larger than that of the ground screw and at least two sets of bolt holes, each set of bolt holes including at least three bolt holes uniformly distributed circumferentially about the cylindrical connector at an axial level, and the at least two sets of bolt holes being axially distanced from one another; (b) an intermediate plate having a top surface and a bottom surface fixed to the top end of the cylindrical connector; and (c) an upright beam connector fixed to the top surface of the intermediate plate and extending upward from the intermediate plate.
Absstract of: AU2024255300A1
A mounting system selectively engageable to a panel projection extending from a metal panel defining a surface of a building. The mounting system comprises a mounting device with a body with a wall. First and second legs extend from the wall and are flexible with respect to the wall. The first leg comprises a first aperture that is unthreaded and which has a first interior diameter. The second leg comprises a second aperture which has a second interior diameter that is less than the first interior diameter. The second aperture may optionally be threaded. The mounting system further comprises a clamping fastener with a shaft that may extend into the first aperture and out of the second aperture. The clamping fastener may be tightened to draw the first and second legs together to engage the panel projection and removably secure the mounting device to the panel projection.
Absstract of: US2025347427A1
An energy storage system and method for operating same are provided. The system comprises a first heat exchanger for heating a first heat transfer fluid in fluid communication with a ground heat exchanger and a heat pump; and a first circulation device for circulating the first heat transfer fluid. An energy collector is in fluid communication with the first heat exchanger for transferring energy collected by an energy collector to the first heat exchanger with a second heat transfer fluid circulate by a second circulation device. A controller actuates the first and second circulation devices to circulate the first and second heat transfer fluids. If temperature sensor data of the first and second heat transfer fluids entering the first heat exchanger is above a threshold valve, the controller continues to actuate first and second circulation devices to circulate the first and second heat transfer fluids.
Absstract of: WO2025228265A1
A tower solar heat utilization system, comprising a heat utilization system, a primary heat collection system, and at least one secondary heat collection system. The primary heat collection system and each secondary heat collection system each comprise a heat collection module; each heat collection module comprises a heliostat field module (201), a heat absorption module (3), a first high-temperature heat storage unit (6), and a first high-temperature heat storage medium conveying pump module (7); a high-temperature heat storage medium outputted by the heat absorption module (3) is conveyed to the first high-temperature heat storage unit (6) through a first pipe (24); a high-temperature heat storage medium outputted by the first high-temperature heat storage unit (6) is conveyed to the heat utilization system through a second pipe (25); the distance between a high-temperature heat storage medium output end of the first high-temperature heat storage unit (6) of the primary heat collection system and a high-temperature heat storage medium input end of the heat utilization system is smaller than the distance between the high-temperature heat storage medium output end of the first high-temperature heat storage unit (6) of any secondary heat collection system and the high-temperature heat storage medium input end of the heat utilization system; and in each secondary heat collection system, when the flow rates of the high-temperature heat storage media in the first pipe (24) and th
Absstract of: US2025338804A1
A grow field configured to support plant or crop cultivation, the grow field having a first end, a second end, a bottom surface and a boundary wall, a first reservoir proximate to the first end of the grow field, wherein the first reservoir is configured to produce a waste nutrient stream, a second reservoir proximate to the second end of the grow field, wherein the second reservoir is configured to act as a settling tank for the produced waste nutrient stream; an Artificial Intelligence (AI) unit in connection with the grow field, reservoirs for providing a feedback for improving a growth rate of the cultivated plants or crops; and a controller in communication with the AI unit for receiving and processing output signals from at least one sensor and sending an assessment of a plurality of monitored parameters to the AI unit, based on the processed output signals.
Absstract of: WO2025228272A1
The present application provides a tower-type solar heat utilization system, comprising a heat utilization system and at least two tower-type solar heat collection systems, wherein at least one tower-type solar heat collection system is a characteristic tower-type solar heat collection system; each characteristic tower-type solar heat collection system further comprises a first low-temperature unit and a first low-temperature medium conveying module, and the first low-temperature unit receives, by means of a seventh pipe, a low-temperature heat storage medium outputted by a low-temperature heat storage medium output end of the heat utilization system. By using the design, the low-temperature heat storage medium outputted by the heat utilization system is conveyed in a segmented mode, so that the requirement on a driving capability of a driving device for driving the low-temperature heat storage medium in each seventh pipe to flow is reduced, and the cost is reduced.
Absstract of: WO2025228484A1
The invention relates to a system (100) for tracking solar panels with respect to the position of the sun, the system (100) comprising a support surface (110) for the solar panels; a column (120) for supporting the support surface (110); an axis of rotation (130), wherein the support surface (110) is mounted on the column (120) so as to be rotatable about the axis of rotation (130); and two hydraulic dampers (140), each acting linearly along a stroke axis, for damping a rotation of the support surface (110) relative to the column (120) about the axis of rotation (130), wherein the dampers (140) are connected to the support surface (110) and to the column (120) such that, when the support surface (110) rotates in a first direction of rotation, a first damper (140a) of the dampers (140) is compressed along the stroke axis thereof, while a second damper (140b) of the dampers (140) is elongated along its stroke axis. The dampers (140) damp a compression of the dampers (140) along their stroke axis with a compressive damping force and an elongation of the dampers (140) along the stroke axis thereof with a tensile damping force, wherein the compressive damping force is negligibly small compared to the tensile damping force. The invention also relates to a method for producing the system (100).
Absstract of: WO2025229353A1
A solar powered outdoor heater (100) comprises: a heat-collection apparatus configured to collect solar thermal energy and to heat a heat transfer liquid using the collected solar thermal energy; one or more heat-emitters, the one or more heat-emitters containing a conduit for the passage of the heat transfer liquid therethrough, and a heat-emitting surface configured to radiate thermal energy; a frame configured to support the one or more heat-emitters with the heat- emitting surface facing a heat-receiving area; and a pump (P1l, P2) which is operable to pump the heat transfer liquid through the one or more heat-emitters, so that heat is transferred from the heat transfer liquid to the heat-emitters, and the heat-emitters radiate thermal energy towards the heat-receiving area.
Absstract of: WO2025224719A1
The present invention relates to system for rapid anchoring between elements during the building of a structure comprising: (a) a mini-sleeve (MS) comprising at least a pair of bendable outer wings, where each of said outer wings is attached, at its top side, to a side of said MS at a protruding angle; and (b) a sleeve, larger than said MS, comprising at least a pair of bendable inner wings, where each of said inner wings is attached at its bottom side to a side of said sleeve at an angle, and where said inner wings correspond to said outer wings of said MS; wherein said sleeve is anchored and stabilized, by said outer wings of said MS and said inner wings of said sleeve, when said sleeve is dressed over said MS.
Absstract of: MA65150A1
La présente invention se rapporte à une technologie de système monobloc pour la production de leau chaude à travers lénergie solaire thermique pour une utilisation domestique sanitaire et industrielles. Il sagit plus précisément dune nouvelle génération de chauffe-eau solaire en circuit ouvert et en circuit fermé. Cette invention présente un concept d'une tour cylindrique et vertical qui rassemble tous les composants du chauffe solaire classique dans un seul bloc en respectant les règles de l'art et le beau design ce qui offre beaucoup d'avantages en termes despace et d'intégration ainsi quen termes damélioration du rendement et d'efficacité énergétique de façon générale. Cette silhouette traduit la valeur de la présente invention qui apporte les solutions essentielles pour un développement convenable de ce marché
Absstract of: US2025334351A1
A heating system including at least one thermal battery including a storage container for holding a fluid, an outlet fluid conductor through which the fluid exits the storage container, an inlet fluid conductor through which the fluid enters the storage container, a first valve interposed in the outlet fluid conductor; and a second valve interposed in the inlet fluid conductor, wherein each thermal battery is configured to be thermally chargeable and dischargeable by controlling the first valve and the second valve to allow a flow of the fluid in concert and to disallow a flow in concert.
Absstract of: US2025333631A1
The present disclosure is directed to a phase-change material (PCM) including a metal selected from cobalt and nickel and reacted units of 1,3,5-benzenetricarboxylic acid (BTC) for thermal energy storage and method of preparation thereof. The metal and the reacted units of the carboxylic acid form a metal-organic framework (MOF). The PCM further includes polyethylene glycol (PEG) present within a matrix of the MOF with a weight ratio of the metal organic framework to the polyethylene glycol from 10:1 to 1:10. The PCM of the present disclosure is in the form of agglomerated layers of wave-like sheets.
Absstract of: WO2025220977A1
The present invention relates to a solar absorber and a greenhouse system using same and, more specifically, to a solar absorber and a greenhouse system using same, the absorber absorbing solar radiant energy so that energy can be saved during cooling, and recycling the absorbed thermal energy to perform heating so that energy costs can be saved and greenhouse management efficiency can be improved. The solar absorber provided in a cultivation space, according to the present invention, comprises: a heat absorber for absorbing radiant energy of the cultivation space; a heat absorber accommodation part in which the heat absorber is embedded; and a cooling means for supplying a cooling medium to the heat absorber accommodation part in order to cool the heat absorber and the heat absorber accommodation part.
Absstract of: WO2025220038A1
The present invention discloses an expandable heat exchanger that contains a storage chamber/compartment (10) at the top and plurality of parallelly arranged heating tubes (9). The storage chamber (10) comprises two concentric tubes to separate the cold and hot fluid. The inner tube (8) provides passage to the cold air ingestion through the inlet port (13), into the tubular inner passage (11), the cold air directed into the heat observing tube (9). The hot (7) and cold (8) header chamber are in airtight connection with start unit (3), expandable unit (5) and exit unit (5) with the help of push fit bush assembly. The cold from all the units travels into the solar collector tube. Finally, the hot air from the collector tubes reaches back into the header compartment but in the outer shell (12), and then the hot air pumped out through the outlet port (14).
Absstract of: WO2025220761A1
The present invention relates to a cooling and heating system using a heat absorber for greenhouses, more specifically to a cooling and heating system using a heat absorber for a greenhouses that heats and cools by absorbing radiant energy when cooling is required and recycling the absorbed thermal energy when heating is required, thereby allowing energy costs to be reduced and greenhouses to be more effectively managed. The cooling and heating system using a heat absorber for greenhouses according to the present invention comprises: a greenhouse provided therein with a cultivation space; an energy absorption body installed in the greenhouse and equipped therein with a radiant energy absorption chamber; a heat absorption body, installed in the energy absorption body, for absorbing radiant energy inside the greenhouse; and a heat exchanger for subjecting the radiant energy absorbed by the heat absorption body to heat-exchange.
Absstract of: WO2025220977A1
The present invention relates to a solar absorber and a greenhouse system using same and, more specifically, to a solar absorber and a greenhouse system using same, the absorber absorbing solar radiant energy so that energy can be saved during cooling, and recycling the absorbed thermal energy to perform heating so that energy costs can be saved and greenhouse management efficiency can be improved. The solar absorber provided in a cultivation space, according to the present invention, comprises: a heat absorber for absorbing radiant energy of the cultivation space; a heat absorber accommodation part in which the heat absorber is embedded; and a cooling means for supplying a cooling medium to the heat absorber accommodation part in order to cool the heat absorber and the heat absorber accommodation part.
Nº publicación: EP4634581A1 22/10/2025
Applicant:
INTELLIHOT INC [US]
Intellihot, Inc
Absstract of: WO2024129535A1
A heating system including at least one thermal battery including a storage container for holding a fluid, an outlet fluid conductor through which the fluid exits the storage container, an inlet fluid conductor through which the fluid enters the storage container, a first valve interposed in the outlet fluid conductor; and a second valve interposed in the inlet fluid conductor, wherein each thermal battery is configured to be thermally chargeable and dischargeable by controlling the first valve and the second valve to allow a flow of the fluid in concert and to disallow a flow in concert.
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