3D inprimaketa

SOLAR HEAT COLLECTION SYSTEM

Resumen de: WO2025169570A1

A solar heat collection system 1 comprises a plurality of solar heat collection members 10 installed on an installation object 5 constituting a building 2. Each solar heat collection member 10 has a hollow part 10a, a light-receiving surface 10b, a facing surface 10c, and a non-heat-insulating part 10d for performing convection heat transfer with ambient air. Each solar heat collection member 10 is installed on the installation object 5 in an installation orientation in which the facing surface 10c is inclined with respect to the installation object 5 so as to form a space together with the installation object 5. The plurality of solar heat collection members 10 are arranged with a prescribed installation interval L therebetween.

OUTDOOR THERMAL ENERGY PANELS

Resumen de: WO2025166458A1

A thermal energy system includes an outdoor panel having a first surface exposed outwardly to an outdoor environment. The first surface is an emissive and reflective surface. The outdoor panel is in heat exchange relationship with an air passage adapted to be connected to a ventilation system of a building or process. A selective layer can be applied onto a second surface of the panel opposite to the first surface thereof. A system may be provided to pivot the panel from a first position in which the emissive surface faces the outdoor environment and a second position in which the selective surface faces the outdoor environment. The panel can be perforated and depression can be formed in the emissive surface to collect water between the perforations when the thermal panel is used in a cooling mode. The emissive and reflective side of the panel can be oriented to redirect solar radiations towards a solar collector to improve the performance thereof.

FOUNDATION MEMBERS FOR REACTIVE SOILS AND METHODS AND MACHINES FOR INSTALLING SAME

Resumen de: US2025257542A1

A method of embedding a threaded foundation component in ground with a layer of reactive soil with a combined drilling and driving machine includes: with an automated controller executing a control program, controlling the machine to begin an automated embedment operation to drive a threaded foundation component into a reactive soil; with the automated controller, controlling the machine to decouple a feed rate of the component from a rotary speed rate of the component to cause sheering of the soil around the foundation component by threads of the foundation component; and with the automated controller, controlling the machine to recouple the feed rate of the component to rotary speed rate of the component to reduce sheering of the soil around the foundation component by the threads of the foundation component until a target embedment depth for the foundation component is reached.

FLASHING PANEL FOR TILED ROOF

Resumen de: EP4600435A1

There is disclosed a flashing panel for covering an interruption in an interrupted tile layer of a tiled roof, the interruption being where a portion of a tile of the interrupted tile layer is removed, the flashing panel comprising: a panel base comprising a first base section and a second base section; and an offset portion connecting the first base section to the second base section, wherein: the offset portion is configured to extend away from the panel base; the flashing panel is firm; and the panel base is configured to lie on the interrupted tile layer, the offset portion is configured to be positioned in the interruption of the interrupted tile layer such that the offset portion lies closer to a lower tile layer than the panel base, the interrupted tile layer overlaid on and in contact with the lower tile layer.

Flashing panel for tiled roof

Resumen de: GB2637925A

There is disclosed a flashing panel for covering an interruption in an interrupted tile layer of a tiled roof, the interruption being where a portion of a tile of the interrupted tile 5 layer is removed, the flashing panel comprising: a panel base comprising a first base section and a second base section; and an offset portion connecting the first base section to the second base section, wherein: the offset portion is configured to extend away from the panel base; the flashing panel is firm; and the panel base is configured to lie on the interrupted tile layer, the offset portion is configured to be positioned in the 10 interruption of the interrupted tile layer such that the offset portion lies closer to a lower tile layer than the panel base, the interrupted tile layer overlaid on and in contact with the lower tile layer.

Calculation of Cooling/Heating Loads and Seasonal Thermal Energy Storage System Capacity for Melon Greenhouse using Energy Analysis Program

Resumen de: KR20250119819A

화석연료는 현대사회의 주요 에너지원이지만 CO2 배출로 인한 지구온난화와 기후변화의 중요한 원인이기도 하다. 2022년 전 세계 CO2 배출량은 36.8 기가톤으로 사상 최고치를 기록했다. 전 세계 국가들은 CO2 배출량을 줄이고 이를 산업화 이전 수준으로 유지하기 위해 노력하고 있다. 이에 우리나라는 화력발전을 완전히 중단하고 탄소배출량을 줄이는 등 탄소중립을 달성하기 위해 노력하고 있다. 농업 부문에서는 2018년 대비 탄소 배출량을 37.7% 줄이겠다는 목표를 세웠다. 한국의 대부분 농장은 온실 난방에 화석 연료를 사용한다. 이에 따라 농업부문에서도 온실가스 가열을 위한 화석연료의 대안으로 재생에너지를 활용하려는 관심이 높아지고 있다. 반면, 멜론은 다른 작물에 비해 성장에 더 높은 온도가 필요한 내열성 작물이며, 겨울에 온실에서 재배되는데 겨울철 난방을 위해 상당한 화석 연료가 필요한다. 따라서 멜론의 재배를 위하여 신재생에너지를 활용 화석연료의 소비를 줄일 필요가 있다. 상기와 같은 문제를 해결하고자, 여름 또는 겨울의 온실의 난방부하를 계산하는 작기난방부하 계산단계; 및 상기 작기 난방부하 계산단계에서 계산된 난방부하에 상기 작기 동안에 태양열 난방시스템에서 부담할 수 있는 냉난방�

FRACTAL TEXTURED HIGH EFFICIENCY SOLAR ABSORBER COATINGS

Resumen de: US2025251175A1

In one aspect, the disclosure relates to a solar absorber comprising light-absorbing multiscale fractal textured surfaces. The disclosure also relates to methods of making the same.

A METHOD OF INSTALLING A HEAT TRANSFER PANEL

Resumen de: WO2024069189A1

A method of installing a heat transfer panel to a building, the building including: a load bearing structure for bearing the load of the building and transferring the load to a foundation of the building; and a façade including a transparent element for permitting light to pass therethrough, wherein the transparent element has an internal side and an external side, and the method including: a) providing a heat transfer panel including a frame, and opposing first panel member and second panel members defining a chamber for receiving a fluid heat transfer medium; b) placing the heat transfer panel to the internal side of the transparent element so that least a portion of the heat transfer panel coincides with at least a portion of the transparent element to permit light passing through the transparent element to transfer energy to the heat fluid transfer medium during use; and after placing the heat transfer panel in step b), fixing the heat transfer panel relative to the façade.

Method of bioinsulating a solar collector module and collector module made using this method

Resumen de: PL447646A1

Przedmiotem zgłoszenia jest sposób izolacji kolektorów słonecznych i hybrydowych paneli PVT za pomocą bioizolacji w postaci włókien celulozowych pochodzących z recyklingu i kolektor, hybrydowy panel PVT wykonany tym sposobem. Sposób bioizolacji modułu kolektora słonecznego charakteryzuje się tym, że w tylnej zmontowanej części (2) obudowy kolektora wykonuje się co najmniej dwa otwory (8), a następnie kolektor ustawia się i mocuje w obrotowym precyzyjnym przyrządzie ustalająco-mocującym, po czym w pomieszczeniu o temperaturze minimum 20°C do 22°C, mocuje się przystawkę magnetyczną z rurą tłoczącą urządzenia tłocząco-dozującego włókna celulozowe do jednego z dwóch otworów (8) tylnej części (2) obudowy kolektora i wtłacza się, dozuje włókna celulozowe o gęstości 27 - 65 kg/m3 i wilgotności nie większej 23%, pod ciśnieniem do 350 mbar z prędkością maksymalnie 350 kg/h i równomiernie rozprowadza się je wypełniając przestrzeń pomiędzy tylną częścią (2) obudowy kolektora a zamontowaną folią (6) absorbcyjną, otaczając powierzchnię od dołu i z boku rur osadzonego absorbera (4) rurowego do minimum 55% średnicy rurek, tworząc zbitą warstwę izolującą bioizolacjną (5) maksimum do grubości 50 mm, a następnie po bioizolacji (5) powstałe otwory (8) uszczelnia się zatyczkami (9).

Konstruktive Bauelemente zur zerstörungsfreien Befestigung von Solartechnik, Dachlaufstegen und ähnlichem auf Biberschwanzdachdeckungen, ausgelegt für Windlastzone I-IVKIKI

Resumen de: DE102024004027A1

Schutzanspruch ist die jeweilige Bauform der Halter DD, DDKT, KD, KDKR und ADH gemäß den Ausführungszeichnungen für die Windlastzone 4- Die extrem schlanke Bauform der Halter DD und KD, bestehend aus einem Auflageblech, welches einteilig oder zweiteilig als Kantteil oder mehrteilig als Kant-Schweißteil hergestellt und wegen der flachen Bauform zwischen die auflagernden Dachziegel (zwischen Lagerziegel und Deckziegel) eingelegt werden kann, sowie die Verwendung des Halters ADH anstelle eines Dachsteines- Die Abmaße der Bauform aller Baueinzelteile können ggf. den Einsatzansprüchen und bauseits vorhandenen Dachsteinen angepasst werden

Halterungssystem zur Befestigung von Solartechnik, Photovoltaikanlagen, Dachlaufstegen und ähnlichem auf Biberschwanzdachdeckungen

Resumen de: DE102024002377A1

- Schutzanspruch ist die jeweilige Bauform der Halter DD, DDKT, KD, KDKR und ADH- Die extrem schlanke Bauform der Halter DD und KD, bestehend aus einem Auflageblech, welches einteilig oder zweiteilig als Kantteil oder mehrteilig als Kant-Schweißteil hergestellt und wegen der flachen Bauform zwischen die auflagernden Dachziegel (zwischen Lagerziegel und Deckziegel) eingelegt werden kann, sowie die Verwendung des Halters ADH anstelle eines Dachsteines- Die Abmaße der Bauform aller Baueinzelteile können ggf. den Einsatzansprüchen und bauseits vorhandenen Dachsteinen angepasst werden

SOLAR TABLE MOBILE TRANSPORT VEHICLE WITH RACK

Resumen de: WO2025160314A1

Embodiments of a solar table mobile transport vehicle capable of carrying multiple solar tables are described. Multiple solar tables may be vertically stacked on a rack. Each solar table may be supported by a pair of cantilevered beams such that the solar table may be unloaded from the rack in an unobstructed manner. The rack may be loaded on a mobile transport vehicle for transportation to a point of installation. Solar tables in the rack may be fetched by the mobile transport vehicle or another installation rover for installation. Such a capability of carrying multiple solar tables increases the installation efficiency of solar tables, especially for large solar farm constructions.

SISTEMA DE CAPTACION SOLAR DE ALTA EFICIENCIA CON DRENAJE AUTOMATICO

Beam-controlled spectral-selective architecture for a radiative cooler

Resumen de: AU2025205150A1

A passive cooler of the disclosure includes a thermal emitter having a substrate and a coating disposed on at least a portion of a first side of the substrate. The cooler has a beam guide made from a material having a high absorption to solar wavelengths and high reflectance 5 at mid-infrared wavelengths. The beam guide is configured such that at least a portion of incident light is acted on by the beam guide before reaching the thermal emitter. In some embodiments, the beam guide has a graded optical index. A passive cooler of the disclosure includes a thermal emitter having a substrate and a coating disposed on at least a portion of a first side of the substrate. The cooler has a beam 5 guide made from a material having a high absorption to solar wavelengths and high reflectance at mid-infrared wavelengths. The beam guide is configured such that at least a portion of incident light is acted on by the beam guide before reaching the thermal emitter. In some embodiments, the beam guide has a graded optical index. ul p a s s i v e c o o l e r o f t h e d i s c l o s u r e i n c l u d e s a t h e r m a l e m i t t e r h a v i n g a s u b s t r a t e u l a n d a c o a t i n g d i s p o s e d o n a t l e a s t a p o r t i o n o f a f i r s t s i d e o f t h e s u b s t r a t e h e c o o l e r h a s a b e a m g u i d e m a d e f r o m a m a t e r i a l h a v i n g a h i g h a b s o r p t i o n t o s o l a r w a v e l e n g t h s a n d h i g h r e f l e c t a n c e a t m i d - i n f

Combination Power Replenishment System for Off-Grid and 100% Carbon Free Re-fueling Station for HYDROGEN Vehicles and Re-Charging Station for Electric Vehicles

Resumen de: US2025236195A1

An innovative Combination Power Replenishment System for Off-Grid and 100% Carbon Free Re-fueling Station for Hydrogen Vehicles with optional Re-Charging Station for Electric Vehicles and supplemental solar cells as an electrical source. The Power Replenishment System for Hydrogen Vehicles includes a Hydrogen Electrolyzer; a hydrogen fuel cell for obtaining hydrogen; a flow battery; at least one Hydrogen storage tank, a hydrogen pump, a hydrogen compressor, and a group of piping, valves, fixtures, and controls interconnecting the system; at least one hydrogen fueling pump distribution component; and optionally at least one electric vehicle charger port for an a Off-Grid, hydrogen-based re-fueling system by a pump and an at least 100% Carbon Free hydrogen Re-fueling Station and for HYDROGEN Vehicles and Re-Charging Station for Electric Vehicles.

THERMOSYPHON SOLAR WATER HEATER WITH AUTOMATIC BACKFLUSH

Resumen de: WO2025153320A1

A thermosyphon solar hot water heating system specifically designed such that it incorporates an integral, automatic backflush configuration. When hot water is drawn from the system, an automatic backflush valve redirects cold "mains" water through the system's solar collector(s) in a flow direction that is opposite to the normal buoyancy-driven flow direction that occurs during solar heating (i.e., "charging"). This backflushing action is completed passively when heated water is consumed for domestic use and does not require other user intervention. The routine introduction of cold water through the solar collector during the backflush, reduces the formation of mineral deposits in the solar collector's flow passages and the reverse flow scours the interior surfaces of the solar collector's flow channels such that the potential of scaling is significantly reduced.

空洞隙間を有する温水器

Resumen de: WO2024021989A1

Disclosed in the present invention is a water heater with a cavity gap, the water heater comprising: a heat absorption member; a heat preservation barrel, which is used for storing water; a cavity gap, which is configured to separate the heat absorption member from the heat preservation barrel, wherein between the heat absorption member and the heat preservation barrel, the cavity gap comes into contact with a heat transfer portion of the heat preservation barrel; a heat preservation and transfer groove, which comprises the arrangement of the cavity gap, wherein a part of the heat absorption member extends into the heat preservation and transfer groove; and a heat transfer member, which is arranged in the heat preservation and transfer groove and transfers heat of the heat absorption member to the cavity gap. By using the cavity gap to isolate the heat absorption member and the heat preservation barrel, the heat preservation effect at night is improved, and the heat preservation performance requirement for the heat absorption member is low; and the performance requirement for the material of the heat absorption member is low, such that the manufacturing cost is relatively low.

ORGANIC RANKINE CYCLE FOR DATA CENTER ELECTRONICS COOLING AND THERMAL ENERGY RECOVERY

Resumen de: WO2025151434A1

A technique for recovering power from data center waste heat involves an organic Rankine cycle which includes pumping an organic working fluid through a low-temperature preheater chamber configured to exchange relatively low-temperature waste heat from low-temperature data storage devices to the organic working fluid flowing through the preheater chamber, pumping the working fluid through a high-temperature evaporator thermally coupled with the preheater chamber and configured to exchange relatively high-temperature waste heat from high-temperature CPUs to the working fluid flowing through the evaporator, and pumping the working fluid vapor from the evaporator to an expander for generating power via expansion of the working fluid. The preheater and evaporator may be directly incorporated with the enclosure box housing the various heat-generating components.

IN-ROOF SOLAR-THERMAL-PANEL FRAME AND SYSTEM

Resumen de: EP4585865A1

There is provided an in-roof-solar-thermal-panel frame (12) suitable for the receiving of a solar-thermal-panel (26) therein, thereby forming an in-roof solar-thermal-panel system (10). The in-roof-solar-thermal-panel frame (12) has a roof cover connector (18) having a roof-cover-seal receiver (34) that is engageable with a roof-cover seal (36). The roof-cover seal (36) engages with a roof cover in such a way that permits the solar-thermal-panel (26) to sit flush with respect to the exterior roof structure (50).

METHOD AND SYSTEM FOR DETERMINING SOLAR ACCESS OF A STRUCTURE

Resumen de: AU2025204551A1

Methods and systems are disclosed that automatically determine solar access values. In one implementation, a 3D geo-referenced model of a structure is retrieved in which geographic location on the earth of points in the 3D geo-referenced model are stored or associated with points in the 3D geo-referenced model. Object point cloud data indicative of object(s) that cast shade on the structure is retrieved. The object point cloud data may be generated from one or more georeferenced images and the object point cloud data is indicative of an actual size, shape, and location of the object(s) on the earth. The structure in the 3D geo-referenced model is divided into one or more sections, which are divided into one or more areas, each area having at least three vertices. Then, a solar access value for the particular vertex is determined. Methods and systems are disclosed that automatically determine solar access values. In one implementation, a 3D geo-referenced model of a structure is retrieved in which geographic location on the earth of points in the 3D geo-referenced model are stored or associated with points in the 3D geo-referenced model. Object point cloud data indicative of object(s) that cast shade on the structure is retrieved. The object point cloud data may be generated from one or more georeferenced images and the object point cloud data is indicative of an actual size, shape, and location of the object(s) on the earth. The structure in the 3D geo-referenced model is div

SYSTEMS AND METHODS FOR INCREASING ENERGY HARVESTING OF SOLAR HYDRONIC WATER HEATING SYSTEMS FOR SWIMMING POOLS

Resumen de: US2025224146A1

A pool system may include a solar heating system for heating water of a swimming pool or spa comprising. The solar heating system includes a collector which may receive water from the swimming pool or spa and heat a flow of water from the swimming pool or spa using solar radiation. The solar heating system includes one or more control devices, which may control a flow rate of water through the solar heating system and/or a pressure of water through the solar heating system.

SYSTEMS AND METHODS FOR INCREASING ENERGY HARVESTING OF SOLAR HYDRONIC WATER HEATING SYSTEMS FOR SWIMMING POOLS

Resumen de: WO2025146649A1

A pool system may include a solar heating system for heating water of a swimming pool or spa comprising. The solar heating system includes a collector which may receive water from the swimming pool or spa and heat a flow of water from the swimming pool or spa using solar radiation. The solar heating system includes one or more control devices, which may control a flow rate of water through the solar heating system and/or a pressure of water through the solar heating system.

METAL ROOFING PANEL

Resumen de: EP4582645A1

Metalldachplatte (1) mit einer, insbesondere rechteckigen, Deckfläche (2) und auf zwei gegenüberliegenden Seiten der Deckfläche (2) ausgebildeten Auflageflächen (3,3') für Dachziegel (4), wobei zwischen der Deckfläche (2) und den Auflageflächen (3,3') jeweils ein über die Deckfläche (2), insbesondere rechtwinkelig, auskragender Verbindungsteg (5,5`)angeordnet ist und die Auflagefläche (3,3') jeweils auf dem, einem auskragenden Ende (16) des Verbindungsstegs (5, 5') gegenüberliegenden Ende (15) des Verbindungstegs (5,5') anschließt, wobei wenigstens bei einem Verbindungssteg (5,5') der Abstand (a) von der Auflagefläche (3,3') zum auskragenden Ende (16) des Verbindungsstegs (5,5') größer ist als der Abstand (b) von der Deckfläche (2) zum auskragenden Ende (16) des Verbindungsstegs (5,5').

Solar-thermal module

Resumen de: NL4000099A

1 9 System for supplying and/or extracting energy to/ from a building comprising: - a building temperature control system for controlling an internal temperature in the building, wherein said building temperature control system comprises a primary heat transfer system comprising at least one heat transfer member for transferring thermal energy between a thermal transfer liquid and an interior of the building; - a thermal energy storage system for providing thermal energy to, and/ or extracting thermal energy from, the building; wherein said thermal energy storage system comprises a hot liquid storage well and a cold liquid storage well, both comprising a first liquid therein and a secondary heat transfer system that is arranged to transfer energy between the thermal energy storage system and the thermal transfer liquid of the primary heat transfer system, wherein said secondary heat transfer system is arranged for keeping the first liquid separated from the thermal transfer liquid, and wherein the secondary heat transfer system is arranged in between the cold and hot liquid storage wells, such that the first liquid is arranged to flow through the secondary heat transfer system, from the hot liquid storage well to the cold liquid storage well, and vice versa, for exchanging thermal energy; - at least one solar-thermal module that is operatively coupled to the building temperature control system, such that thermal transfer liquid may selectively flow through the solar-thermal

TRAPZOIDAL RIB MOUNTING BRACKET

Nº publicación: AU2025204492A1 03/07/2025

Solicitante:

RMH TECH LLC
RMH Tech LLC

Resumen de: AU2025204492A1

A mounting bracket (320) for trapezoidal rib profiles is disclosed. This mounting bracket (320) includes an upper section (330) and a lower section (350). A first leg (352a) in a second leg (352b) extend from a lower portion of the upper section (330) in diverging relation to one another. Each of these legs (352a, 352b) is deflectable through a certain range of motion to accommodate installation of the mounting bracket (320) on a variety of different 5 trapezoidal rib profiles. A mounting bracket (320) for trapezoidal rib profiles is disclosed. This mounting bracket (320) includes an upper section (330) and a lower section (350). A first leg (352a) in a second leg (352b) extend from a lower portion of the upper section (330) in diverging relation to one another. Each of these legs (352a, 352b) is deflectable through 5 a certain range of motion to accommodate installation of the mounting bracket (320) on a variety of different trapezoidal rib profiles. un m o u n t i n g b r a c k e t ( ) f o r t r a p e z o i d a l r i b p r o f i l e s i s d i s c l o s e d h i s m o u n t i n g b r a c k e t ( ) i n c l u d e s a n u p p e r s e c t i o n ( ) a n d a l o w e r s e c t i o n ( ) f i r s t l e g ( a ) i n a s e c o n d l e g ( b ) e x t e n d f r o m a l o w e r p o r t i o n u n o f t h e u p p e r s e c t i o n ( ) i n d i v e r g i n g r e l a t i o n t o o n e a n o t h e r a c h o f t h e s e l e g s ( a , b ) i s d e f l e c t a b l e t h r o u g h a c e r t a i n r a n