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基于太阳能驱动液氨催化制氢的冷热电联产系统及方法

Resumen de: CN120845956A

本发明公开了一种基于太阳能驱动液氨催化制氢的冷热电联产系统及方法，属于能源工程领域，高温太阳能集热器利用太阳能驱动液氨分解，液氨分解气依次进入第一预热器、第一换热器和第二换热器；液氨分解气经过换热后进入氢气净化与分离单元进行提纯，提纯后的氢气输送至发电单元的阳极，与空气进行反应发电，发电单元的阴极废气流入第三换热器；动力循环单元的工作物质吸收液氨分解气的热量后驱动发电机发电，驱动发电后的工作物质依次流入预冷器和第二冷凝器进行热交换，冷却后的工作物质再次进入第一换热器内。本发明引入太阳能驱动液氨催化分解制氢供应氢气，通过构建联产系统回收利用分解气与HT‑PEMFC电堆中的余热，实现能量的梯级利用和零碳排放。

太阳能变频热水器及其加热方法

Resumen de: CN120845940A

本申请提供一种太阳能变频热水器及其加热方法，涉及热水器技术领域。太阳能变频热水器的加热方法通过建立在无光照时不同环境温度的所对应的热泵加热速度曲线，获取当前环境温度、当前加热速度和当前热泵频率，将当前加热速度与当前环境温度在热泵加热速度曲线内对应的热泵加热速度的大小并根据比较结果判断是否需要调整当前热泵频率，从而实现了根据当前的太阳光强弱适应性地调整热泵频率，避免了当太阳光过强时热泵频率较高导致的能源浪费问题或当太阳光较弱时热泵频率较低导致的热水量供应不足的问题，提高了能源利用效率，确保了稳定的热水供应。

简捷高效阳光高热机

Resumen de: WO2025218579A1

The simple and efficient high solar heating machine of the present invention relates to the field of solar energy medium‑ to high‑temperature and high-efficiency utilization. The simple and efficient high solar heating machine consists of a dual‑axis automatic sun‑tracking machine, back-spraying vacuum tubes, and a grid-plate-type or glasses-frame-type linear focusing condenser which are integrated using a lightweight, low-cost frame structure in which two newly invented motion-to-static converters are used to connect two vacuum tubes to form a rod mechanism and a medium pipeline component that is communicated with the external environment. The present invention provides the motion-to-static converter capable of transforming an external interface of dual-axis sun-tracking high-amplitude motion into an absolutely stationary interface, thereby eliminating all dynamic sealing steps that pose fire hazards. Therefore, the absolute safety of heat conduction oil can be ensured. A light frame is also invented, so that the cost is greatly reduced. The simple and efficient high solar heating machine can be used in the field of solar energy medium‑ to high‑temperature thermal power generation or heat supply, for example, solar energy is used for producing high-temperature and high-pressure steam. The simple and efficient high solar heating machine overcomes the shortcomings of current trough-type or Fresnel-type solar thermal power generation or heat supply, such as high cos

一种槽式光热光伏电站与砂厂复合的安装结构及其方法

Resumen de: CN120830942A

本发明公开了一种槽式光热光伏电站与砂厂复合的安装结构及其方法，该安装结构旨在解决现有技术下槽式聚光镜的安装与调节相对困难，无法适应砂厂钢构棚顶部的坡度，且无法根据光照角度进行灵活调节，影响了光热光伏电站的光能利用效率的技术问题。该安装结构包括砂场钢构棚，砂场钢构棚的顶部安装有槽式太阳能热发电组件，槽式太阳能热发电组件包括纵向支撑板，纵向支撑板的顶部设置有可转动的底部支撑管，本发明通过一系列设计，能够实现槽式聚光镜的便捷安装与拆卸，且能够适应砂厂钢构棚顶部的坡度，使得槽式聚光镜的角度能够进行调节，从而提高光热光伏电站的光能利用效率。

一种节能环保房屋及其使用方法

Resumen de: CN120830357A

本发明属于节能环保房屋技术领域，具体涉及一种节能环保房屋及其使用方法，房屋包括房屋框架、带门嵌装板、透明嵌装板和液流控制站；房屋框架是由型材搭建而成的框架结构；房屋框架下方预设有混泥土基础，房屋框架固定在混凝土基础上；所述若干透明嵌装板拼装在房屋框架上，并构成房屋的侧墙和房顶；透明嵌装板内设置有充液腔；液流控制站与各个透明嵌装板的充液腔分别相连，以向充液腔中充入不同颜色的液体，对房屋进行控温。本方案中的结构能够灵活的拼装和拆卸，具有较高的灵活性，方便于移动；透明嵌装板内部能够充入不同颜色的液体，从而对太阳光进行吸热、反光或透光，便于在不同场景下，改变对太阳光的利用策略，实现节能环保。

新奇轻便太阳锅炉机

Resumen de: WO2025218577A1

Provided is a solar boiler apparatus, comprising a dual-axis automatic solar tracker, a vacuum tube heat collector, and a grid-type or mirror-frame-type point-focus concentrating mirror. The vacuum tube heat collector comprises a medium piping component connected to the outside. A rod mechanism is used for fixation. The solar boiler apparatus further comprises two motion-static converters (14, 20) for converting bidirectional large motions in the azimuth angle direction and the elevation angle direction into completely static external interfaces. The solar boiler apparatus is used in fields of efficient and low-cost solar thermal power generation, hydrogen production, or heat supply. The rod mechanism replaces a complex and heavy frame, reducing cost. Arrangement of the two motion-static converters (14, 20) eliminates dynamic seals on piping, ensuring safety.

SIMPLE AND EFFICIENT HIGH SOLAR HEATING MACHINE

Resumen de: WO2025218579A1

The simple and efficient high solar heating machine of the present invention relates to the field of solar energy medium‑ to high‑temperature and high-efficiency utilization. The simple and efficient high solar heating machine consists of a dual‑axis automatic sun‑tracking machine, back-spraying vacuum tubes, and a grid-plate-type or glasses-frame-type linear focusing condenser which are integrated using a lightweight, low-cost frame structure in which two newly invented motion-to-static converters are used to connect two vacuum tubes to form a rod mechanism and a medium pipeline component that is communicated with the external environment. The present invention provides the motion-to-static converter capable of transforming an external interface of dual-axis sun-tracking high-amplitude motion into an absolutely stationary interface, thereby eliminating all dynamic sealing steps that pose fire hazards. Therefore, the absolute safety of heat conduction oil can be ensured. A light frame is also invented, so that the cost is greatly reduced. The simple and efficient high solar heating machine can be used in the field of solar energy medium‑ to high‑temperature thermal power generation or heat supply, for example, solar energy is used for producing high-temperature and high-pressure steam. The simple and efficient high solar heating machine overcomes the shortcomings of current trough-type or Fresnel-type solar thermal power generation or heat supply, such as high cos

BUILDING ENVELOPE COVERING SYSTEMS AND COMPONENTS

Resumen de: AU2024231179A1

An aspect of the present invention provides a building tile made from a plastic material, having a top surface and a bottom surface and generally comprising a top section and a bottom section, and wherein the top section of the building tile is configured to interlock with the top section of adjacent building tiles in a horizontal row and the bottom section of another building tile positioned above it in a vertical row, and the bottom section of the building tile is configured to interlock with the bottom section of adjacent building tiles in a horizontal row.

Hybrid Solar Panel and Photovoltaic and Thermal Roof

Resumen de: US2025330113A1

A hybrid-type solar panel comprising a structure suitable for making a photovoltaic panel, a thermal panel, a watertight roof, an electric storage, all integrated in a basic structure (20). A roof for a house is also provided.

Verfahren zur Vermessung einer verstellbaren Spiegelfläche

Resumen de: DE102024110927A1

Verfahren zur Vermessung einer Spiegelfläche (5) eines Reflektors (3) mit folgenden Schritten:a) Bereitstellen eines steuerbaren Fluggeräts (7) mit einer Kamera (9), und eines stationären Markers (11) mit vorgegebener Position, der von der Spiegelfläche (5) des Reflektors (3) reflektiert wird,b) Aufnahme eines Bildes der Spiegelfläche (5) des Reflektors (3) an einer Position des steuerbaren Fluggeräts (7) oberhalb des Reflektors (3),c) Auswerten des Bildes und Bestimmung eines Reflexes (13) des Markers (11) auf der Spiegelfläche (5) in dem Bild,d) Abschätzen einer Position des Reflexes (13) des Markers (11) auf der Spiegelfläche (5), wobei über die abgeschätzte Position des Reflexes (13) des Markers (11) auf der Spiegelfläche (5) und die Position des steuerbaren Fluggeräts (7) ein Reflexvektor (16) abgeschätzt wird,e) Steuern des steuerbaren Fluggeräts (7) mittels des abgeschätzten Reflexvektors (16) zu einer neuen Position, die weiter von der Spiegelfläche (5) entfernt ist als die vorangegangene Position,f) Aufnahme eines Bildes der Spiegelfläche (5) des Reflektors (3) an der neuen Position,g) Wiederholen der Schritte c) bis f) bis zu einem Abbruchkriteriums,h) Bestimmung des Normalenvektors (17) aus der Position des steuerbaren Fluggeräts (7), der Position des Markers (1) sowie der letzten abgeschätzten Position des Reflexes (13) auf der Spiegelfläche (15),i) Bestimmung eines Kalibrierpunkts des Reflektors (3) mit dem bestimmten Normalenvektor (17).

MOUNTING BRACKET SYSTEM FOR SOLAR PANELS AND SOLAR PANEL COMPRISING THE SAME

Resumen de: WO2025218946A1

Disclosed is mounting bracket system (100, 402, 502) for solar panels (102A-C), mounting bracket system comprising sealing profile (104, 202) configured to be attached to side (106) of solar panel (102A, 400, 500), wherein cross-section (200) of sealing profile comprising sealing profile base (204) having first end (206) and second end (208), upper part (210) having third end (212) and fourth end (214), and first dividing wall (218) having first side (220) and second side (222); and fixing profile (108, 302) arranged to accommodate corner (110) of solar panel, wherein cross-section (300) of fixing profile comprising U-shaped upper part (304) having bottom part (306), first arm (308) and second arm (310), reinforcement wall (312) connected to second arm, second dividing wall (314) connected to second arm, and fixing profile base (316) having fifth end (318) and sixth end (320), wherein gap (322) is formed between reinforcement wall, second dividing wall and fixing profile base.

NOVEL AND LIGHTWEIGHT SOLAR BOILER APPARATUS

Resumen de: WO2025218577A1

Provided is a solar boiler apparatus, comprising a dual-axis automatic solar tracker, a vacuum tube heat collector, and a grid-type or mirror-frame-type point-focus concentrating mirror. The vacuum tube heat collector comprises a medium piping component connected to the outside. A rod mechanism is used for fixation. The solar boiler apparatus further comprises two motion-static converters (14, 20) for converting bidirectional large motions in the azimuth angle direction and the elevation angle direction into completely static external interfaces. The solar boiler apparatus is used in fields of efficient and low-cost solar thermal power generation, hydrogen production, or heat supply. The rod mechanism replaces a complex and heavy frame, reducing cost. Arrangement of the two motion-static converters (14, 20) eliminates dynamic seals on piping, ensuring safety.

FLOATING SOLAR ENERGY PRODUCTION DEVICE

Resumen de: AU2023397954A1

Floating device for solar energy production comprising a plurality of connected solar panels (31) arranged at the surface of a polyhedron structure (11) with a top end (12) and a bottom end (13) defined by a frame structure av pipe elements (14) connected to one another at nodes (15) to form polygonal areas (16) constituing the areas at the suraface of the polyhedron structure (11) in which the solar panels (31) are mounted. Within the interior of said polyhedron structure(11), a central buoyancy body (20) is arranged in a manner allowing vertical displacement thereof.

A TOTAL INTERNAL PHOTONIC ABSORPTION HEXAGONAL SYSTEM

Resumen de: CN120569598A

A total internal photon absorption hexagonal system (100) is provided that includes a body (100), a plurality of solar cell strips (104), a dome (106) with staggered steps, an optional biconcave lens (108), a conical mirror (110), and a bottom cover (112). The body (102) has a first end, a second end, an inner surface, and an outer surface, where the first end is open to allow light to pass therethrough. A plurality of solar cell strips (104) are disposed on an inner surface of the main body (102) to form a hexagonal pattern. A dome (106) with staggered steps is disposed at a first end of the body (102), where the dome (106) with staggered steps refracts incident light into an opening disposed at the first end of the body (102). A biconcave lens (108) is disposed at a first end of the body (102) to refract light from the dome (106) having staggered steps toward the solar cell strip (104). A conical mirror (110) is disposed at the second end of the body (102) to reflect incident light toward the solar cell strip (104). A bottom cover (112) is disposed at the second end of the body (102) to provide a flat bottom.

Float structure

Resumen de: GB2640468A

A modular floating support structure system for supporting solar panels. The system is formed of a plurality of float elements 100, each having top and bottom walls (110 and 120, Fig 5) spaced apart by a side wall 130 extending around at least part of the periphery of the float element. The top and bottom walls each comprising respective engagement formations 160. A clamp (200, Fig 13) is configured to join first and second adjacent float elements. The clamp has a first engagement formation (260, Fig 13) configured to engage with the top-engagement formation of the first float element and also the top-engagement formation of the second float element, and a second engagement formation (260, Fig 13) configured to engage with the bottom-engagement formation of the first float element, and also the bottom-engagement formation of the second float element.

一种太阳能定日镜

Resumen de: CN120819919A

本发明涉及太阳能光热发电技术领域，公开了一种太阳能定日镜。该太阳能定日镜包括：第一子镜、绕第一子镜周侧分布的至少两个第二子镜、支撑架、立柱和跟踪机构，立柱的轴心线与地面垂直，支撑架设于立柱的顶部，跟踪机构用于驱动支撑架动作，第一子镜和第二子镜设于支撑架背离所述立柱的一侧，第一子镜与支撑架固定连接，每个第二子镜朝向第一子镜的边部与支撑架转动连接，第二子镜的转动轴线与自身和第一子镜的排列方向垂直、且与第一子镜的镜面平行，第二子镜远离第一子镜的部位设有支撑部，支撑架通过一个调节件与支撑部连接。该太阳能定日镜能够实现快速调整焦距，且定位精度较高，有利于提高定日镜的聚焦精度。

光伏光热热泵系统及其控制方法、电子设备、存储介质

Resumen de: CN120819911A

本发明公开了一种光伏光热热泵系统及其控制方法、电子设备、存储介质，所述光伏光热热泵系统包括：压缩机、光伏光热组件、充电桩、换热器、水箱及控制器；光伏光热组件设置在充电桩的外壳上；压缩机输出的冷媒依次经过冷媒泵、光伏光热组件的光热端、换热器的冷媒通路，再次回到压缩机，以对光伏光热组件的光伏端及充电桩进行散热；水箱内的水依次通过水泵、第一电磁阀、换热器的水通路，再次回到水箱，以对水箱内的水加热；水箱内设有温度传感器，以获取水箱内水的温度，控制器根据获取的水箱内水的温度控制第一电磁阀与水泵的启闭。本发明不仅能够给充电桩降温，还增加了额外的热源，提高冷媒与水的换热效率，能够满足不同场合的需求。

一种斜屋顶光聚焦季节性储能建筑

Resumen de: CN120819918A

本发明公开了建筑技术领域内的一种斜屋顶光聚焦季节性储能建筑，包括屋顶结构、外墙结构、地板结构和蓄热舱体；屋顶结构包括相互耦合设置菲涅尔大透镜与菲涅尔小透镜，菲涅尔小透镜设置在平行光保温空心柱上方；蓄热舱体位于地板结构下方，蓄热舱体包括蓄热舱壳体和金属顶板，平行光保温空心柱安装在金属顶板上方，平行光保温空心柱下端连接有导热空心柱，导热空心柱外设有若干散热金属片，导热空心柱和散热金属片位于蓄热舱壳体和金属顶板围合成的空间内，空间内充填有蓄热相变材料。其通过菲涅尔大透镜、菲涅尔小透镜及蓄热相变材料，实现夏季蓄热冬季放热，可改善室内热环境质量和人体舒适性。该方案建造的储能建筑可作为通用建筑使用。

一种用于塔式太阳能热电站的定日镜方位转角驱动装置

Resumen de: CN120819920A

本发明公开了一种用于塔式太阳能热电站的定日镜方位转角驱动装置，涉及太阳能发电技术领域，包括底座、电性连接在底座上的支撑柱、对称设置在底座一端的设置的淋喷头、设置在支撑柱外壁的第一电机以及转动设置在支撑柱顶部并通过皮带与第一电机输出端转动连接的转向齿轮，还包括套设在转向齿轮上用于驱动定日镜转角追光的转角驱动结构、与转角驱动结构端部相固定连接的轴杆、设置在轴杆端面镜面翻转结构以及套设在轴杆上用于清理定日镜镜面的振动清洁结构，所述转向齿轮上套设有连接架。通过本发明，解决了目前，常见的定日镜镜面清洁方式大多为外部淋喷式清洁。由于镜面清洁工作量大且难度高，人工清洁成本在电站运维费用中占比超过30%，给电站的运营带来了沉重的经济负担的问题。

一种组合式太阳能发电阵列及其安装方法

Resumen de: CN120825109A

本发明提供一种组合式太阳能发电阵列及其安装方法，涉及太阳能发电技术领域。该种组合式太阳能发电阵列，包括支架、中心轴、两个太阳能板以及若干背块，所述中心轴固定设置在支架上，若干所述背块分别固定设置在中心轴侧壁，两个所述太阳能板分别活动设置在若干背块上；所述太阳能板为双层设计，顶层为二向色镜，底层为光伏组件，所述太阳能板为弧形设计，两个所述太阳能板之间铰接在一起，所述太阳能板面向背块一侧侧壁固定设置有若干凸块。本发明通过在支架上设置可以滑动的太阳能板以及聚热管，使得太阳能发电阵列可以将光热也利用起来，提高对太阳光利用效率的同时，还能降低太阳光热对太阳能板的影响。

Generador termo eléctrico solar integrado que genera energía térmica y energía eléctrica a partir de la combinación de concentradores parabólicos compuestos de canal, concentradores parabólicos compuestos 3d, concentradores circulares fresnel por refracción y paneles fotovoltaicos

Resumen de: CO2025010970A1

La presente invención se refiere a un sistema generador termo eléctrico solar integrado que genera energía térmica y energía eléctrica a partir de la combinación de concentradores parabólicos compuestos de canal, concentradores parabólicos compuestos 3D, concentradores circulares Fresnel por refracción y paneles fotovoltaicos. El sistema comprende un subsistema Infraestructura de trayectoria (1) el cual es la base del sistema y debe estar completamente horizontal; un Subsistema Concentrador Solar Híbrido (2) está formado por un Concentrador Parabólico Compuesto 3D (1.2.2) dividido en dos secciones y colocado en los extremos de un Concentrador Parabólico Compuesto de Canal, un Subsistema Bastidor Autopropulsado (4) que soporta el Subsistema Concentrador Solar Híbrido (2) y un Subsistema Acumulador de Energía que incluye un Acumulador Térmico y un acumulador de energía eléctrica formado por baterías, ambos trabajarían de forma independiente.

一种聚光叠层太阳光利用系统及其使用方法

Resumen de: CN120799720A

本发明提供了一种聚光叠层太阳光利用系统及其使用方法，包括自上而下依次设置的半透明光伏电池组件、点式凸透镜聚光器阵列、微型集热器单元、热流体管路和储热/化学反应模块；半透明光伏电池组件安装在系统顶部；点式凸透镜聚光器阵列设置于半透明光伏电池组件下方，微型集热器单元中每个集热器位于点式凸透镜聚光器阵列中对应聚光器的焦点位置；热流体管路用于输送微型集热器单元收集的热量至所述储/化学反应模块。本发明通过半透明光伏电池组件实现光电转化，点式凸透镜聚光器阵列二次聚焦提升光热密度，微型集热器单元高效集热，热流体管路与储热/化学反应模块协同，实现太阳能光谱分工与梯级利用，为太阳能综合利用提供高效解决方案。

一种新型陶瓷绝缘油浸式变压器

Resumen de: CN120809441A

本发明提供一种新型陶瓷绝缘油浸式变压器，涉及变压器技术领域，包括变压器壳体，所述变压器壳体内部开设有主储油箱，所述主储油箱内部设有变压器线圈，所述变压器壳体内部设有换热油箱，所述换热油箱上开设有外部储油箱，所述换热油箱上方设有光照热量收集板，所述光照热量收集板外部为石墨烯基导热涂层，所述变压器壳体内部设有展开机构，所述展开机构能够自动识别外部环境，本发明中，通过设有展开机构，能够依据外部环境自动调节动作，当光线传感器检测到太阳光照时，可推动换热油箱向外移动，并带动光照热量收集板展开以吸收太阳能；当光照结束后，又能将换热油箱收回至主储油箱内，同时让光照热量收集板翻转，使换热箱保温板朝向内部。

一种循环式太阳能光伏光热热泵四联供系统

Resumen de: CN120799767A

本发明属于太阳能利用与建筑暖通空调技术领域，提供了一种循环式太阳能光伏光热热泵四联供系统，包括水源热泵机组、PV/T组件、生活热水水箱、空调水箱、风冷热泵机组、光伏逆变器、水源热泵一次循环泵；本发明通过PV/T组件与水源热泵机组、风冷热泵机组等核心设备有机整合，借助介质回路切换组件和截止组件实现不同季节、不同工况下的精准控制，整合“制冷、制热、制热水、发电”四联供功能，不仅提升了光伏发电效率，还大幅减少了能量浪费，提高了系统综合能效，同时避免了传统系统因工况频繁切换导致的设备损耗，延长了使用寿命，且集成化设计减少了独立系统的安装空间与成本，适用于多种建筑场景，符合建筑节能与可再生能源利用的需求。

一种利用膜结构材料进行光热采储的综合利用系统

Nº publicación: CN120799723A 17/10/2025

Solicitante:

武汉速安达建筑橡塑制品有限公司

Resumen de: CN120799723A

本发明公开了一种利用膜结构材料进行光热采储的综合利用系统，包括集热器，集热器的入口端连接前置加热袋，初步加热后的介质经过集热器加热后进入高温储热水袋储存，高温储热水袋为采用膜结构制成的柔性储热容器，高温储热水袋的介质经过散热器后用于对低温仓室加热，高温储热水袋的介质经过溴化锂制冷模组后用于对低温仓室制冷，高温储热水袋里的介质可以通过高温热泵进行补能且经过高温热泵加热的介质可以直接用于对高温仓室进行供热。该太阳能综合利用系统采用膜结构材料作为储热设备，生产成本低并且成型状态灵活多变，采用槽式/蝶式集热器作为太阳能的采集设备，能够有效提高太阳能的热能转化效率，能够显著提高太阳能的开发利用成本。