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148
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Updated on
19/04/2026 [06:47:00]
Absstract of: CN121876593A
本发明涉及一种闷晒式太阳能平板集热器,属于平板集热器技术领域,包括底座,所述底座的顶部设置有该太阳能平板集热器整体进行控制的控制装置,所述,所述底座的顶部且位于控制装置的外侧设有保证时刻直面阳光的调节组件,所述调节组件顶部设有对阳光热量进行吸收的集热器本体,所述底座的底部设有调整底座所在方位的旋转装置,所述底座的顶部设有两个电流传感器,所述底座的顶部且位于靠近底座前后两侧方位均设置有太阳能电池板,两个所述太阳能电池板的输出端分别与两个电流传感器的输入端电连接。该闷晒式太阳能平板集热器,通过调节组件和旋转装置,确保集热器始终直面阳光,最大化吸收太阳能,配合判断部对集热器本体是否正对阳光进行检测。
Absstract of: CN121867146A
本发明公开了一种热泵与太阳能耦合的海洋牧场养殖温床装置;本发明涉及海洋牧场养殖温床技术领域;安装于养殖池4内的温床管组件3,以及对温床管组件3输入热能的热源组件1,还包括提供用于传递热能的流动媒介的中继组件2;温床管组件3呈回字形螺旋排布于养殖池4内。太阳能集热器通过抛物面反射镜与选择性吸收涂层实现光热高效转换,热泵机组通过逆卡诺循环实现低品位热能向高品位热能的转化,二者通过三通比例调节阀实现热能流量智能分配。中继组件采用闭式循环系统构造,液箱通过双层保温结构减少热损失,循环水管内置螺旋扰流片增强湍流换热,流动媒介根据环境条件动态适配(如乙二醇水溶液防冻、导热油耐高温),确保热能传递效率。
Absstract of: CN121876594A
本发明公开了一种电力保障户外用电源及操控方法,所述主壳体底部设有水平的风筒,所述风筒内壁前部固定有竖直的支撑架,所述支撑架中部转动连接有水平的空心轴,且上部转动连接有水平的二号轴,所述主壳体中部转动连接有水平的一号轴,且内壁固定有竖直的直流电机,所述主壳体前后两端各固定有两个上铰接座和两个上扣接座。本发明通过发电组件、挡风组件、鼓风管、放置架和支撑臂等的配合,能够实现鼓风机和太阳能灶的功能,从而能够辅助进行烹饪,且与直流电机配合能够充当风扇进行使用,从而能够提高野炊时的舒适性,而传动组件具有铲子和锄头的功能,便于进行掘土作业,方便进行埋锅造饭等,从而方便进行野炊。
Absstract of: CN121876595A
本发明涉及光伏发电技术领域,具体为一种太阳能集热及光伏发电系统,包括光伏架和集热发电板,集热发电板固定于光伏架上,还包括驱动机构、反光机构和保养机构,反光机构转动设置于光伏架较低一侧,并能够完全覆盖集热发电板,反光机构与光伏架组成壳体,保护集热发电板不受风沙侵蚀,驱动机构设置于反光机构靠近光伏架的一侧,保养机构与驱动机构连接,并能够由驱动机构驱动在反光机构与集热发电板的接触面之间移动,去除集热发电板和反光机构表面污垢,在集热发电板表面形成密封,阻止风沙吹入,在白天时,刷布移动至靠近集热发电板的一侧,反光镜将光线反射至集热发电板表面,提高集热发电板工作效率。
Absstract of: CN121876596A
本发明属于槽式太阳能热发电技术领域,公开了一种用于槽式集热器的无介质预热方法、系统,适用于以熔盐、导热油等为集热介质的槽式光热电站,可应用于集热器首次投运前预热、检修后重启预热及低温环境下的常规预热场景。还公开了用于槽式集热器的无介质预热系统,用于实现对应的无介质预热方法,包括槽式集热器本体、驱动控制系统、介质注入单元、温度监测装置及辐照传感单元,各组件通过信号线路或管路连接,协同完成预热及介质注入过程。还公开了用于槽式集热器的无介质预热系统的温度监测装置,包括温度传感模块、信号传输模块及数据处理模块,采用分布式布置方式,用于实时采集集热管管壁的多点温度数据,为预热过程调控提供可靠依据。
Absstract of: CN121874808A
本发明公开了一种光热膜蒸馏耦合光伏电解海水蒸气制氢系统及方法,涉及电解制氢技术领域。该系统包括物料管理单元、光伏发电单元、光伏发电监测单元和光热电解槽;所述光热电解槽,其内部集成有光热膜以及PEM电解槽,用于吸收太阳能并加热来自所述高位水箱的海水以产生水蒸气,同时利用所述光伏发电单元提供的电能,将产生的水蒸气电解生成氢气和氧气。本发明将光伏光热与海水淡化‑PEM电解制氢系统相耦合,实现了可再生能源太阳能“光‑电”与“光‑热”的双重高效转化,提升全系统的能源利用效率,无需其他外界能量输入,仅需太阳能和海水便可得到高纯度能源氢气。
Absstract of: WO2026077006A1
A solar heat exchange device and method. The solar heat exchange device comprises a solar heat collector (2), the solar heat collector (2) being connected to a water tank (3) and a shell-and-tube heat exchanger (21). The solar heat collector (2) is capable of converting collected solar energy into thermal energy, so as to heat water within the water tank (3) and the shell-and-tube heat exchanger (21). The solar heat collector (2) has copper plates (20) positioned corresponding to the water tank (1) and distributed at different heights, so as to increase the heating rate of the water within the water tank (3). The solar heat collector (2) is used to heat the water within the water tank (3) and the shell-and-tube heat exchanger (21), and high-temperature water vapor generated after evaporation of the water in the water tank (3) undergoes primary heating, and then enters the shell-and-tube heat exchanger (21) via an air duct (13) for secondary heating. After the temperature is adjusted by an air distribution valve (18), hot air at a required temperature is discharged via an air outlet duct (19). The solar heat exchange device can effectively utilize solar energy to solve the problem of low drying efficiency caused by insufficient hot air temperature in existing heat exchange devices, and can also reduce environmental pollution.
Absstract of: WO2026077918A1
The disclosure relates to a holder (1) for a solar roof tile (2) on a tilted roof (3) comprising a base (4) comprising a lower support (5) supported in the mounted position on a lower batten (6) of the tilted roof (3) and an oblong beam (7) extending in a longitudinal direction x. The oblong beam comprises a lower end (8) interconnected in the mounted position to the base (4); an upper end (9) comprising an upper support (10) which in a mounted position is supported by an upper batten (11) of the tilted roof (3); a bearing surface (12) for supporting in the mounted position at least one solar roof tile (2) with respect to the upper batten (11) and the lower batten (6); and at least one stiffening fin (13) protruding from the oblong beam (7) in a normal direction z generally perpendicular to the longitudinal direction x for increasing the resistance of the oblong beam (7) against bending.
Absstract of: DE102024129905A1
Die Erfindung betrifft ein Vorrichtung (10) zum Umwandeln von Solarenergie in elektrische Energie und Wärmeenergie, die Vorrichtung (10) umfassend: einen Grundkörper (12) mit einer zur Sonne ausrichtbaren Oberseite (14), einer zu einem Gebäude (16) ausrichtbaren Unterseite (18) und wenigstens eine zwischen der Oberseite (14) und der Unterseite (18) angeordnete Mantelseite (20); ein die Oberseite (14) bildendes Photovoltaikmodul (24) zum Umwandeln der Solarenergie in elektrische Energie; und ein Wärmetauscher (28) mit einem Fluidraum (44), welcher von einem Wärmefluid (46) durchströmbar ist, wobei der Fluidraum (44) an das Photovoltaikmodul (24) angrenzt.
Absstract of: CN121853455A
本发明公开了一种防底部积水的桥架,包括桥底,通过设置有宽板与半圆板,为薄镜提供固定的效果,从而使薄镜在阳光充足的时候对桥架底部不容易被照射的地方提供光照,进而减少桥架的腐蚀效果,这个过程可能会存在垃圾堆积在薄镜上方,影响工作效果,当清扫板进行左右移动对垃圾进行清除作用的时候,其底部连接的海绵块对薄镜进行吸水作用,提高了薄镜对阳光的照射作用,清扫板上方设置的若干个干燥件,当清扫板左右移动时,产生向上的风能,对桥架底端不被照射的地方进行干燥处理,设置了转动件与清扫件的设置,从而对薄镜上方产生的垃圾进行清理效果,从而增强了薄镜的工作效率,侧面延长桥架的工作寿命。
Absstract of: CN121854200A
本公开涉及一种基于太阳能的综合储能发电系统,该基于太阳能的综合储能发电系统包括太阳能热化学反应器、气固两相分离器、第一膨胀机、第一发电机、供能装置、压缩机、第一气体储罐、第二膨胀机、第二发电机以及原料反应器,所述气固两相分离器分别与所述太阳能热化学反应器、所述第一膨胀机以及所述原料反应器连通,所述第一膨胀机通过所述压缩机、所述第一气体储罐以及所述第二膨胀机与所述原料反应器连通,其中,所述供能装置用于向所述压缩机提供电能,所述第一膨胀机和所述第二膨胀机分别与所述第一发电机和所述第二发电机传动连接。本公开提供的基于太阳能的综合储能发电系统能够对太阳能和其他能源进行充分利用。
Absstract of: CN121854203A
本申请公开了一种太阳能辅助压缩空气储能系统及其控制方法,涉及储能技术领域。该储能系统包括:多级压缩子系统、多级膨胀子系统、压缩热存储与利用子系统、太阳能热存储与利用子系统以及空气加热器切换子系统;当正常运行在放电过程时,控制空气加热器切换子系统使透平入口空气被压缩热和太阳能热加热;当太阳能热不足时,控制空气加热器切换子系统使太阳能热空气加热器退出运行,透平入口空气被压缩热加热;当太阳能热充足时,控制空气加热器切换子系统使压缩热空气加热器退出运行,透平入口空气被太阳能热加热,压缩热供给余热利用模块。本申请采用串联的两级空气加热器的布置方式,配合空气加热器切换子系统,实现系统的灵活高效运行。
Absstract of: CN121863520A
本发明涉及综合能源系统技术领域,公开了一种基于光热光电一体化的高原高速公路服务区综合能源系统及协同控制方法,系统构建包含PV/T组件阵列、风电机组、蓄电池、储热罐、柴油发电机、电锅炉及制氧机的一体化能源系统,通过多能流耦合实现高原特殊环境下电‑热‑氧负荷的协同供应。提出分层智能控制方法,上层采用优化调度模型预测控制方法,以运行成本最低和能源自给率最高为目标生成日前优化调度计划;下层构建自适应实时控制策略,通过动态调节PV/T组件阵列冷却液流量实现光‑电‑热输出的多目标协调,建立智能调度机制。本发明通过双层优化控制实现了多重不确定性环境下系统的稳定运行,显著提升了高原高速公路服务区的能源综合利用效率与供能可靠性。
Absstract of: CN121855071A
本发明提供一种清洗系统、清洗方法及定日镜的反射面的清洗方法,清洗系统包括清洗装置和标志物;清洗装置包括清洗装置本体、第一探测机构、第二探测机构、夹角检测机构和主控模块;清洗装置本体被配置为能够在待清洗面上移动,并对待清洗面进行清洗;第一探测机构、第二探测机构和夹角检测机构均与主控模块信号连接,主控模块被配置为根据接收到的信号控制清洗装置本体的移动。本发明提供的清洗系统通过待清洗面与清洗装置协作,以标志物为参照,实现对清洗装置本体的路径指引和清洗轨迹在线修正,进而能够避免清洗装置本体对待清洗面中的某些区域漏洗的情况,有效提升了待清洗面的洁净度。
Absstract of: CN121855070A
本发明涉及油田原油加热技术领域,尤其涉及一种多能耦合原油加热系统及方法,旨在解决现有加热系统能源供应不稳定、加热效率不高的问题。本发明提供的多能耦合原油加热系统包括供电单元、供热单元和用热单元;供热单元,用于向用热单元供热,包括并联设置的太阳能光热回路、空气源热泵回路和吸收式热泵回路;供电单元用于向空气源热泵回路和吸收式热泵回路供电。本发明通过对光能的充分利用,将光能转换为热能和电能以用于对用热单元进行加热,充分降低碳排放;同时辅以蓄电池和电网保证供电稳定,辅以空气源热泵和吸收式热泵保证供热稳定并适应各种工作环境。因此实现了实现多种能源的互补利用,提高了加热效率并降低了碳排放量。
Absstract of: CN121855098A
本发明公开一种PVT联合洗浴废水及空气源的多源热泵热水装置及运行方法,装置包括:用于对市政供水进行加热的洗浴废水余热收集回路、PVT热水收集回路和多源热泵回路;被加热后的市政供水储存于供热水箱,供热水箱用于向用户提供热水;其中,多源热泵回路还用于通过洗浴废水余热收集回路对洗浴废水进行二次余热回收、通过PVT热水收集回路对低温水进行二次余热回收;本发明综合利用洗浴废水余热、PVT产热以及空气能,洗浴废水余热能充分保障在室外低温、太阳辐射不好或无太阳辐射的条件下,稳定产出生活热水,PVT产热及空气源可以在室外气温高、太阳辐射条件好或洗浴废水不足的情况下提升热水生产的能效水平及稳定性,实现优势互补。
Absstract of: CN121863546A
本发明公开了一种面向光伏‑光热‑电加热器的多能协同运行方法,具体步骤包括:构建光伏‑光热‑电加热器多能系统的协同运行框架;建立光伏功率模型与弃电约束、光热发电模型与功率约束,以及电加热器运行模型与功率约束;设计光热发电系统的启停控制模型和设备切换约束;构建用于衡量光热发电系统参与辅助服务能力的辅助服务模型与功率约束;以光伏‑光热‑电加热器多能系统全年度总收益最大化为目标,构建协同优化调度模型,并设定若干约束条件;对协同优化调度模型进行求解,得到全年度的多能协同最优调度方案。本发明显著提升了多能系统的经济性、灵活性与可控性,有效突破了现有模型目标单一、物理耦合不充分等技术瓶颈,具有广泛的工程应用前景与产业推广价值。
Absstract of: EP1000000A1
The invention relates to an apparatus (1) for manufacturing green bricks from clay for the brick manufacturing industry, comprising a circulating conveyor (3) carrying mould containers combined to mould container parts (4), a reservoir (5) for clay arranged above the mould containers, means for carrying clay out of the reservoir (5) into the mould containers, means (9) for pressing and trimming clay in the mould containers, means (11) for supplying and placing take-off plates for the green bricks (13) and means for discharging green bricks released from the mould containers, characterized in that the apparatus further comprises means (22) for moving the mould container parts (4) filled with green bricks such that a protruding edge is formed on at least one side of the green bricks.
Absstract of: EP1000000A1
The invention relates to an apparatus (1) for manufacturing green bricks from clay for the brick manufacturing industry, comprising a circulating conveyor (3) carrying mould containers combined to mould container parts (4), a reservoir (5) for clay arranged above the mould containers, means for carrying clay out of the reservoir (5) into the mould containers, means (9) for pressing and trimming clay in the mould containers, means (11) for supplying and placing take-off plates for the green bricks (13) and means for discharging green bricks released from the mould containers, characterized in that the apparatus further comprises means (22) for moving the mould container parts (4) filled with green bricks such that a protruding edge is formed on at least one side of the green bricks.
Absstract of: EP1000000A1
The invention relates to an apparatus (1) for manufacturing green bricks from clay for the brick manufacturing industry, comprising a circulating conveyor (3) carrying mould containers combined to mould container parts (4), a reservoir (5) for clay arranged above the mould containers, means for carrying clay out of the reservoir (5) into the mould containers, means (9) for pressing and trimming clay in the mould containers, means (11) for supplying and placing take-off plates for the green bricks (13) and means for discharging green bricks released from the mould containers, characterized in that the apparatus further comprises means (22) for moving the mould container parts (4) filled with green bricks such that a protruding edge is formed on at least one side of the green bricks.
Absstract of: EP1000000A1
The invention relates to an apparatus (1) for manufacturing green bricks from clay for the brick manufacturing industry, comprising a circulating conveyor (3) carrying mould containers combined to mould container parts (4), a reservoir (5) for clay arranged above the mould containers, means for carrying clay out of the reservoir (5) into the mould containers, means (9) for pressing and trimming clay in the mould containers, means (11) for supplying and placing take-off plates for the green bricks (13) and means for discharging green bricks released from the mould containers, characterized in that the apparatus further comprises means (22) for moving the mould container parts (4) filled with green bricks such that a protruding edge is formed on at least one side of the green bricks.
Absstract of: EP1000000A1
The invention relates to an apparatus (1) for manufacturing green bricks from clay for the brick manufacturing industry, comprising a circulating conveyor (3) carrying mould containers combined to mould container parts (4), a reservoir (5) for clay arranged above the mould containers, means for carrying clay out of the reservoir (5) into the mould containers, means (9) for pressing and trimming clay in the mould containers, means (11) for supplying and placing take-off plates for the green bricks (13) and means for discharging green bricks released from the mould containers, characterized in that the apparatus further comprises means (22) for moving the mould container parts (4) filled with green bricks such that a protruding edge is formed on at least one side of the green bricks.
Absstract of: EP1000000A1
The invention relates to an apparatus (1) for manufacturing green bricks from clay for the brick manufacturing industry, comprising a circulating conveyor (3) carrying mould containers combined to mould container parts (4), a reservoir (5) for clay arranged above the mould containers, means for carrying clay out of the reservoir (5) into the mould containers, means (9) for pressing and trimming clay in the mould containers, means (11) for supplying and placing take-off plates for the green bricks (13) and means for discharging green bricks released from the mould containers, characterized in that the apparatus further comprises means (22) for moving the mould container parts (4) filled with green bricks such that a protruding edge is formed on at least one side of the green bricks.
Absstract of: EP1000000A1
The invention relates to an apparatus (1) for manufacturing green bricks from clay for the brick manufacturing industry, comprising a circulating conveyor (3) carrying mould containers combined to mould container parts (4), a reservoir (5) for clay arranged above the mould containers, means for carrying clay out of the reservoir (5) into the mould containers, means (9) for pressing and trimming clay in the mould containers, means (11) for supplying and placing take-off plates for the green bricks (13) and means for discharging green bricks released from the mould containers, characterized in that the apparatus further comprises means (22) for moving the mould container parts (4) filled with green bricks such that a protruding edge is formed on at least one side of the green bricks.
Absstract of: EP1000000A1
The invention relates to an apparatus (1) for manufacturing green bricks from clay for the brick manufacturing industry, comprising a circulating conveyor (3) carrying mould containers combined to mould container parts (4), a reservoir (5) for clay arranged above the mould containers, means for carrying clay out of the reservoir (5) into the mould containers, means (9) for pressing and trimming clay in the mould containers, means (11) for supplying and placing take-off plates for the green bricks (13) and means for discharging green bricks released from the mould containers, characterized in that the apparatus further comprises means (22) for moving the mould container parts (4) filled with green bricks such that a protruding edge is formed on at least one side of the green bricks.
Absstract of: EP1000000A1
The invention relates to an apparatus (1) for manufacturing green bricks from clay for the brick manufacturing industry, comprising a circulating conveyor (3) carrying mould containers combined to mould container parts (4), a reservoir (5) for clay arranged above the mould containers, means for carrying clay out of the reservoir (5) into the mould containers, means (9) for pressing and trimming clay in the mould containers, means (11) for supplying and placing take-off plates for the green bricks (13) and means for discharging green bricks released from the mould containers, characterized in that the apparatus further comprises means (22) for moving the mould container parts (4) filled with green bricks such that a protruding edge is formed on at least one side of the green bricks.
Absstract of: US20260100666A1
0000 A profile and a system for installation of a roof covering. The system may contain a solar cell, that permits simple and flexible installation, also directly on a waterproof and/or fireproof film, is easy to manufacture and can be used in a modular manner. The profile having on its underside a limiting element designed to engage around a panel-shaped element and thus limit the sliding of the profile onto the panel-shaped element, formed by a spacer section projecting from the underside and a section for engagement behind the panel projecting therefrom in the direction of the longitudinal extension of the profile. The profile having on its underside a protruding supporting section. The protruding supporting section may include a support lug, that protrudes further from the underside than the limiting element, and the rear engagement section, with the spacer section being part of the supporting section.
Absstract of: AU2026202183A1
This disclosure relates to an assembly and method for attaching a heliostat to a foundation in a tower-based solar thermal CSP installation. A heliostat securing assembly for securing a heliostat to a tubular foundation post comprises an insert 5 locatable within an upper opening in the foundation post, the insert defining an aperture for receiving a support shaft of the heliostat. A clamp arrangement, for locating the insert in the upper opening in the foundation post, has at least one inner or outer bearing surface configured to bear against at least one corresponding outer or inner bearing surface of the insert. One or more urging connectors, for connecting the insert 10 and the clamp arrangement, is operable to urge at least one of the insert and the clamp arrangement toward the other in an axial direction of the foundation post. At least one of the at least one outer or inner bearing surface and the at least one corresponding inner or outer bearing surface is configured to transform at least a portion of relative axial movement between the insert and the clamp into relative transverse movement such 15 that, when the insert is located in the upper opening in the foundation post, operation of the urging connector(s) urges at least one of the insert and clamp arrangement in the transverse direction to clamp the securing assembly between the support shaft and foundation post and thereby secure the heliostat to the foundation post. ar a r
Absstract of: US20260100670A1
A submersible solar installation is provided, the installation comprising a solar panel; at least one buoyancy body connected to the solar panel; wherein the solar panel and the at least one buoyancy body are designed to have a positive buoyancy at a water surface of a body of water; and a diving element adapted to subject the submersible solar installation to a negative buoyant force; wherein the at least one buoyancy body includes a first buoyancy body that is at least partially reversibly compressible.
Absstract of: US20260098619A1
The present disclosure provides a system and method for collecting, focusing, storing, and releasing energy. The system comprises of a collector unit (102) provided for collecting energy (101) released from a source (110) using optical means. A storage unit (103) is operatively connected to the collector unit (102) for storing the collected energy using optical means and a reflector unit (104) is operatively connected to the storage unit (103) for reflecting the stored energy released from the storage unit (103) using optical means.
Absstract of: CN121804097A
本发明提供一种耦合斜温层太阳能光热储能的锅炉互补供汽系统及方法,该系统包括太阳能塔、主换热器、斜温层储热罐、熔盐储放换热器、第一换热器和燃煤机组;熔盐储放换热器的热端入口和冷端出口分别与太阳能塔的高温熔盐出口和低温熔盐入口相连;主换热器的热端入口和冷端出口分别与太阳能塔的高温熔盐出口和低温熔盐入口相连;斜温层储热罐与熔盐储放换热器相连,熔盐储放换热器用于对斜温层储热罐内的熔盐进行换热;主换热器分别与熔盐储放换热器以及第一换热器相连;第一换热器的冷端入口与燃煤机组的锅炉的第一入口处的给水管道相连,第一换热器的热端出口与锅炉的第一出口处的主蒸汽管道相连。该系统能够助力节能减排,实现双碳目标。
Absstract of: CN121803003A
本申请涉及绿色建筑技术领域,尤其是涉及一种建筑屋面节能保温结构,包括屋脊、坡面、屋脊瓦和瓦面层,坡面靠近屋脊的位置设置有可收纳的收集机构,屋脊瓦上设置有用于收集机构移出且延伸到的缺口槽,收集机构包括固定在坡面上的底座,底座上设置有可移动的收纳部件,收纳部件包括支架,所述支架上旋转连接有收卷辊,收卷辊上缠绕有收集层,收集层边沿上设置有气囊带,还包括与气囊带通过气管连通的气泵,收集层包括面层和底层,所述面层包括多个采集单元,采集单元呈阵列且依次设置,采集单元远离底层的一面呈弧形,收集层一端设置驱动轮,建筑内墙内部设置有导热腔,收集层与导热腔通过管路连通,本申请可以提高屋面对太阳能的利用效率。
Absstract of: CN121804093A
本发明涉及太阳能吸热器技术领域,具体涉及一种基于三明治结构的高效太阳能吸热器,包括集热组件和布置在集热组件外侧的光热转换组件,所述光热转换组件包括支撑板和设置于所述支撑板两侧的功能涂层,位于所述支撑板外侧的功能涂层为吸热涂层,用于捕获太阳能并转换为热能,位于所述支撑板内侧的功能涂层为辐射涂层,用于增强由外向内的热量传递并阻隔由内向外的热辐射散失;所述集热组件包括吸热管、反射板和保温层,所述反射板安装在所述吸热管内侧,反射板用于反射吸热管的热辐射,所述保温层位于所述反射板内侧,用于减少吸热管热量散失;本发明能够解决现有吸热器热辐射损耗严重导致光热效率低的技术问题。
Absstract of: CN121813503A
本发明涉能源领域,具体涉及一种家用能源综合利用系统,包括光伏发电板、太阳能热水器、储能电池组、蓄热水箱及总压缩机,所述光伏发电板通过导线分别与储能电池组电气进线端及电网连接,所述储能电池组出线端与电网接线端分别与切换开关进线端连接,所述切换开关与家用电器连接,通过利用自然界的自然能源与供热取暖能源的综合转换利用,利用多形式自然能源的家庭综合利用供电系统发出的电能作为家庭用电能的补充能源,从而达到为国家节能,家庭自己发电,减少一次性能源的的使用,降低污染,减少个人家庭的家庭开支,多形式自然能源的家庭综合利用供电系统里多个发电装置,可以集成使用,也可以单独使用,其造价低廉,制造简单。
Absstract of: CN121813988A
本发明涉及太阳能发电领域,更具体的说是一种太阳能发电系统。包括电池架、冷却管、加热筒和进水管,电池架背面嵌入有冷却管,加热筒下方设有进水管,冷却管的底部与进水管滑动连接,冷却管中有冷却水流通。还包括电池板和挡条,每个电池架上焊接连接有挡条,挡条上方设有夹块,电池板分别螺钉连接夹块和电池架之间,挡条挡在电池板下方。还包括三角油箱,三角油箱套接在加热筒外侧,三角油箱上设有三个圆孔,进水管插接在圆孔内,三角油箱内部装有油。还包括涡轮叶、发电机和出气管,发电机螺钉连接在加热筒上方,涡轮叶转动连接在发电机下方,加热筒上端设有出气管,出气管的位置在涡轮叶上方。便于将光伏发电产生的热量用于光热发电。
Absstract of: CN121803972A
本发明公开了一种与太阳能耦合的挤压式、可拉开的模块式相变储能热泵换热系统及方法,属于相变储能与热泵换热技术领域。系统包括挤压式可拉开模块式相变储能换热器、平板式太阳能集热器、热泵机组、融冰系统、分组拉开卸冰系统、控制单元及配套管路组件;相变储能换热器由双回字型模块单元通过柔性伸缩带连接,挤压动力装置驱动模块闭合/分离实现储水与卸冰,融冰系统利用热泵回水余热,分组拉开结构使冰体重力脱落。方法包括挤压闭腔、注水储能、取热循环等步骤。本发明解决了现有技术取冰难、能效低、严寒适配差等问题,模块化设计使其储热能力强,‑10℃环境下COP稳定在3.5左右,适配北方严寒地区无常规热源的矿区等场景,能耗低且运维简便。
Absstract of: CN121804096A
本申请实施例公开了一种基于太阳能和风能的加热系统,用于对来自自来水系统中的自来水进行加热并供给用水端和/或存储,基于太阳能和风能的加热系统包括:与自来水系统连通的太阳能加热设备,太阳能加热设备能够储存来自自来水系统中的自来水,并吸收太阳能以对储存的自来水进行一次加热;与太阳能加热设备连通的风能加热设备,并能储存经过一次加热后的自来水,风能加热设备用于将风能转化为电能并对经过一次加热后的自来水进行二次加热;与所述风能加热设备和所述用水端连通的储水设备,储水设备用于储存经过二次加热后的自来水;控制设备,与太阳能加热设备、风能加热设备以及储水设备通信连接。
Absstract of: CN121804095A
本发明提供了一种吸热组件及吸热组件起吊运输工装,吸热组件包括:吸热器管屏,吸热器管屏通过太阳光加热吸热器管屏内流动的介质,吸热器管屏沿介质的流动方向分为入口段、中间段和出口段;背部框架,背部框架的一侧与吸热器管屏的中间段抵接,且背部框架安设于吸热器管屏上;背部框架与吸热器管屏形成一个模块,以同时进行吊装和运输。本发明解决了现有技术中塔式太阳能吸热器管屏在吊装和运输过程存在的结构较为笨重、操作灵活性不足的问题。
Absstract of: CN121814025A
本发明涉及光伏发电技术领域,具体涉及一种光伏与阳光间融合通风装置,包括固定板,固定板底部固定连接有通风腔,固定板上设有对称设置的支座,固定板顶部设有光伏板,光伏板一侧固定连接有转动杆,转动杆两端分别与对应支座转动连接,固定板上连通有若干通口,固定板侧壁固定连接有传动腔,转动杆一端穿过支座延伸至传动腔内,通风腔底部连通有矩形框,矩形框侧壁转动连接有若干转轴,转轴上均固定连接有叶片,转轴一端均穿过矩形框并延伸至传动腔内,转动杆上驱动组件,固定板上设有双金属杆,双金属杆上设有推动组件。本发明提供一种光伏与阳光间融合通风装置,根据光伏板转动角度进行自适应通风调节,减少能耗的同时提升光伏板的发电效率。
Absstract of: CN121814024A
本发明公开了一种PVT储热热泵供热供电一体化户用能源系统及其控制方法,应用于建筑墙体处,包括安装架、储热水箱、集热器、驱动机构、光伏板、调节机构、遮盖板、水管、热泵机组以及光敏传感器和控制器,所述储热水箱安装在安装架上,集热器位于储热水箱上方,水管贯穿储热水箱并与热泵机组连接;所述驱动机构位于储热水箱的南北两侧并用于驱动光伏板翻转;所述调节机构位于储热水箱的东西两侧并用于驱动遮盖板翻转;所述光敏传感器和控制器用于感应光照强度并控制所述驱动机构和调节机构动作。本发明通过光敏传感器的感应,改变集热器、光伏板与阳光的接触面积大小,从而提高光照足时的发光发热效率,减小光照不足时光伏板受沙土污染的面积。
Absstract of: CN121782758A
本发明公开了一种原油罐群光热光电维温智能控制系统,包括:光热系统由太阳能集热器、循环水泵、储热水箱和换热器构成;光电系统由光伏阵列、光伏逆变器和蓄电池构成;原油罐群,其内设有加热盘管;温度传感器,布置于集热循环回路出口和供热循环回路出口;电压传感器,布置于光伏阵列与光伏逆变器之间;中央处理器与温度传感器、电压传感器电连接;其中,太阳能集热器、换热器和循环水泵构成集热循环回路,换热器与原油罐群相连构成供热循环回路,储热水箱存储盈余热量并在供热循环回路出现供热不足时作为补充热源为原油罐群持续供热。通过光热光电协同技术对原油进行维温,避免因温度过高或过低导致的能源浪费和安全隐患。
Absstract of: CN121782658A
本发明公开了PV/T特朗勃墙耦合M‑cycle的建筑温湿调控和空气净化系统及方法,属于室内温湿度调控及空气净化技术领域。本发明解决了现有技术尚未构建将空气流动路径与除湿、净化模块深度耦合的系统架构的问题。本发明包括:M‑cycle空气处理模块;PV/T特朗勃墙空气处理模块,包括设置于向光侧墙体上的光伏组件,所述光伏组件与墙体之间设置有气体流道,所述气体流道连通有空气进口、空气室内出口以及空气室外出口,所述光伏组件靠近空气流道内的一侧设置有墙体换热管路,所述气体流道内还设置有甲醛分解机构;屋顶PCM换热模块;流体储存和调控模块;电能储蓄和调控模块。本发明实现了太阳能更全面更充分的利用,且同步实现了室内温湿度调控和空气的净化。
Absstract of: CN121779421A
本发明涉及光热材料技术领域,具体涉及一种有机光热材料及其制备方法与应用。本发明的有机光热材料能实现高效的太阳能热转换,其在高效利用太阳能领域所展示出的潜力为水净化和供电提供了潜在可能,并有助于绿色能源的可持续发展。
Absstract of: CN121782759A
高聚日光传输利用方法及装备,本专利涉及一套目光低成本聚强、收集、传输、高效利用系统,将高聚强光传输到用能现场,直接进行光/热高效转换,加热水媒等,并特别列示典型重大应用场景,开辟高效率利用日光的新天地,结束北方冬季不能用光热的历史。
Absstract of: CN121782756A
本发明涉及能源存储与新能源发电技术领域,公开了一种塔式光热系统瞄准方法及装置,该方法包括:建立吸热器位置、定日镜位置及太阳位置的相对坐标体系;基于吸热器位置计算每个定日镜对应反射光线的独立光斑,并将落点为吸热器的光斑记作入射光斑;对所有入射光斑进行叠加得到初始组合光斑;基于吸热器可接受光斑上限调整所述初始组合光斑。本发明提出了光热电站的光斑仿真、瞄准策略确定和组合光斑检测和修正方法、瞄准点确定方法,实现了针对聚光光伏部分的定日镜光斑偏移和瞄准中心修正方法,提高了能量利用率,并且本发明给出的硬件布置策略可以有效保证吸热器安全。
Absstract of: CN121782754A
日光使用很普遍,现行采光系统无论是透镜、旋转球面镜、还是抛物线柱面槽式镜以及平板镜组对而成的近似线性菲涅尔镜,若要取得高效率就必须转动迎日采光,在地面留有较大空间,受投影遮挡,无光可采因素影响不大,大多是没有主动增强设计意识,如单片独户也不见有啥增强措施;但在午间前后,日光照射最强烈,是正射区段,少投影无投影,空闲地带强光显然白白严重浪费,若用低成本午间采聚系统增强,投资少收效大,更有利于清洁低碳发展。另现行光/热转换在采光场立即完成,但对采暖热水系统,因无法保温冬季无法运行;若引光进入室内,直接加热器件,光能全部有效利用,而且近距离传光极方便,无能耗,严冬仍高效运行,有日便传光。
Absstract of: CN121778814A
本发明提出了一种基于界面水的太阳能综合利用装置及其工作方法及其制作方法,包括光电转换装置、光热转换装置、冷凝水收集装置和电能存储装置;其中所述的一种基于界面水的太阳能综合利用装置采用木基复合水凝胶作为光热转换装置的光热转换材料,其中所述的一种基于界面水的太阳能综合利用装置采用木基复合水凝胶产生界面水膜作为光电转换装置的光电转换介质。其中工作方法包括采用木基复合水凝胶作为光热转换装置的光热转换材料采用木基复合水凝胶产生界面水膜作为光电转换装置的光电转换介质。其中制作方法包括制作木基复合水凝胶的方法和制作光阳极的方法。
Absstract of: CN121782757A
本申请涉及一种双水箱热水系统及其控制方法、设备,该系统包括:热泵机组、加热水箱、保温水箱、太阳能集热器、热水循环水泵、通过第一电动阀将太阳能集热器与热泵机组串联,并通过进水管的第二进水口与太阳能集热器的出水口连通,进水管的第一出水口通过加热阀与加热水箱的第一进水口相连,进水管的第二出水口通过保温阀与保温水箱的第一进水口相连,使得太阳能集热器不仅可用于加热水箱的加热保温,还可以用于保温水箱的加热保温,解决了现有技术中双水箱热水系统由于太阳能集热器无法用于保温水箱的加热保温所带来的热泵机组保温能耗高的问题,能够有效减少热泵机组保温能耗。
Absstract of: JP2026057116A
【課題】並列された複数の太陽光発電パネルによって太陽光を利用した発電と太陽熱を利用した温水の生成とを同時に行うにあたり、複数の太陽光発電パネルの組み立て性に優れ、かつ発電出力が低下し難い集光型太陽光発電装置を提供する。【解決手段】集光型太陽光発電装置は、並列された複数の太陽光発電パネルと複数の太陽光発電パネルの各々に設けられて流体が流通される金属管とを備える。複数の太陽光発電パネルの各々は、枠体と底板と複数のレンズとを有する筐体と、前記底板の内面における前記複数のレンズの各々の集光位置に配列された複数の発電素子と、前記内面と前記複数の発電素子の各々との間に配置された絶縁材と、を備える。前記金属管は、前記底板の外面における前記複数の発電素子の配列位置に対応した位置を通るように前記外面に固定されている。複数の太陽光発電パネルの各々の前記底板は、金属材料で形成されており、かつ接地されている。【選択図】図4
Absstract of: WO2026069315A1
A structure for harnessing solar energy over a water surface comprises at least one photovoltaic panel unit (unit), a plurality of grids flexible in a direction perpendicular to surfaces of the grids, a plurality of floatation items, and at least one tie. Each unit comprises a photovoltaic panel engaged with a photovoltaic support assembly which is not connected to any other support assembly. At least one of the plurality of grids is engaged with the photovoltaic support assembly of the at least one unit. Each floatation item comprises a buoyant material and is encaged by at least two of the plurality of grids and not connected to any photovoltaic support assembly, such that the structure is configured to allow each of the units to independently move relative to all other of the units. The at least one tie is employed to connect the plurality of grids to each other on a plurality of sides of at least one of the plurality of floatation items.
Absstract of: EP1000000A1
The invention relates to an apparatus (1) for manufacturing green bricks from clay for the brick manufacturing industry, comprising a circulating conveyor (3) carrying mould containers combined to mould container parts (4), a reservoir (5) for clay arranged above the mould containers, means for carrying clay out of the reservoir (5) into the mould containers, means (9) for pressing and trimming clay in the mould containers, means (11) for supplying and placing take-off plates for the green bricks (13) and means for discharging green bricks released from the mould containers, characterized in that the apparatus further comprises means (22) for moving the mould container parts (4) filled with green bricks such that a protruding edge is formed on at least one side of the green bricks.
Absstract of: CN121761500A
本发明属于太阳能光热电站维护设备技术领域,公开一种兼具定日镜清洗及可移动槽式光热集热的多功能车辆,包括车体、清洗垫、柔性镜面板、第一机械臂、第一卷绕设备、第二卷绕设备、集热管、第二机械臂、水箱和喷淋管;清洗垫设置在柔性镜面板的第一端面,第一机械臂的执行端与柔性镜面板铰接;第一卷绕设备通过第一金属绞线与柔性镜面板的第二端面的下端连接,第二卷绕设备通过第二金属绞线与柔性镜面板的第二端面的上端连接,集热管与第二机械臂的执行端连接,喷淋管的一端与第二金属绞线固定连接,喷淋管的另一端与水箱连接。本发明的多功能车辆不但可以清洗定日镜,还可以转化为槽式光热集热器收集热量,避免了清洗过程中的能源浪费。
Absstract of: CN121757948A
本发明是高效节能的海水淡化技术,解决的核心技术问题是传统的海水淡化受制于“能源需求巨大”的瓶颈,很难得到很好的推广和发展。本发明利用太阳能技术与水源热泵技术的高效节能特性,作为海水淡化的加工设备,同时采用冷冻法和蒸发法制造淡水,是突破性的创新。较传统方法,本发明能实现大幅度的降低能耗,可以促进海水淡化进行快速发展。本技术制造的淡水还具有供冷、供热特性。
Absstract of: CN121735415A
本发明是一种垃圾渗滤液氧化处理装置,包括:分离箱,其内部设置有阳离子交换膜,将分离箱内腔分隔为渗滤液腔和氧化剂腔;渗滤液玻璃管,设置有渗滤液进液管和渗滤液出液管,渗滤液玻璃管的上端设置有与外界连通的出气管;氧化剂玻璃管,氧化剂玻璃管的上端设置有与外界连通的接管;催化剂,设置于渗滤液玻璃管和氧化剂玻璃管内;导线,其一端插入渗滤液玻璃管内,另一端插入氧化剂玻璃管内;反光板,用于反射太阳光,对渗滤液玻璃管和氧化剂玻璃管加热。通过阳离子交换膜将氧化剂与渗滤液物理隔离,避免了氧化剂直接投加至废水中导致的浓度稀释问题,确保其与催化剂充分接触,从而高效生成活性自由基,显著提升了对有机污染物的降解效率。
Absstract of: CN121749880A
本申请涉及光伏面板技术领域,公开了一种用于热泵空调发电的集成建筑式光伏面板,用以解决导水槽中飞溅的雨水顺着光伏面板背面越过导水槽导致漏水的问题。通过固定块对固定架固定时,固定块对固定架进行挤压,使固定架向下移动,移动的固定架带动连接块和推柱同步移动,使推柱推动引导板转动,转动的引导板使另一端抵在M型导水槽的内壁上,在M型导水槽内的雨水飞溅时,飞溅至光伏板背面的雨水也会顺着引导板的侧壁滑落,又落至M型导水槽中,从而避免M型导水槽中飞溅的雨水顺着光伏板背面越过M型导水槽导致漏水发生。
Absstract of: CN121731949A
本申请涉及二氧化碳捕集与碳封存技术领域,公开了一种高原环境碳捕捉封存一体化处理装置,包括捕集单元,其位于顶部,用于承载工作流体并利用高原夜间冷源与自然风压捕获大气中的二氧化碳;增压矿化单元,其设置于捕集单元下方,用于容纳活性矿物骨料,并利用高原日间太阳热能进行工作流体的再生与矿化固碳;非对称循环管路系统,其连接在捕集单元与增压矿化单元之间,包括用于工作流体向下输运至增压矿化单元的下行管,和用于工作流体向上回流至捕集单元的上行喷射管;热致动被动控制组件。通过整合光谱选择性辐射制冷涂层与聚光集热系统,解决了传统主动式DAC设备在电网匮乏的偏远地区部署难、能耗高及化学电池低温衰减的痛点。
Absstract of: CN121739450A
本发明公开了可变出水口间接式太阳能空气能热水系统,包括热水水箱,热水水箱内设有太阳能换热器与空气能换热器,太阳能换热器两端连接有太阳能换热组件,空气能换热器两端连接有空气能换热组件,热水水箱侧壁设有分层出水口,分层出水口连接有生活热水使用端,热水使用端通过管道与热水水箱连接,还包括补水管,补水管分别通过管道连接至热水水箱、太阳能换热器管道与空气能换热器管道上。本发明还公开了可变出水口间接式太阳能空气能热水供应方法。本发明解决了传统太阳能空气能热水系统中生活热水水箱上部高温区热水得不到高效利用、循环回水及进水时水箱温度迅速下降及冬季防冻循环导致水箱水温降低,进而大幅增加系统能耗的问题。
Absstract of: CN121736708A
本发明提供一种相变复合材料及其制备方法与光热转换储能装置,相变复合材料采用“金刚石笼和石墨烯纳米墙笼”的双层笼状结构,金刚石笼构建高效三维导热网络,石墨烯纳米墙笼通过高比表面积增加与相变材料的接触面积,同时利用π‑π堆积降低界面声子散射,协同解决导热与界面适配问题;且笼状结构可增强光线反射与透射,提升光吸收效率,实现导热与光热转换性能双重突破。相变复合材料的制备方法通过沉积金属过渡层、沉积金刚石笼、沉积石墨烯纳米墙笼和负载相变材料四个步骤的协同配合,制得兼具高光热转换率与高导热性能的相变复合材料。
Absstract of: CN121739601A
本发明是一种聚光型辐射能转换装置,包括底座,底座上设置有:立柱,反光板,其中部套接在立柱上,用于反射阳光;反光板位于立柱相对两侧的部分分别设为第一弯曲部和第二弯曲部;第一电缸用于驱动第一弯曲部弯曲,并可弯曲成不同的弧度;第二电缸用于驱动第二弯曲部弯曲,并可弯曲成不同的弧度;光电储能组件用于储能;光热组件用于加热;第一弯曲部和第二弯曲部的焦点或重合、或呈上下布置。通过设置具有弹性的反光板,并利用第一电缸和第二电缸分别独立驱动反光板两端的第一弯曲部和第二弯曲部,能够动态调节反光板的弯曲弧度和形状,并通过调节反光板的高度,调节第一电缸和第二电缸的位置,从而精确控制聚光焦点的位置。
Absstract of: CN121745452A
本发明提供一种生物质气化耦合太阳能补热的高效产氢方法及系统,包括:通过监测设备采集数据形成原始数据集;对原始数据集进行预处理得到标准化数据集;对标准化数据集数据融合与关联分析形成融合特征向量;基于融合特征向量得到偏差评估结果;将偏差评估结果与历史数据库匹配确定调控方向与措施生成调控指令集;执行相应调整操作,获取调整后运行参数;通过采集调整后运行指标形成调控效果验证数据集;将调控效果验证数据集中的各指标与对应预设阈值比对,用于更新数据融合与关联分析相关参数,定期校准数据处理流程,形成优化的数据处理方式,用于下一轮气化系统的调控优化。本发明具有气化系统稳定运行、提升产氢效率及降低焦油生成的优点。
Absstract of: US20260085860A1
A solar receiver having an enclosure delimiting a cavity that is configured to receive a heat transfer fluid, at least one opening in the enclosure for access of solar radiation into the cavity, at least one window that seals the opening, and at least one cooling device that is configured to cool the window. The cooling device is configured to supply at least one window-cooling liquid fluid to the window, such that the window-cooling liquid fluid forms at least one liquid layer on and/or in the window.
Absstract of: WO2026060958A1
Disclosed in the present application is a prefabricated household photovoltaic carport, comprising a support, the support being used for connecting to anchor bolts on the ground by means of fastening nuts; an upper end surface of the support in the vertical direction is provided with a crossbeam assembly, and the crossbeam assembly is connected to the support by means of first bolt assemblies; an upper end surface of the crossbeam assembly in the vertical direction is provided with a purlin assembly to form a grid-like structure, and the purlin assembly is connected to the crossbeam assembly by means of second bolt assemblies; a photovoltaic module is arranged on the upper end surface of the purlin assembly in the vertical direction, a pressing plate assembly is lap-jointed and pressed against one end of the photovoltaic module facing away from the purlin assembly, and the pressing plate assembly is connected to the purlin assembly by means of third bolt assemblies. The present application enables household users to complete installation and use in their own courtyards with the aid of common tools such as wrenches, without the need for professional construction teams, which is conducive to widespread adoption. Further disclosed in the present application is an installation structure for a photovoltaic module on a waterproof roof, which can seal the roof and ensure the waterproof performance of the roof.
Absstract of: US20260085859A1
A measurement method and a measurement device for profile accuracy of parabolic trough reflector are provided, which solves the problem of existing technology relying on the final assembly plant for detection and the inability to detect on the final application site, as well as the high requirements of existing optical detection device for the plant. The method and device of the present disclosure use light emitted from a light source to simulate the light emitted from the focal point of a parabolic reflector to be detected, then emitting onto the parabolic reflector to be detected. The shape and position accuracy of the parabolic reflector to be detected are measured based on the deviation of the reflected light, and it no longer rely on the final assembly plant and can detect the final profile accuracy of parabolic reflectors on the application site or after regular operation, significantly reducing costs.
Absstract of: ZA202407350B
Apparatus for generating thermal energy using concentrated solar power, the apparatus comprising a fluidised bed which including a dual heat exchange and solar receiver and means to circulate solid particles around the fluidised bed.
Absstract of: CN121720217A
本发明属于太阳能热发电技术领域,公开了吸热器保温结构、吸热器管屏结构及塔式太阳能吸热器。该塔式吸热器保温结构包括第一保温模块和至少一个保温模块固定组件,第一保温模块包括保温空间,保温空间被配置为用于容纳待保温物的部分结构,或者容纳待保温物的全部结构,第一保温模块包裹于所述待保温物外侧;保温模块固定组件被配置为用于将第一保温模块固定在待保温物上,保温模块固定组件包括穿设构件和至少一个锁定构件,穿设构件包括内置段和至少一个伸出段。该吸热器保温结构能够减少待保温物中热量的损失,还能够有效的避免现有技术中的问题,并且设置保温模块固定组件还能够避免第一保温模块在外力作用下(如振动等)发生移动。
Absstract of: CN121718922A
本发明的实施例提供了基于分布式光热的离网光伏制氢热管理系统,涉及制氢领域。该离网光伏制氢热管理系统包括光热储热罐、多台光热集热器与储热循环管路,多台光热集热器并联于储热循环管路,储热循环管路与光热储热罐连通。本发明实施例的离网光伏制氢热管理系统通过设置多台光热集热器采集太阳能,将太阳能转化为热能储存在光热储热罐内,同时设置保温回路单元,通过在氢气气液分离器与氧气气液分离器的内部设置换热盘管,换热盘管通过保温循环管路与光热储热罐连通,从而对碱液进行加热升温,升温加热后的碱液回流至电解槽,保证电解槽的温度处于工作温度范围内,以便于在需要工作时快速启动。
Absstract of: CN121720215A
本发明提供了一种热电联供系统,包括:储能换热子系统和有机工质循环子系统,储能换热子系统包括用于存储太阳能的热化学储能组件、热侧入口与热化学储能组件连接的第一换热器以及与第一换热器的热侧出口连接的第二换热器,第一换热器的冷侧入口与地热水采出井连接;有机工质循环子系统包括:蒸发器和第一预热器,蒸发器的热侧入口与第一换热器的冷侧出口连接,且冷侧出口与第二换热器的冷侧入口连接,第一预热器的热侧入口与蒸发器的热侧出口连接,且冷侧出口与蒸发器的冷侧入口连接。本发明能够通过将地热能与太阳能热化学储能进行耦合,共同对有机工质循环子系统提供热能,进行热电联产,实现对地热能和太阳能的高效利用。
Absstract of: CN121720214A
本发明公开了一种太阳能热水器的循环节水系统,它包括:储水箱置于热水器本体旁边,储水箱与热水器本体内部连通;集能板置于热水器本体上,集能板面向太阳能足够的方向,集能板与热水器本体连接;储能板置于热水器与储水箱旁边,储能板分别与集能板和储水箱连接;加热器置于储水箱内,加热器与储水箱固定连接,加热器与储能板连接;出水管一端与储水箱连通,出水管的另一端与用水器连通;进水管一端与热水器本体连通;回水管一端与出水管连通,回水管的另一端与出水管近用水器的部位连通;水量显示器置于用水的室内,水量显示器与室内墙面固定连接。本发明的有益效果是:不容易浪费能量且不容易浪费水,还能即时使用的目的。
Absstract of: CN121720300A
本发明公开了一种聚光集热式高温炉窑系统,涉及太阳能热利用技术领域,包括炉窑主体、聚光系统和控制系统;炉窑主体内设有加热腔室,外部设有集热器,集热器向加热腔室传递热量以加热物料;聚光系统包含若干可调节角度的聚光单元,用于追踪并聚集太阳光至集热器;控制系统调节聚光单元朝向及炉窑主体运行参数。本发明以太阳能为主要能源,显著降低化石能源消耗及碳排放,适用于陶瓷、冶金、水泥、农产品干燥等多类工业高温场景,具有突出的节能减排优势及良好的通用化特性。
Absstract of: CN121702043A
本发明涉及集热场控制装置技术领域,尤其涉及一种线性菲涅尔集热场反射镜端部角度控制装置,安装机构,包括用于安装反射镜的第一安装部、用于安装端部镜元的第二安装部以及用于连接第一安装部和第二安装部的第一连接轴,第二安装部可绕第一连接轴的中心轴线相对于第一安装部转动;驱动机构,与第一安装部固定,用于驱动第二安装部相对于第一安装部转动;测距机构,用于测试反射镜一端与地面间的距离,测距机构的测试端始终竖直向下。本发明通过万向测距机构和独立调节反射镜端部的端部镜元的角度,实现对边缘光线的主动、动态校正,将因太阳位置变化而偏离集热管的反射光重新导向集热管,从而提高整个线性菲涅尔集热系统的集热效率和能量输出。
Absstract of: CN121694276A
本发明提供一种用于海水养殖池升温和保温的水透镜加热器及使用方法,涉及海水加热技术领域。包括水透镜单元和至少一个保温单元,水透镜单元与保温单元形成上下分布的层叠结构,水透镜单元位于加热器的下方,保温单元叠加在水透镜单元的上方;水透镜单元内部形成用于注水的注水腔,保温单元内部形成用于注入空气的空气腔;水透镜单元和保温单元均由透光薄膜制成。该加热器通过温室效应锁热、透镜聚光增效与多层空气隔热三重机制协同作用,能够有效缩短海水养殖池的升温周期,在数小时或1‑2天内将低温海水升至适宜养殖的温度,大幅提升育肥效率与生产节奏。
Absstract of: WO2024218779A1
A movement coordination system for floatable solar panels is disclosed. The movement coordination system may include at least one movement coordination unit connectable to at least two solar panel units: and at least two connectors, each configured to be connected to one of the at least two solar panel units. Each movement coordination unit may include: at least one coordinating element connectable by the at least two connectors to at least one solar panel unit. The movement coordination unit may be configured to transfer an angular movement between a first frame of a first solar panel unit and a second frame of a second solar panel unit. The at least one coordinating element may be shaped to maintain a clear path between the first and second solar panel units.
Absstract of: WO2024258737A2
A solar power generation system includes a thermal energy storage vessel containing a thermal mass composition operable to store thermal energy, solar energy collection system, and power generation system. The collection system comprises a first closed flow loop including a solar collector which absorbs solar energy and heats a first working fluid. The heated first working fluid recirculates through a first closed flow loop through and heats the thermal mass composition. The generation system comprises a second closed flow loop including a turbine-generator. The second closed flow loop recirculates a second working fluid through the thermal mass composition to absorb thermal energy and heat the second working fluid which flows to the turbine and the generator produces electricity. The second working fluid may be water/steam or a compressible gas. The thermal mass composition comprises a mixture of a phase change material such as salt and a metallic material.
Absstract of: CN121710814A
一种PVT模块,该PVT模块具有光伏电池和热吸收器;制造PVT模块的方法及具有至少两个PVT模块的PVT装置。
Absstract of: CN121702041A
本发明公开了一种油田场站原油风光互补加热系统及方法,包括光热加温装置、储热换热箱、热泵和风机;储热换热箱介质出口分别与光热加温装置和热泵换热进口连接,光热加温装置和热泵的换热出口均与储热换热箱介质进口连接;储热换热箱内置换热盘管,换热盘管进口连接有进口管线,换热盘管出口连接有出口管线;储热换热箱内设置有电加热装置,风机输出端与电加热装置的电源输入端连接。充分利用风机占地面积小,发电时间长的特点,充分利用可再生能源,进一步降低网电的消耗。
Absstract of: CN121702042A
清洁发展机制要求尽最大努力用清洁能源代替化石燃料。现行太阳能加热管集热装置,加热管固定,聚光镜普遍是设置在地面小转角,这方便设计、施工,节约投资;但是,镜面系统采光量不足、效率低,反射到加热管的能量不足,光能利用率低,同时加热单一;很多用能场所,周围有充足太阳能白白浪费,苦于没有合适设施利用,如很多老旧工矿场景、机关、学校、医院、宾馆、百姓民用等加热采暖,致使太阳光能白白浪费。本专利推出悬挂式太阳能聚光加热管系统,热媒加热管布置在高空,正好是槽式聚光镜焦点线附近,加热管上吊挂着聚光镜,聚光照射加热管道;加热管还可是组件组合结构,实现多功能加热;极易在现有城、乡低成本高效率利用太阳能。
Absstract of: CN121701918A
本发明涉及跨季节储热技术领域,具体公开一种储热水体耦合热泵的绿电跨季节储能消纳供热系统,该系统包括:太阳能集热场;与集热场连接的集热侧换热器;跨季节储热水体,其内部设有上部的第一布水器和下部的第二布水器,以实现“上进上出”式取放热,维持热分层;集热侧热泵,在非采暖季接入,对流入储热水体的循环水进行辅助加热;供热侧换热器,其一次侧与储热水体出口连接;供热侧热泵和/或辅助热源,连接在供热侧换热器二次侧下游,用于提升供热侧循环水温度。该系统解决了太阳能供热的季节性错配问题,通过优化布水方式减少了热混合损失,利用热泵协同运行实现了绿电的跨季节消纳与存储,提升了系统能源综合利用效率与供热稳定性。
Absstract of: CN121702044A
本发明公开了一种基于多温度反馈的组合式太阳能热水调节方法,该方法通过实时监测太阳能热水器的入户水温(T1)、室内储水箱的水温(T2)及混合管路的输出端水温(T3),根据三者的相对关系,智能控制室内的分流装置,将太阳能热水动态分配至直通和储能两条路径。该方法能实现了“即开即热”,避免了使用前排放管道冷水造成水资源浪费;通过贮存高温水和优先利用低温水,提升太阳能热水输出流量和利用率;并在需要辅助电加热时,仅对室内小容量储水箱进行补热,克服了传统方案高能耗问题。进一步,该方法还可结合监测太阳能储水箱水温(T4),在T1、T2均低于舒适温度时,智能选择执行排冷操作或启动辅助电加热,实现更优的能源利用。
Absstract of: US20260078931A1
One or more embodiments relates to a concentrating solar power system, a method of transforming solar radiation into thermal energy and electricity, and a solid fluidized-particle solar receiver enabling direct and indirect solar radiation absorption. In at least one embodiment, the solid fluidized-particle solar receiver includes an absorber plate, at least one pipe, a channel distribution network, a fluidized particle lifting mechanism, and a glass envelope. In at least one embodiment, the absorber plate has a first and opposing second side, where the at least one pipe is connected to the first side. The channel distribution network is in fluid communication with at least the at least one pipe and the opposing second side of the absorber plate. The fluidized particle lifting mechanism is in fluid communication with at least the at least one pipe.
Absstract of: WO2026060084A1
A parabolic trough solar collector for concentrated solar power (CSP) applications includes a solar concentrator, a central mount to which the solar concentrator is coupled, and a receiver tube fixed at a focal point above the solar concentrator. The solar concentrator is operable to actuate relative to a single axis through the receiver tube. The surface of the solar concentrator is arranged with a fixed slope relative to a horizontal plane.
Absstract of: US20260078930A1
Disclosed is a reflector panel assembly for use in a concentrated solar power system, the assembly comprising a reflector comprising a sheet element having a front surface and a rear surface, the reflector configured to receive and reflect electromagnetic radiation incident on the sheet element, a base configured to support the reflector such that a contact surface between the rear surface and the base is configured to maintain a predetermined shape of the reflector. Disclosed also is a base configured to support a reflector for use in a concentrated solar power system, the base composed of sheet material and comprising a plurality of protrusions spaced apart across a surface of the base, the plurality of protrusions extending to contact portions at peaks of the protrusions, the contact portions configured to form a contact surface which supports the reflector.
Absstract of: CN121677179A
本申请实施例提供了一种热水器控制方法和相关设备,属于热水器技术领域。该方法包括:获取环境温度和日照数据;根据环境温度和日照数据进行季节判定,确定当前季节;若当前季节为预设定季节,则通过天气系统确定天气情况;根据天气情况,对热水器的太阳能模块和空气能模块进行不同策略的控制,以对水源进行加热。本申请实施例能够提高能源利用率和供热稳定性。
Absstract of: CN121677337A
本发明涉及提出了一种锂/钠离子电池正极材料喷雾干燥的三源耦合与双环解耦控制供热系统及方法,该系统将尾气余热、太阳能光热与相变储热三源并联接入导热油热母管,经工艺气体加热器形成两级间接换热隔离。其控制方法的核心在于:通过控制单元(PLC)构建以喷雾干燥塔进风口温度(Tin)为目标的外环和以热母管温度(Tbus)为目标的内环构成的双闭环解耦控制,并设置余热优先、太阳能辅助、储热补偿的优先级及充放热互锁逻辑。本发明能够在热源波动工况下,使Tin在200-350℃范围内实现稳态波动≤±9℃,并在低辐照或余热不足时连续供热≥2h,从而保证喷雾干燥所得锂/钠离子电池正极材料粉体的粒度与比表面积一致性。
Absstract of: CN121677078A
本发明公开一种光伏光热耦合地热多能利用系统,主要由水源热泵机组、地埋管换热器、PV/T集热器、蓄能水箱,它们通过管道相互连接并连接空调冷/热水进水管和空调冷/热水回水管以及生活热水进水管和生活热水回水管。据此,发明人还建立了相应控制方法,通过控制设置在管道上的电动调节阀的启闭,实现夏季制冷、冬季供暖、制热水、直接冷却和高效发电等功能。本发明耦合太阳能、地热能和常规能源,两两互补梯级利用,既可以降低太阳能电池板温度,提高光电转换效率,又能产生热水供热,确保土壤源吸放热平衡,最大限度地回收可再生能源。
Absstract of: CN121676936A
本发明提供了一种光热耦合火电机组的供热系统及运行方法,属于供热技术领域。该系统在传统的供热火电机组上耦合槽式聚光镜场、高低温储罐与换热组件,槽式聚光镜场一端与低温储罐相连,另一端与高温储罐相连,利用太阳能加热工质;高低温储罐分别与换热组件相连,加热火电机组冷凝水或热网回水为供暖或供汽管路供热。本发明应用于光热耦合火电机组供热系统,实时监测火电机组调峰顶峰需求、供热负荷及光照资源变化,增强火电机组调峰及顶峰能力,同时保障供热稳定性。
Absstract of: CN121677186A
本发明提供了太阳能热水箱控制方法及系统,方法提及,实时监测分层水箱各层、高温水箱的水温值,以及各水箱的出水流量值,基于水温与流量双参数动态计算混合比例,将高温水箱与分层水箱输出的热水混合,通过动态计算热水混合比例,可以降低混合热水温度与用户设定水温之间的偏差,同时确保用户需要的热水流量。系统提及,太阳能集热装置内设置太阳能板,通过太阳能板可以获取能量,为系统的水箱供热,分层水箱与高温水箱通过第一输水管道与第二输水管道向热水混合器中输入预设比例热水量的热水,在热水混合器中混合,在热水混合器中混合到用户需要的温度值以及流量值后,向用户输入对应流量的热水,以达到用户的热水需求。
Absstract of: CN121676104A
本发明公开了一种降能增量发电装置及工艺。包括:预冷换热器发电介质进口与发电机构连接;深冷换热器发电介质进口与所述预冷换热器发电介质出口连接;发电介质循环泵,其与所述深冷换热器发电介质出口连接;蒸发器,其与所述发电介质循环泵连接;螺旋分离器与所述蒸发器连接;高温位换热器,其与所述螺旋分离器连接;发电机构,其与所述高温位换热器连接;补温装置与所述预冷换热器和深冷换热器的天然气出口连接;第一外输管路与所述补温装置连接;太阳能发热装置通过中间介质管路分别与高温位换热器和补温装置连接。本发明的有益效果是:既能够有效地增强降能增量发电装置的安全性、又能够确保了过冷度,同时提高了工艺装置发电量。
Absstract of: CN121677183A
本发明涉及光伏技术领域,具体为一种较高性能的光伏光热一体机及制造方法,包括边框和保温层,所述保温层安装于所述边框的内部,所述边框的内部设有导热管组,所述导热管组的顶部设有涂覆型低温熔焊料,所述导热管组的外部设有第一集热板,所述第一集热板的顶部设有第二集热板,所述第二集热板的顶部粘接有第一层胶膜;本发明集热平板独特的两层铝板热压结构设计,上层为整张铝板,下层为有间隙的多张铝板拼接而成,这种结构在保证集热平板强度的同时,能够更好地适应热胀冷缩带来的变形,减少因长期户外放置各部件因材质不同步而热胀冷缩变形带来的缺陷,从而增强了设备整体的结构稳定性,延长设备的使用寿命。
Absstract of: JP2026048559A
【課題】従来の循環式太陽熱発電装置は冷却装置を2台使用するので、製造コストが高くなり、かつ、消費電力の料金が高くなり、煙突内の温度を高くすることができないので、発電量を多くするためには、煙突の高さを高くしなければならないので、装置自体が大きくなるため、製造コストが高くなる欠点があった。【解決手段】1台の冷却装置の代わりに、ヒーターに置き換え、煙突内の温度を高くするために、冷却装置の蒸発器の上部に蒸発器の冷却効率を上げるために、蒸発器用送風機を設置する。【選択図】 図1
Absstract of: CN121677092A
本申请提供了一种基于碳‑热变温调控的太阳能通风墙系统和控制方法,包括:电致变色玻璃设于通风墙最外侧;吸附床设于电致变色玻璃与集热板之间,内部填充多孔碳吸附材料;集热板表面设有吸热涂层,用于吸收太阳能并向吸附床传导热量;通风罩用于控制空气的流通路径及风量;传感控制模块包括:传感器、通讯控制单元及PID控制器,传感器用于采集温度数据和二氧化碳浓度数据;通讯控制单元用于传输传感器采集的数据至PID控制器,PID控制器与电致变色玻璃、通风罩分别电连接,用于基于接收的传感数据调控电致变色玻璃的电压及通风罩的开启状态。本发明能够发展低能耗甚至无能耗的被动式通风技术与室内二氧化碳直接捕集转化技术,实现碳-热双重控制。
Absstract of: WO2025032388A1
Described is a method for managing a trackable solar panel assembly and a variable reflective surface. The method can receive solar farm characteristics and location characteristics for the solar farm. The method can also receive solar panel assembly characteristics for a solar panel assembly and variable reflective surface characteristics for a variable reflective surface. The method can optimize control parameters for the solar panel assembly and the variable reflective surface, based on the solar farm characteristics, the location characteristics, the solar panel assembly characteristics, and the variable reflective surface characteristics. The method can adjust the variable reflective surface based on the control parameters.
Absstract of: CN121651476A
本发明涉及界面水蒸发、海水淡化、污水处理技术领域,公开了一种具有双螺旋侧向结构的太阳能蒸发器,包括具有吸水输水功能的基底,所述基底的外壁设有能够主动诱导空气微对流的双螺旋结构,所述双螺旋结构为沿轴向延伸的双螺旋凹槽或双螺旋凸起;在蒸发过程中,双螺旋结构能够主动破坏空气停滞边界层,增强水蒸气的向外扩散,降低侧向表面的饱和蒸汽压,从而显著增强侧向表面的蒸发速率;本发明的核心在于一种独特的、功能性的宏观几何结构,且此结构为蒸发器主体的一体化构成部分,而非外部附加件。
Absstract of: CN121647215A
本发明公开了一种空气热交换加温系统,涉及水产养殖领域,包括:养殖水池、水循环模块、热交换模块和控制模块;所述水循环模块用于实现养殖水池中水体的循环流动;热交换模块,通过空气换热设备对所述水循环模块中的循环水加热,从而提高所述养殖水池的水温;控制模块,对水循环模块中的循环设备和所述空气换热设备进行控制。本发明有效解决了现有加温设备投资高、能耗大、维护难、环保性差的问题,为中小型水产养殖场所提供了低成本、高适配、安全环保的水体加温解决方案。
Absstract of: CN121654491A
本发明涉及电热储能技术领域,公开了一种太阳能热发电与高温热泵的耦合运行方法及耦合系统。该方法包括:利用汽轮发电机组的低温抽汽作为低温热源,通过高温热泵系统将风电光伏的过剩电能与所述低温热源热能共同转化为中温热能,存储于中温熔盐中;再通过太阳能聚光集热系统将中温熔盐加热至发电所需高温并存储;最终利用高温熔盐产生蒸汽驱动汽轮发电机组发电。其中,高温热泵与太阳能集热对熔盐的加热过程相互独立,并通过中温熔盐罐实现独立控制与衔接。本发明通过能量梯级利用与控制,减少了太阳能集热面积与投资成本,高效消纳了波动性弃电并回收了机组余热,提升了光热电站的持续供电能力、运行效率与电网调峰灵活性。
Absstract of: CN121649218A
本发明属于工业废盐处理技术领域,公开了一种太阳能塔式集热工业废盐有机杂质热解反应系统,包括储盐罐、旋转分流器、分流管道、集盐箱、导流装置、渐变式方形管反应器、V形导流装置、集盐罐、定日镜场、尾气排出管、旋风分离器、尾气净化装置及电动阀门等,构建集热‑反应一体化半连续处理体系。系统采用渐变式方形管反应器与旋转分流器动态适配太阳能高斯热流,依托重力驱动实现废盐无动力流态化输送,通过批次填充‑独立热解‑逆向排气避免进料与废气干扰,以热流‑物料动态适配调控保障复杂工况稳定运行,高效实现工业废盐有机杂质热解、有机杂质脱除盐回收及尾气达标排放,兼具节能与环保性,适用于规模化工业废盐无害化处理与资源化回收。
Absstract of: AU2026201296A1
RGUP-0009 An electromagnetic radiation collecting and directing apparatus is described herein. The electromagnetic radiation collecting and directing apparatus facilitates directing light from an exterior of a structure to an interior of a structure. The directed light is then distributed as necessary within the structure for heating, illumination, or is stored for use at a later time. RGUP-0009 eb - e b
Absstract of: AU2024333137A1
A heliostat dirigible with a fluid containment structure defining a fluid volume configured to contain a lighter than air fluid. A curved reflective surface is supported by the fluid containment structure when the fluid volume contains a lighter than air fluid. The curved reflective surface is configured to reflect and concentrate sunlight at a target. Tethers and/or connections for a plurality of tethers are arranged around the fluid containment structure such that the attitude of the fluid containment structure can be adjusted when it is floating above the ground.
Absstract of: AU2026201223A1
There is provided a concentrated solar energy collection system including an array of heliostats and a solar receiver including a plurality of tubes having at least one inlet and at least one outlet for carrying a heat transfer fluid. A flow control arrangement is provided for controlling the flow of heat transfer fluid through the tubes. This includes at 5 least one radiation sensor such as a pyranometer for sensing values representative of the aggregate solar radiation falling on the solar receiver via the heliostats. At least one temperature sensor measures input temperature of the heat transfer fluid (HTF) at or near the inlet. A controller responsive to the radiation sensor and the at least one temperature sensor regulates the outlet temperature of the HTF by controlling the flow 10 of HTF through the tubes via the flow control arrangement. A pressure differential sensor arrangement measures pressure differential across the flow control arrangement, providing an input to the controller. Fig 6 15 eb e b Tom Tax Tom ****** Receiver Receiver eb e b e c e i v e r i g
Absstract of: US20260071608A1
The present invention relates to a dual-use solar vortex greenhouse with a clamshell-shaped roof comprising a plurality of multi-paned, paired trapezoidal chutes (1) configured to capture and concentrate solar-heated air. Heated and moistened air flows through vanes (32, 33) into a swirl chamber (27), forming a vortex that spins an electric wind turbine (10) to generate electricity. A cone (2) and stack (16) assembly stabilize the vortex and directs exhaust upward. The interior of the greenhouse (55) supports hydroponic plant cultivation with integrated climate control systems, including shutters and/or orifice closure doors (11,42,35), dampers (23,30,31) misters (34), and radiators (43), which are electronically regulated by a plurality of thermostats (41) including a humidistat, anemometers (41), actuators (24) including a photocell sensor. The structure is modular and latitude-adjustable for maximizing solar capture, and can be prefabricated. The invention integrates renewable energy generation with sustainable food production, providing efficient use of land, water, and solar resources.
Absstract of: US20260071783A1
A solar energy collection system comprising: a plurality of tracked Fresnel lens arrays; a corresponding plurality of thermal cells positioned to receive solar energy focused by the respective plurality of tracked Fresnel lens arrays; and a working fluid circulation system that circulates a working fluid through the plurality of thermal cells to a discharge point. The discharge point comprises a power conversion unit such as a thermal engine and generator. A thermal housing comprises a first trough-shaped portion that accepts at least one thermal storage device; a second trough-shaped portion providing an air channel for flow of air; a baffle that redirects flow of air through the second trough-shaped portion to the first trough-shaped portion; and a top plate including at least one aperture that enables communication of heat into the first trough-shaped portion.
Absstract of: CN121631665A
一种光热‑空气能蓄热耦合的霜控热泵供能系统及其供能方法,涉及供能系统领域。为了解决现有的供能系统不能在极寒环境下稳定功能、能效低下、热泵稳定性差、除霜方式不合理、能源成本高、设备寿命缩短、供暖效果不佳的缺陷,本发明采用光热预热系统收集太阳能,为空气源热泵提供预热;空气源热泵收集空气能,对极寒环境进行供能;智能霜控系统用于将光热预热系统与空气源热泵相结合,实现对光热预热系统和空气源热泵的智能协同控制;传感器组用于实时监测空气源热泵的运行参数。本发明主要用于为高寒地区供暖、工业热泵、高效除霜等领域提供了高效、可靠的供能系统。
Absstract of: CN121631590A
本发明属于太阳能热发电技术领域,公开了一种安装调节装置及吸热器组件安装调节系统,其包括第一滑动摩擦件和推动组件。第一滑动摩擦件设置于第一部件和第二部件之间,第一滑动摩擦件被配置为用于减少第一部件与第二部件之间的摩擦力;第二部件上包括至少一个推动组件安装位,每个推动组件安装位均设置于第一预设线的周向上,至少一个推动组件安装位上设置有推动组件;推动组件包括固定部和移动部,移动部可移动地设置于固定部中,固定部能安设于第二部件上,移动部连接于第一部件,或是移动部抵接于第一部件。其能够解决吸热器组件和安装钢架之间安装位置调整的问题,同时兼顾解决制造、安装过程中因误差导致的安装问题。
Absstract of: CN121631589A
本发明公开了一种用于太阳能空气能协同的加热控制方法及系统,该方法包括:获取户外温度和加热系统的储水容器温度;所述加热系统包括有设置在同一供水回路中的太阳能加热模块和空气能加热模块;根据所述户外温度,判断是否符合光照条件,得到第一判断结果;根据所述储水容器温度,判断是否符合空气能启动条件,得到第二判断结果;根据所述第一判断结果和所述第二判断结果,确定所述太阳能加热模块和/或所述空气能加热模块的加热工作策略。可见,本发明能够实现基于天气与水温的智能模块协同控制,提升加热系统的能源利用效率与稳定性,降低因天气或温度误判导致的能耗浪费或加热不足风险。
Absstract of: CN121631621A
本发明公开了一种基于柔性辐射制冷材料的动态调控与集热系统及应用,属于太阳能利用技术领域;包括若干个仿生趋光柔性曲面辐射制冷装置场、跟踪系统和太阳能光热利用系统;仿生趋光柔性曲面辐射制冷装置场包括柔性辐射制冷膜、膜面平曲转换装置和若干支撑杆;跟踪系统包括控制器以及与控制器电连接的温度传感器和光强传感器;太阳能光热利用系统包括太阳能接收器和储热罐,储热罐内设有传热工质;高温环境下,柔性辐射制冷膜在反射太阳光至太阳能接收器的同时,通过红外辐射向外部散热,降低建筑室内降温所需能源的消耗;同时,太阳能接收器收集的热量储存于储热罐,可用于建筑日常热水供应,实现太阳能高效利用。
Absstract of: CN121631361A
本发明公开了一种基于自动清洗镜场的高原光热供暖装置及其使用方法,属于高原光热供暖技术领域。本发明提供的装置,包括设置在吸热塔周边的若干定日镜,每个定日镜的镜面底部设置有立柱,定日镜通过立柱以扇形或弧形方式布置在山地支撑地面上,立柱上集成有自适应清洗机构,通过多段铰接连杆构成的连杆组和自适应清洗头实现复杂地形下的稳定清洗,同时结合压力传感器维持微正压接触状态,实现了高原山地地形下的镜场高效布置,通过阶梯式排列消除定日镜之间的阳光遮挡,提升光能收集效率。同时,集成式清洗机构摆脱了对地面通行条件的依赖,通过自适应压力控制保证不同形状镜面的清洁质量,显著提高复杂地形环境下的系统运行可靠性。
Absstract of: CN121631591A
本发明公开了一种熟水制备装置及方法,旨在解决现有熟水制备能耗高、换热效率低、余热浪费及储存温降快的技术问题。该装置通过智能换热单元(太阳能换热水箱+余热回收水箱)实现“温度优先”的动态预热,结合闭环余热循环单元回收利用热量,搭配双路分流活化与余热保温储水设计,在降低35%‑55%能耗的同时,制备出小分子团熟水并实现24‑48小时长效保温,该装置及方法能制造出符合人体健康饮用标准的熟水,符合节能减排政策,适用于灌装水及直饮水供应企业的更新改造。
Absstract of: CN121632915A
本发明公开了一种耦合太阳能的节能型高温氨腐蚀测试及分析系统,包括太阳能加热模块、液氨罐、蒸发器、第一过滤器、缓冲罐、第二过滤器和测试单元;太阳能加热模块利用光伏发电和集热为蒸发器提供热能,液氨经蒸发器气化后依次通过第一过滤器和缓冲罐,进入第二过滤器进行多级净化;第二过滤器采用吸附与缓冲复合结构,结合不同材质的过滤层,提高氨气纯度;测试单元内置多段密集度不同的螺旋盘管,配合外部感应线圈加热。该装置通过太阳能驱动和氨气循环利用,显著降低能耗,同时多层过滤和分段温控设计提升了腐蚀测试的准确性和适用性,可模拟不同高温条件下的氨腐蚀环境,具有高效节能、测试精确、自动化程度高等优点。
Absstract of: CN121609397A
本发明适用于环保工程领域,提供了一种环保工程用污水处理设备,包括卧式反应容器,且卧式反应容器通过位于自身底部的支柱进行安装,还包括:配置有温敏型聚合物凝胶的填充层,填充层位于卧式反应容器的内部;光伏组件,光伏组件通过支架安装于卧式反应容器的顶部,光伏组件包括滑动设置在支架顶部的两个光伏部件,两个光伏部件能够同步且呈相对方向移动;部署于卧式反应容器和光伏组件上的传感器阵列。其有益效果是:本发明通过光伏部件的滑动开合智能调控太阳辐照对卧式反应容器的热输入,低成本地为温敏凝胶创造所需的周期性变温环境。
Absstract of: CN121605887A
本发明提供一种农业设施太阳能土壤储供热系统,用于解决现有设施冬季增温除湿过程中所存在的各种问题。该储供热系统包括太阳能聚光集热模块和热输运模块;太阳能聚光集热模块布置于农业设施外部,用于收集汇聚太阳光线并加热流经其内部的循环介质空气,以向热输运模块提供热空气;热输运模块包括送热管、换热管和风机;换热管位于农业设施内的土壤中,两端分别通过送热管与对应端的太阳能聚光集热模块相连;其中一端的送热管上设置有风机;换热管内部嵌装有可变形隔热板;可变形隔热板将换热管内部分为上下两个空间,可变形隔热板通过其位置或/和形状的改变使热空气从其上部空间或下部空间流过。
Absstract of: CN121618479A
本发明涉及能源技术领域,其公开了一种煤基SOE/RSOC多能互补能源大基地的构型,构型包括连接于电力母线的燃煤电站、光伏‑风电、SOE/RSOC单元、储能子系统,以及连接于所述SOE/RSOC单元的太阳能聚光集热,所述SOE/RSOC单元包括所述SOE单元和RSOC单元;所述燃煤电站与所述SOE/RSOC单元耦合以提升燃煤电站灵活性与调峰能力,保障区域电网稳定基础电力,所述太阳能聚光集热预热所述SOE/RSOC单元来流物料。本发明将氢能作为能源转换与存储的核心媒介,通过SOE/RSOC电解模式消纳过剩区域电力制氢,再通过RSOC发电模式将氢能转化为电力,实现绿电‑氢能‑绿电的闭环。
Absstract of: CN121605886A
本发明提供一种太阳能聚光土壤增温与空气取水自灌溉装置,属于农业设施太阳能热利用技术领域。该装置能够在有太阳辐射时,实现对种植土壤的增温,无日照时,实现空气取水自灌溉。该装置包括太阳能聚光单元、蒸发冷凝单元以及集水单元;蒸发冷凝单元包括锥形蒸发管;锥形蒸发管内底部具有蒸发液;使用时,锥形蒸发管底部插入种植土壤中;太阳能聚光单元设置在锥形蒸发管头部,用于将太阳光线反射聚焦后进入锥形蒸发管;锥形蒸发管内表面为内反射面,用于将进入锥形蒸发管的太阳光线反射到底部的蒸发液表面;集水单元设置在锥形蒸发管位于种植土壤上部的外壁面,用于收集设施内湿空气的冷凝水,并使冷凝水汇聚形成水流后向下流动进入种植土壤中。
Absstract of: JP2026037900A
【課題】従来よりも簡易且つ効率的にレゴリスから固形材を形成可能な固形材製造装置を提供する。【解決手段】固形材製造装置1は、月面100を覆うレゴリスを収納する加熱容器2と、太陽光を反射させる反射鏡5、及び反射鏡で集光した太陽光の照射方向を所望の方向に変えるように制御する照射方向制御手段6を有する反射鏡装置4とを備え、反射鏡5で集光した太陽光の照射にて加熱容器2を所定温度以上に加熱することで溶解した加熱容器2内のレゴリスを所望の形状を成す固形材200に形成可能に構成される。【選択図】図1
Absstract of: CN121618935A
本发明公开了一种光伏光热一体化设备,涉及光伏光热技术领域,包括转位装置、支撑装置、光热装置、光伏装置、联动组件。在光伏模式下,循环液会先供给到聚热筒内,随后再供给到集热组件中的集热毛细管内和透光组件中的导热筒内,当阳光照射到换能组件上的太阳能板时,会产生多余的热量,而多余的热量会被传递到集热毛细管内的循环液中,随后循环液将多余的热量带走,来实现冷却功能。手动将换位组件上的换位螺栓从换位卡孔中拧出,随后通过换位拉板带动换能齿条在换位底板中滑动,换能齿条带动三叶轮转动,三叶轮带动换能卡板在换能底盘上向外伸出,来实现换能底盘与换位底板之间的卡位功能,从而实现换能组件的快速安装功能。
Absstract of: US20260063334A1
A factory for manufacturing useful products while orbiting is space uses concentrated solar energy, high vacuum, and the low temperatures available in a space environment. Gyroscopic forces from rotating machinery are carefully controlled. Liquids, gases, and solid minerals are separated from asteroid and lunar regolith resources.
Absstract of: WO2026048291A1
A photothermal conversion member according to one embodiment of the present invention is capable of performing heating without affecting the transmission and reception of light and without using low-power heating or exclusive heating power. The photothermal conversion member includes a base material with infrared transparency and an infrared-absorbing heat generation layer supported by the base material. When viewed in the normal direction of the base material, the infrared-absorbing heat generation layer may include a pattern section that is patterned, and the infrared-absorbing heat generation layer may include a second portion of an oxide that contains nickel and phosphorus and constitutes a protrusion.
Absstract of: US20260066834A1
The invention provides a new class of solar energy harvesting devices that integrate both photovoltaic and concentrating solar cogeneration systems with shared heliostatic tracking in an inventive manner that enables synergistic benefits and overall optimization. Roof, ground & water supported preferred embodiments provide benefits for varied applications. The new class of synergistic tracking integrated photovoltaic and concentrating solar energy harvesting systems comprise systems that encompass both (i) a nonconcentrating photovoltaic system such as a solar panel and (ii) a concentrating cogeneration system that includes a concentrating photovoltaic (CPV) receiver and a heat transfer subsystem, wherein the two systems (i) and (ii) share heliostatic tracking provided by a tracking subsystem and are inventively integrated physically and operationally to enable benefits in terms of solar energy harvest efficiency, space-efficiency, cost-effectiveness and lifecycle cost of energy, while minimizing or precluding shadowing losses and enabling further benefits.
Absstract of: US20260063332A1
The present invention relates to the system for controlling heat air by using solar block of function of thermal storage. The system discloses a solar block that is part of the exterior wall of a building or placed on the outside of the exterior wall and stores solar radiant heat; a thermal storage wall part that introduces air outside the building, passes through the solar block, and introduces heated air into the building through heat exchange with the solar block; and a heat air circulation part that supplies heated air received from the thermal storage wall part to the inside of the building and uses it as an auxiliary heat source for heating, or selectively dries clothes in conjunction with a drying rack.
Absstract of: WO2026047717A1
A solar-powered waste treatment system comprising a waste treatment vessel with interior chamber for processing waste material, and reflective elements configured to concentrate solar radiation onto the vessel to elevate internal temperature. The system includes adjustment means for optimizing solar radiation concentration based on varying conditions, thermal retention means for minimizing heat loss, and supplemental heating means providing thermal energy when solar radiation is insufficient. Temperature control means maintain predetermined conditions for optimal biological waste processing. The system features modular construction enabling disassembly and deployment in remote locations, with gas processing means treating generated gases before atmospheric release. Multiple processing chambers facilitate sequential waste treatment stages. The reflective elements comprise mirror panel assemblies with enhanced reflectivity coatings mounted on exterior surfaces and positioned to focus solar radiation onto predetermined heating zones, maintaining optimal temperatures for efficient waste decomposition in extreme environmental conditions including high-altitude and cold climate regions.
Absstract of: EP4703657A1
Es wird ein Fenstermodul (1) zur thermischen Regulierung eines Gebäudes beschrieben, mit dem das Gebäude beheizt oder gekühlt werden kann. Dieses umfasst eine Außenverglasung (2) und eine Innenverglasung (3). Die Außenverglasung (2) weist einen kleineren Wärmedurchgangskoeffizient (U<sub>a</sub>) als die Innenverglasung (3) auf, um über die Innenverglasung (3) das Gebäudeinnere thermisch zu regulieren. Ein Luft-Flüssigkeit-Wärmetauscher (5) umfasst ein fluiddurchströmtes Kühl-/Heizelement mit einer Fluidleitung, in der ein Wärmetransportmedium geführt ist. Der Wärmetauscher (5) ist im Einbauzustand des Fenstermoduls (1) unten oder oben, horizontal liegend, in dem Zwischenraum (4) angeordnet ist, so dass er von Luft aus dem Zwischenraum (4) durchströmbar ist. Ein Lüfter (10) ist im Einbauzustand des Fenstermoduls (1) oben oder unten, horizontal liegend, in dem Zwischenraum (4) angeordnet, wobei durch den Lüfter (10) Luft durch den Wärmetauscher (5) geführt wird, um Wärme zwischen der Luft und dem Wärmetransportmedium auszutauschen und um die Luft in dem Zwischenraum (4) in einem Kreislauf zu führen. Ein in dem Zwischenraum (4) angeordnetes Trennelement (19) unterteilt den Zwischenraum (4) in einen inneren Zwischenraum (4I) und einen äußeren Zwischenraum (4A), um eine steigende und eine fallende Luftströmung in dem Zwischenraum (4) zu erzeugen. Eine steuerbar verstellbare Sonnenschutzvorrichtung (11) dient als Sonnenschutzfunktion, die in d
Absstract of: WO2024224028A1
The present invention relates to a system (1) for producing electricity from solar radiation, comprising a support structure (2) and a plurality of photovoltaic modules (11a, 11b, 12a, 12b, 13a, 13c) supported by the support structure (2), characterised in that the photovoltaic modules (11a, 11b, 12a, 12b, 13a, 13c) are arranged at a plurality of levels (21, 22, 23) of the support structure (2) so as to be stacked substantially vertically, the distance between two consecutive levels of the plurality of levels (21, 22, 23) being such that the photovoltaic module or modules (11a, 11b, 12a, 12b, 13a, 13c) of one level (21, 22, 23) are never in the shadow of the module or modules (11a, 11b, 12a, 12b, 13a, 13c) of the immediately higher level (21, 22, 23).
Absstract of: CN121594418A
本发明的太阳能和地热联产发电系统,包括:太阳能装置,太阳能装置包括集热器和蓄热水箱,蓄热水箱的换热出口通过第三管路与蓄热水箱的换热进口相连;发电机组,发电机组包括第一涡轮机和加热器,第一涡轮机的进口与第四管路相连,第一涡轮机的出口通过并联设置的第五管路和第六管路与第四管路的进口连通,第五管路通过第一换热器和第三管路相连;地热储能部,地热储能部包括生产井和注入井,生产井排出的地热水可通过第七管路通入注入井内,第七管路通过第二换热器与第六管路相连以便第七管路内的地热水可加热第六管路内的工质。因此,根据本发明的太阳能和地热联产发电系统便于发电、能耗低且对环境影响小。
Absstract of: CN121594422A
本发明公开了一种多热源热泵的智能协同加热控制方法及系统,本发明涉及建筑供热与热泵技术领域,包括:空气源热泵单元,其蒸发器采用水平叠放排列的翅片结构,且所述蒸发器设置于主机外侧以充分接收太阳辐射;太阳能增强单元,包括涂覆于所述翅片表面的高效太阳能吸收涂层,以及根据太阳辐照强度调节所述蒸发器运行状态的第一控制模块;结合多源协同控制策略,系统能够智能融合太阳能、空气能及电网能源,根据不同环境条件和用能需求自动选择最优能耗组合。该设计在提升能源综合利用效率的同时,增强了系统在不同气候条件下的适应性与运行可靠性,整体结构紧凑合理,降低了安装与维护复杂度。
Absstract of: CN121602472A
本发明提供了一种井口光伏光热一体化供能系统及优化方法,涉及油气开采设备技术领域,该系统包括光伏光热一体化模块、储热系统、发电系统、辅助能源和控制器。光伏光热一体化模块由光伏发电板和集热器组成;储热系统通过热水箱和循环水管与井口用热负载连接;发电系统通过逆变器与井口用电负载连接。本发明还提供了系统的控制方法,通过实时监测光伏发电板和集热器温度、系统功耗等参数,智能控制系统的运行模式,确保系统稳定高效运行。此外,还提供了一种优化方法,通过对系统性能计算进行精细化修正,确定一体化装置的最佳规模,以实现系统低投资成本,同时满足稳定运行要求。本发明提升了系统空间利用率和能源利用率,达到了工程降本增效的目的。
Absstract of: US20260051846A1
A solar energy utilization system is provided with: a Perovskite solar cell part 12 that converts light energy of sunlight into electrical energy; a solar water heater heat-collection plate 14 that is disposed below the Perovskite solar cell part 12, and that collects heat obtained from the sunlight that has passed through the Perovskite solar cell part 12; a casing 20 for housing the Perovskite solar cell part 12 and the solar water heater heat-collection plate 14; a tempered glass part 16 that is provided within the casing 20, and on which the Perovskite solar cell part 12 is placed; and a flow path part 18 that is provided within the casing 20 in contact with the solar water heater heat-collection plate 14, and that allows fluid to flow to exchange heat collected by the solar water heater heat-collection plate 14.
Absstract of: CN121594545A
本发明涉及一种基于物联网的智能光热发电系统,包括:定日镜阵列模块,包括定日镜镜场、清洁单元、跟踪系统及光照强度传感器,用于太阳能采集与传递,反射并聚焦至集热接收器;塔式热处理装置,包括热接收器、多级导流散热通道及储能单元,用于光热转换,并在能量盈余时储存热能,在能量短缺时释放热能;发电系统,包括高温工质管路、热力循环设备及发电机,用于接收热能并发电,并结合储能单元补充能量;智能协同管控装置,包括物联网传感网络、数据感知层、智能决策层及执行层,用于通过传感器采集多源数据,智能决策层基于DRL‑AO算法生成控制策略,执行层下发指令至各模块,实现能量分配的动态优化。该系统能实现光热能量的高效采集、转化与存储。
Absstract of: CN121594521A
本发明公开了一种空气能热水器控制方法、装置、空气能热水器及介质,热水器包括热泵系统、电加热器、太阳能集热结构、内盘管以及水泵,其中,内盘管位于热水器的水箱内部,内盘管通过目标管路与太阳能集热结构连接,水泵设置在目标管路上,方法包括:若检测到热水器进入节能模式,获取水箱内部的第一温度;若第一温度小于预设温度,且第一温度满足水泵的启动条件,控制水泵启动,以使目标管路中的液体循环流动并通过内盘管对水箱中的水进行加热;若第一温度小于预设温度,且第一温度未满足水泵的启动条件,通过热泵系统或电加热器对水箱进行加热。本方案确保了空气能热水器的制热效果以及节能效果。
Absstract of: EP1000000A1
The invention relates to an apparatus (1) for manufacturing green bricks from clay for the brick manufacturing industry, comprising a circulating conveyor (3) carrying mould containers combined to mould container parts (4), a reservoir (5) for clay arranged above the mould containers, means for carrying clay out of the reservoir (5) into the mould containers, means (9) for pressing and trimming clay in the mould containers, means (11) for supplying and placing take-off plates for the green bricks (13) and means for discharging green bricks released from the mould containers, characterized in that the apparatus further comprises means (22) for moving the mould container parts (4) filled with green bricks such that a protruding edge is formed on at least one side of the green bricks.
Absstract of: CN121576712A
本发明提供一种防止熔盐凝固的系统及方法。所述系统用于太阳能热发电站的熔盐系统,熔盐系统包括冷熔盐罐、热熔盐罐、吸热器入口罐、冷熔盐管、热熔盐管、及熔盐泵,包括:内部加热单元,其包括在冷熔盐管内的第一内加热管;在热熔盐管内的第二内加热管;及在吸热器入口罐内的换热管,换热管分别与第一内加热管和第二内加热管连接;热源连接切换单元,其与内部加热单元连接,且被配置为连接至太阳能热发电站中的多个不同热源工质管路和回流工质管路,并能够进行多路切换,以选择性地将多个不同热源工质管路中的任一路引导流经内部加热单元后,汇入多个回流工质管路中对应的一路,从而利用热源工质的热量防止或消除熔盐的凝固。
Absstract of: CN121576635A
本发明提供了一种蓄热型空气源热泵建筑供能系统的运行方式,该蓄热型空气源热泵建筑供能系统包括空气源热泵供暖侧循环回路、空气源热泵供热水侧循环回路、空气源热泵储能侧循环回路、储能方舱供热水循环回路、太阳能集热器循环回路、换热器储能侧循环回路、换热器供热水侧循环回路。本发明通过引入相变蓄热材料储能装置,可以将热量储存起来,在供能阶段释放,保证供能的稳定性。此外,结合太阳能集热器作为辅助热源,能够利用可再生能源补充空气源热泵的供能,提高系统整体能效。本发明将空气源热泵与太阳能集热器相结合具有高效节能、稳定供能等优点,对实现可持续发展具有重要意义。
Absstract of: US20260055756A1
A combined stationary solar CSP, wave motion, and wind power generation and fresh water production system that deploys close structure non-imaging non-tracking solar concentrator array as buoy for wave motion converter system and floating platform for wind mills comprises a divergent Fresnel lens and non-imaging concentrator enabled non-imaging non-tracking solar concentrator based hybrid solar thermal and photovoltaic CSP system, a wave energy converter system, and a vertical axis wind energy system. Wherein, the stationary solar CSP system realizes ultra-high efficiency through solar thermal and photovoltaic cogeneration, substantially-low cost through stationary high concentration ratio concentration, and super-stable power generation through electrothermal energy storage. The system produces fresh water through thermal power generation and uses swappable battery modules to address power transportation and utilization issues.
Absstract of: WO2026043846A1
A solar energy apparatus includes a heat-exchange device that includes a receiving surface and a field of twisting heliostats arranged such that each twisting heliostat of the field of twisting heliostats reflects a corresponding focused disc of sunlight onto the receiving surface. The receiving surface is arranged substantially horizontally with respect to the field of twisting heliostats and above the field of twisting heliostats. Each of the twisting heliostat includes a controllable mechanical assembly configured to provide selective shape-change of a reflecting surface of each twisting heliostat so as to maintain a focus of the corresponding focused disc of sunlight as the sun changes position in the sky. The field of twisting heliostats subtends a maximum 140-degree conical angle to a point proximate a center of the receiving surface, and the corresponding focused disc of each twisting heliostat substantially coincides to form a substantially single focused disc of concentrated sunlight on the receiving surface.
Absstract of: US20260055930A1
In general terms the present invention proposes a device for harvesting renewable energy. The device comprises a wind turbine, a channel for directing wind to the wind turbine, and a solar receiver positioned in the channel for receiving sunlight entering the channel.
Absstract of: WO2026043434A1
A thermodynamic module (A) integrated in standard PV panels (B), in which energy generation and heat transfer processes are carried out, characterised in that it comprises at least one upper heat sink (2), a lower heat sink (4) positioned in parallel with said upper heat sink (2) layer, a evaporator pipe (3) having a refrigerant liquid inlet port (3.1) and a refrigerant vapour outlet port (3.2) positioned between said upper heat sink (2) and lower heat sink (4) layer, and a heat absorption and transfer system transfer system transfer system transfer system heat pump system (P) in which high heat on the standard PV panel (B) is transferred to a storage medium for use as and when desired.
Absstract of: US20260055931A1
A hot water heating system of a dwelling includes a storage tank and a hot water pipe that collects water from a relative upper portion of the storage tank. This water is fed towards a hot water distribution network of the dwelling. The hot water heating system includes in addition a cross-connection pipe that is activated during an emergency mode of the system to direct water from a relative lower portion of the storage tank to be supplied to occupants of the dwelling via the hot water distribution network of the dwelling.
Absstract of: DE102024123778A1
Die Erfindung betrifft ein Befestigungssystem (1) zur Befestigung eines plattenförmiges Bauelements (2) an einer Dachkonstruktion (3), wobei das Befestigungssystem (1) profilierte Träger (4) umfasst, die zu mindestens einem das Bauelement (2) umschließenden Rahmen (5) verbindbar ausgestaltet sind, und wobei die profilierten Träger (4) einen firstseitigen Querträger (6) und einen firstseitigen Querträger (7) sowie zwei in First-Traufe-Richtung (FT) verlaufende Längsträger (8) umfassen, dadurch gekennzeichnet, dass der firstseitige Querträger (6) und der firstseitige Querträger (7) zur Ausbildung einer regensicheren Verbindung (9) ausgestaltet sind, so dass eine überdeckungsfreie Aneinanderreihung der plattenförmigen Bauelementen (2) in First-Traufe-Richtung (FT) erfolgt. Die Erfindung betrifft außerdem ein Modul (100) für ein Dach, insbesondere für ein Schrägdach, umfassend ein solches Befestigungssystem (1) und ein solches plattenförmiges Bauelement (2).
Absstract of: WO2026042309A1
The present invention addresses the problem of low-temperature heat such as solar heat, atmospheric heat, geothermal heat, wetland heat, river water heat, seawater heat, and various kinds of waste heat not being utilized effectively as an energy source. At least one kind of low-temperature heat from among solar heat, atmospheric heat, geothermal heat, wetland heat, river water heat, seawater heat, and various kinds of waste heat is collected in an outer case of a heat collection/heating unit, and the collected heat is radiated to an inner case through a vacuum blackbody concentrated radiation chamber. A heat medium is heated by heat exchange with heat radiated from the vacuum blackbody concentrated radiation chamber in a heat medium heat exchange flow passage, and the heat medium can be effectively utilized as electric power by power generation using a heat source and/or the heat collection/heating unit.
Absstract of: CN121555291A
本发明公开了一种集成光伏和锥型管的分光太阳能聚光器,包括微藻循环反应装置、光伏组件和分光聚光器,微藻循环反应装置包括为透明件且用于为微藻提供生长空间的光生物反应器,光伏组件包括设于光生物反应器的上方且受光面朝向光生物反应器设置的第一光伏板,分光聚光器包括分光聚光件和设于分光聚光件下方的集光聚光件,分光聚光件用于将可见光反射至第一光伏板上并将可见光外的光透射至集光聚光件上,集光聚光件用于将射向其表面的光反射至光生物反应器上。根据本发明的装置,可充分利用太阳光中的能量,提高太阳能的能量利用率,降低本发明的装置的能耗,使得分光太阳能聚光器可以不必利用光能以外的其他能量,降低分光太阳能聚光器的碳排放。
Absstract of: CN121557947A
本发明涉及发电技术领域,本发明提出一种光影传感器、发电装置及发电装置角度判断方法,传感器由带条形开口的遮光壳与沿开口方向等距布置的一维光敏阵列及电路组成,置于聚光镜中心光缝处,实时采集集热管在缝隙的阴影分布。经滤波与峰/谷或质心算法提取阴影中心或峰宽,换算为聚光镜中心法线相对于太阳入射方向的偏差,供闭环跟踪与故障诊断使用。该方案降低对天文模型及温度反馈的依赖,提高追日精度与响应速度,并能早期识别镜面错位、遮挡与缝隙异常,提升发电效率与运行可靠性。
Absstract of: WO2026037443A1
Disclosed in the present application is a photovoltaic-thermal system, comprising a photovoltaic module, a refrigerant circulation system, a detection component and a controller, wherein the refrigerant circulation system comprises a first heat exchanger, a second heat exchanger, a third heat exchanger, a first control valve, and a second control valve, the first heat exchanger being connected to the second heat exchanger via the first control valve to form a first circulation loop, the first heat exchanger being connected to the third heat exchanger via the second control valve to form a second circulation loop, and the third heat exchanger exchanging heat with the photovoltaic module; the detection component is configured to output detection parameters; and the controller is connected to the detection component, and is configured to control the opening degrees of the first control valve and the second control valve on the basis of the detection parameters. In this way, the present application can reduce the operating temperature of the photovoltaic module, thereby improving the utilization efficiency of solar energy, and can also realize flexible allocation of heat exchange rates among the heat exchangers in the system.
Absstract of: US20260048341A1
Methods and systems for separating a first metal and an impurity from a metal-containing feed stream are provided. The method can include applying solar energy, for example, by focusing one or more mirrors in one or more heliostats, to heat a metal-containing feed stream in a heating zone to a first temperature to produce a first vapor including the first metal. The first vapor can be condensed in a condensation zone to produce a first liquid including the first metal, and the first liquid can be collected. The system can include a separation unit include a heating zone in fluid communication with a condensation zone and a means for applying solar energy to heat a metal-containing feed stream disposed in the heating zone.
Absstract of: WO2026037981A1
According to an example aspect of the present invention, there is provided a system comprising: at least one energy harvesting device (110) configured to harvest radiative energy from two opposite sides of the respective energy harvesting device (110); a layer of a granular slag material (210) comprising at least 70% of calcium oxide and/or silicon dioxide between the at least one energy harvesting device (210) and ground, whereby solar radiance to a side of each energy harvesting device (210) not facing direct sunlight is affected by reflection from the granular slag material (210), and whereby carbon dioxide is captured from the atmosphere by reacting with calcium oxide comprised in the granular slag material (210).
Absstract of: US20260048342A1
A desalination and brine treatment apparatus (100) includes a support (120) and at least one evaporator component (122) in contact with the support (120), wherein one or more of the support (120) and the evaporator component (122) include mesh (150). Methods of desalination and brine treatment are provided for removing salt (196) from saltwater (102) utilizing energy such as solar energy (104).
Absstract of: WO2026037444A1
Disclosed in the present application is a photovoltaic-thermal system, comprising a photovoltaic module, a refrigerant circulation system, a detection component and a controller, wherein the refrigerant circulation system comprises a first heat exchanger, a second heat exchanger, a third heat exchanger, and a throttling component, the first heat exchanger being sequentially connected to the second heat exchanger and the third heat exchanger via the throttling component to form a circulation loop; one of the second heat exchanger and the third heat exchanger exchanges heat with the photovoltaic module, and the second heat exchanger is provided with a first heat transfer enhancement device; the detection component is configured to output detection parameters; and the controller is connected to the measurement component, and is configured to control the first heat transfer enhancement device on the basis of the detection parameters. In this way, the present application can reduce the operating temperature of the photovoltaic module, thereby improving the utilization efficiency of solar energy, and can also realize flexible allocation of heat exchange rates among the heat exchangers in the system.
Absstract of: DE102024123272A1
Die Erfindung betrifft eine Befestigungsklemme (1) zur Montage einer Montageschiene (110) auf einem Dach mit einem Montageteil (10) mit einer Oberseite (11) und einer Unterseite (12), mit einem Spannhebel (20) mit einer Oberseite (21), einer Unterseite (22) und einem ersten Klemmhaken (23), wobei der Spannhebel (20) über eine Wipplagerung (35) wippend am Montageteil (10) gelagert ist, und mit einer Spannschraube (40), mit der der Spannhebel (20) auf einer ersten Seite (S1) der Wipplagerung (35) derart gegenüber dem Montageteil (10) verspannbar ist, dass auf einer anderen zweiten Seite (S2) der Wipplagerung (35) eine Klemmfläche (24) des ersten Klemmhakens (23) in Richtung des Montageteils (10) bewegt wird. Außerdem betrifft die Erfindung eine Dachbefestigungsvorrichtung (100) mit einer solchen Befestigungsklemme (1).
Absstract of: US20260049600A1
An elevated or ground level vertical cylinder contains a cone structure that may have an exterior lower static screw auger blade that adds cyclonic turbulence to the rising heated air within the cylinder. The additional turbulence increases the speed of a top propeller which increases the amount of electricity generated. The lower screw auger blade may also be connected to an upper screw auger blade and rotate freely around the cone in response to the rising air in the cylinder to add further torque to a vertical drive shaft. Voids in the cylinder may be used to secure mirrors or lenses to increase the temperature of the cylinder. Mirrors may be attached to the cone to further reflect solar energy to increase the air temperature within the cylinder. The outside perimeter of the cylinder receives solar energy by use of mirrors and lenses directed toward the cylinder.
Absstract of: US20260047628A1
The present invention relates to the fields of clothing and thermal insulation, specifically to a thermal insulation material capable of absorbing solar energy and releasing heat. The present invention can be used as a material for manufacturing thermal insulation products such as clothing, blankets, quilts, etc., and serves the function of temperature regulation.
Nº publicación: EP4696948A1 18/02/2026
Applicant:
DEUTSCH ZENTR LUFT & RAUMFAHRT [DE]
Deutsches Zentrum f\u00FCr Luft- und Raumfahrt e.V
Absstract of: EP4696948A1
Montagevorrichtung (1) für ein Solarkollektormodul (100) mit gekrümmter Spiegelfläche (110), mit einer Stützstruktur (3) mit mehreren Spiegelauflageflächen (5), deren Position an der Stützstruktur (3) und Ausrichtung an eine vorgegebene Form eines Spiegelelements (120) oder mehrerer Spiegelelemente (120) des Solarkollektormoduls (100) angepasst ist, mit mindestens zwei Aufhängehalterungen (9) zum Aufhängen der Stützstruktur (3) an Lagerständerungen (130) des Solarkollektormoduls (100), und mit mindestens einer Befestigungsvorrichtung (13) zur lösbaren Fixierung einer Rahmenstruktur (140) des Solarkollektormoduls (100) an der Stützstruktur (3).
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