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HELIOSTAT ARRANGEMENT

Resumen de: AU2023342977A1

A concentrated solar power facility comprises a sun light collector (105) having a sun light collecting area; a plurality of mirror arrangements for reflecting sun light onto the sun light collector (105); a plurality of light modulating retroreflectors (307) for reflecting modulated light from the sun light collector (105) back to the mirrors (304, 305); a plurality of light sensors arranged to receive light reflected back to the mirrors (304, 305) and to output a light detection signal in response to the reception of modulated light reflected back to the mirrors (304, 305) and a light signal evaluation stage for demodulating the light detection signal and for generating a mirror adjustment signal light signal. At least a part of the retroreflectors (307) is arranged adjacent to and in front of or within the sun light collecting area and in the optical path of light concentrated from a plurality of mirrors (304, 305) directed towards the sun light collecting area, is made from a material having low absorption for visible sunlight, is preferably at least temporarily shielded from and/or cooled against thermal radiation from the sun light collecting area and is modulating light with marginal or no absorption.

MOLTEN SALT DEVICE RESISTANT TO CORROSION

Resumen de: WO2023242509A1

The invention relates to a device (10) comprising: - a component (20) configured to contain or circulate a solution, the component (20) having a wall (21) made of steel or a nickel-based alloy comprising chromium, - a solution (30), in contact with the wall (21), comprising a mixture of molten chloride salts, the solution also comprising Ti2+ ions and Ti3+ ions, the Ti3+/Ti2+ ratio being between 20/80 and 70/30.

一种太阳能综合利用耦合结构及其制备方法和应用

Resumen de: CN119866128A

本发明提供了一种太阳能综合利用耦合结构及其制备方法和应用。本发明的太阳能综合利用耦合结构包括半透明光伏电池、光热反射镜、光谱分频器、不透明光伏电池和光热集热器，半透明光伏电池吸收太阳光谱中的紫外光和可见光，光热反射镜位于半透明光伏电池下方并反射未被半透明光伏电池吸收的剩余光谱，光谱分频器将剩余光谱中的近红外光和远红外光分别分向至不透明光伏电池和光热集热器，不透明光伏电池利用近红外光进行光伏发电，光热集热器利用远红外光进行光热发电。本发明的耦合结构能够达到充分利用太阳光的目的，提升光伏发电与光热发电的协同利用效率，可以广泛应用于塔式、槽式、碟式、菲涅尔式等光热电站。

一种具备主动调节换向功能的风能太阳能结合型热水器

Resumen de: CN119860317A

本发明的实施例提供了一种具备主动调节换向功能的风能太阳能结合型热水器，涉及太阳能技术领域。该具备主动调节换向功能的风能太阳能结合型热水器包括：储水箱、集热管、风力发电装置、驱动组件、叶轮和蓄电池；所述集热管的两端分别与所述储水箱连接，且伸入所述储水箱的内部，所述风力发电装置与所述蓄电池连接，所述蓄电池与所述驱动组件连接，所述叶轮转动安装于所述储水箱的内部，所述驱动组件与所述叶轮连接。本发明的风能太阳能结合型热水器利用风能和太阳能两种可再生能源协同工作，并通过主动调节水流换向功能，使集热管内的水与储水箱内的水循环流动，最终实现储水箱内水温的均匀升高，具有高效、节能的优点。

一种共轭微孔聚合物气凝胶及聚吡咯修饰的三聚氰胺海绵/共轭微孔聚合物复合气凝胶的制备方法及应用

Resumen de: CN119857469A

本发明涉及油水分离材料和光热材料制备技术领域，具体涉及一种共轭微孔聚合物气凝胶及聚吡咯修饰的三聚氰胺海绵/共轭微孔聚合物复合气凝胶的制备方法及应用。本发明首先经过调控反应条件，改变建筑单体介绍了具有高效油水分离的块体共轭微孔聚合物气凝胶的制备方法。其次，以物理粘合，吡咯原位聚合为主要手段，介绍了可高效处理含油废水，产生太阳能蒸汽的聚吡咯修饰的三聚氰胺海绵/共轭微孔聚合物复合气凝胶光热材料的制备方法。本发明介绍了气凝胶在油水分离和含油废水净化处理方面的应用和复合气凝胶在处理含油废水，产生太阳能蒸汽方面的应用。聚吡咯修饰的三聚氰胺海绵/共轭微孔聚合物复合气凝胶具有优异的净水能力。

一种多温区太阳能光热梯级集储一体化智能化系统及方法

Resumen de: CN119860605A

本发明公开了一种多温区太阳能光热梯级集储一体化智能化系统及方法，涉及太阳能集储设备技术领域，包括储热机组、搭设于所述储热机组外侧的一级光能板和二级光能板，所述储热机组的内部设置有用于分级储热的一级储热机构和二级储热机构，所述一级储热机构包括若干个固定安装于所述储热机组内部的一级储热罐；所述一级储热机构和所述二级储热机构之间设置有导流机构；所述一级储热机构和所述二级储热机构的内部设置有控制水流路径的控制机构。本发明公开的一种多温区太阳能光热梯级集储一体化智能化系统及方法具有智能化、高效率、低能耗且运行成本低的效果。

태양광 에너지 시스템

Nº publicación: KR20250053057A 21/04/2025

Solicitante:

디에이치피테크놀러지에이지

Resumen de: AU2023322327A1

The invention relates to a solar installation (11) having a plurality of solar panels (19) arranged in series, wherein an innermost and an outermost solar panel (19) are provided, and having at least one holding element (13) oriented in the longitudinal direction of the solar installation (11), on which holding element the solar panels (19) are held one behind the other and along which the solar panels (11) can be displaced using engagement means from an extended operating position to a retracted protected position and vice versa, wherein adjacent solar panels (19) are connected to one another in an articulated manner such that a pushing or pulling force can be transferred from one solar panel (19) to an adjacent solar panel (19). The outermost and innermost solar panel (19) are, in the protected position, pushed against one another by a mechanical force, as a result of which a stable packet of solar panels (19) is formed which enables the solar panels (19) to protect themselves against weather influences.