Alerta

In-roof solar-thermal-panel frame and system

Resumen de: GB2638658A

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

SYSTEM FOR COATING A METAL STRIP WITH A LAYER OF MOLTEN METAL

Resumen de: WO2024089610A1

A system for coating a metal strip with a layer of molten metal, comprising - a pot (2) containing the molten metal bath; - an annealing furnace (3), arranged upstream of said pot (2), for annealing a strip advancing towards said pot (2); - at least one heating zone (4), arranged upstream of said annealing furnace (3) for preheating the metal strip, or in an intermediate position or end position of said annealing furnace (3) for further heating said strip; - a solar plant (5) for recovering heat from solar radiation; - at least one first conduit (6) adapted to carry a first heat-transfer fluid to convey said heat from said solar plant (5) towards the heating zone (4); - at least one heat exchanger (15, 7, 7') cooperating with said at least one first conduit (6, 6') for recovering heat from said first heat-transfer fluid and heating the metal strip in said at least one heating zone (4, 4').

用于光伏设备的承载结构

Resumen de: WO2024133854A1

To simplify the assembly of the components to be produced for this, but also to increase the mechanical stability of the connection between a vertically extending post (2) and a horizontally extending crossmember (3) of a supporting structure (1) of a photovoltaic installation (25) with PV modules (24) suspended upright on the supporting structure (1), it is proposed to establish the connection between the respective post (2) and the respective associated crossmember (3) by means of a separate adapter element (4), which is inserted, preferably from the inside to the outside, in a through-opening (5) formed in the post (2) and/or which is supported flat against at least two outer surfaces (9b, 9c) of the post (2) which extend in different directions in relation to a longitudinal axis (30) of the crossmember (3).

一种聚光太阳能地热储能实验系统

Resumen de: CN120576496A

本发明涉及系统耦合与控制技术领域，具体涉及一种聚光太阳能地热储能实验系统，包括聚光与地表源子系统、井身热流交换子系统、地热源和能储子系统以及地层等效矩阵子系统。聚光与地表源子系统，用于将汇聚的太阳能转换为热能，利用该热能加热指定类型流体工质至预设温度后，将其输送至井身热流交换子系统，由该子系统进行热能传递、地层热交换；地热源和能储子系统，用于对传递的热能进行储集，以保障热能的稳定供应与灵活调配；地层等效矩阵子系统，用于基于地层物理模型和相关参数，进行地层渗流实验、热交换实验、米级储能实验、压裂实验的数值模拟，以辅助剖析地层的渗透性、热导率、热容这些关键物理特性，以及它们对热能存储与传递的影响。

一种多色印刷机水性油墨清洗水零排放分色浓缩回用装置

Resumen de: CN120573788A

本发明属于能源环保领域，具体涉及一种多色印刷机水性油墨清洗水零排放分色浓缩回用装置。该装置通过自动识别多色印刷机各墨辊水性油墨清洗废水颜色，实现各色废水分别处理，浓缩提纯的水性油墨可印刷回用，分离的清水可用于进一步清洗墨辊，达到零排放的效果。同时，不同色彩浓缩罐并联运行，独立处理，互不影响。该装置高效回收水性油墨废水蒸发出的二次蒸汽热量用于加热物料，结合太阳能集热和自然冷源实现整套装置的节能、稳定运行。在水性油墨清洗废水处理领域，相比现有技术，该装置具有自动化程度高，回收利用率高，处理效果好，处理成本低，占用空间小的优势，可达到环保节能降碳的目的。

一种光热驱动的冷-热-电-水多联供装置、方法及应用

Resumen de: CN120576493A

本公开涉及新能源技术领域，尤其涉及一种光热驱动的冷‑热‑电‑水多联供装置、方法及应用。本公开将槽式光热单元、超临界CO2布雷顿循环单元、跨临界CO2动力循环单元、蒸发式制冷/制热循环单元以及海水淡化单元耦合起来，实现了对太阳能的深度利用，提升了能量利用率，该装置可对周边进行夏天供冷、冬天供暖、日常供水、供电等，同时，有助于减少温室气体排放，推动全球向低碳经济转型；且该装置与方法尤其适用于海边用能场景，为临海居民或工业提供多种资源，减少对化石燃料依赖，具有较好的应用前景。

一种基于PVT的双源热泵热水系统

Resumen de: CN120557802A

本发明提供一种基于PVT的双源热泵热水系统，包括：双源热泵子系统和光伏发电子系统；双源热泵子系统包括PV/T集热器、板式换热器、风冷换热器、压缩机、套管式冷凝器、电子膨胀阀和保温水箱；PV/T集热器具有光伏组件及集热组件，集热组件与板式换热器通过管道连接成第一循环回路，板式换热器、压缩机、套管式冷凝器、电子膨胀阀依次通过管道连接成第二循环回路，外部供水管经过套管式冷凝器后与保温水箱连接；光伏发电子系统具有光伏控制器，光伏控制器上连接有蓄电池；蓄电池上连接有用于驱使第一循环回路中的传热工质循环流动的集热泵；本发明能够提高能源利用效率，保证系统稳定运行，灵活适应多种环境条件。

带相变蓄热换热器的PVT耦合热泵热水系统及其运行方法

Resumen de: CN120557813A

本发明提供一种带相变蓄热换热器的PVT耦合热泵热水系统及其运行方法；带相变蓄热换热器的PVT耦合热泵热水系统，包括：热源一次侧循环回路，热源一次侧循环回路包括PVT光伏光热组件、热源一次侧水泵及相变蓄热换热器；热源二次侧循环回路，热源二次侧循环回路包括空气源水源双源热泵及热源二次侧水泵；以及，热水循环回路，热水循环回路包括热水泵及用热端；本发明采用集成储热和换热功能的相变蓄热换热器，能够显著降低系统复杂程度和减少占地面积；利用空气源水源双源热泵作为PVT光伏光热组件的补充，提高供热水稳定性，降低控制复杂度；利用相变蓄热换热器的相变蓄热，降低PVT光伏光热组件的运行温度，提高其发电效率。

一种绿色建筑预制安装结构及方法

Resumen de: CN120557815A

本发明属于建筑领域，公开了一种绿色建筑预制安装结构及方法。该结构由窗体、辐热板、电池、灯管和灯罩组成。窗体为主体，外侧接收太阳光转化为电能，上部水箱内的辐热板利用阳光将水加热成水气，通过毛细管在窗体内侧下部释放。电池储备电能，为间歇散发紫外光的灯管供电。窗体内侧涂布光催化剂，可见光与紫外光激发产生氢氧自由基抑制病原菌。其底部的底框、卯框、榫框等设计方便组装，水箱由多种部件围成。使用时，安装为建筑外墙，注水后阳光使水蒸发，水气增加湿度，同时光催化产生的氢氧自由基保障健康。本发明解决了传统墙体透光引发的温湿度失衡及病原菌滋生问题，无需额外复杂设备，降低居住成本，打造绿色、健康、节能的居住空间。

A system of elements that enables better utilization of existing heating installations

Resumen de: WO2025165313A1

A system of elements that enables better energy efficiency in existing heating installations is an invention which solves the problem of how to improve existing heating systems for buildings with such a system of elements that achieves better energy efficiency and thus less consumption of fossil fuels and electricity. The thermal installations comprise a domestic hot water boiler (B), a storage tank (Z), an outdoor air-conditioning unit (T6), an indoor heat pump unit (T1) and an outdoor heat pump unit (T2) - elements which are interconnected in a specific way. The advantage of this system is that the outdoor heat pump unit (T2) and the indoor heat pump unit (T1) heat only the water in the storage tank (Z) for space heating purposes and are not overloaded since the sanitary water in the boiler (B) is heated by the outdoor air-conditioning unit (T6), which extracts heat from air in the room. The sanitary water in the boiler (B) can also be heated by solar collectors (S) which are made of glass tubes (S1) containing copper spirals (S2) through which the water flows and which are connected to the upper manifold (S3) above and to the lower manifold (S5) below.

一种月球栖息地装配式月热恒温系统

Resumen de: CN120557817A

本发明提供一种月球栖息地装配式月热恒温系统，包括：装配式月热开采模块，用于与月壤恒温层进行热交换，为月球栖息地供冷或供热，保证恒温环境；辅助供能模块，接收月球表面太阳能并转化为系统运行所需的电能；调控储能模块与装配式月热开采模块以及辅助供能模块电连接，根据月表环境与工作模式控制装配式月热开采模块和辅助供能模块的启闭，并为月球栖息地储存或提供能量。装配式月热开采模块采用装配式设计，其部件均在地球预制，送至月球后，仅需连接管道和线路即可投入使用，装配式月热开采模块的部件包括换热管道，内部具有在月表与深部恒温层间循环的导热流体，换热管道的一部分位于月壤上，另一部分埋入月壤内，与月壤恒温层进行换热。

一种利用室内太阳辐射热能的热激活供暖地板及施工方法

Resumen de: CN120557695A

本发明涉及采暖装置技术领域，公开了一种利用室内太阳辐射热能的热激活供暖地板及施工方法，包括地板表面层，铺设在室内地面上，室内地面划分成直射区、散射区和遮挡区，直射区、散射区和遮挡区上的地板表面层材料均不相同；供暖组件，位于直射区内的地板表面层下方，供暖组件包括储能件和通风件，储能件套设在通风件上，其中当处于蓄热模式时，储能件吸收直射区内的太阳辐射热量并存储，当处于释热模式时，通风件向室内释放储能件内存储的热能；通风系统，设置在室内与通风件连接。本发明通过差异化材料分布的热激活地板，实现室内太阳辐射热能的高效吸收，同时结合相变储能和强制通风措施，提升热能利用效率和室内热舒适性。

一种基于挡风墙阻风吸能的集成式风力与光热发电系统装置

Resumen de: CN120557812A

本发明公开了一种基于挡风墙阻风吸能的集成式风力与光热发电系统装置，包括阻风墙体本身与其上适当位置安装的风力发电机，将墙体导风口与风力发电机相连的导风管道。该装置拥有特殊形状与特定规模的挡风墙能够高效阻挡戈壁自然风，显著减小大风对太阳能发电场内反射镜面的损耗和破坏，同时风力发电机利用导风管道收集的风能进行发电，提高整个系统的发电效率。本发明协同利用了风能与太阳能两种可再生能源，减少了对单一能源的依赖，提高了发电效率的同时降低了土地占用，从而降低了建设和维护成本，在戈壁等光照强、风大的地区体现了极强的环境适应力，综合展现了高效、环保、经济、适应性强等多个优点，具有广阔市场前景。

全内光子吸收六边形系统

Resumen de: WO2024150251A1

A Total Internal Photonic Absorption Hexagonal System (100) comprising a body (100), a plurality of solar cell strips (104), a dome with staggered steps (106), optionally a biconcave lens (108), a conical mirror (110) and a base cap (112). The body (102) is having a first end, a second end, an internal surface and an external surface, wherein the first end is open to allow light to pass through. The plurality of solar cell strips (104) is provided on the internal surface of the body (102) forming a hexagonal pattern. The dome with staggered steps (106) is provided at the first end of the body (102), wherein the dome with staggered steps (106) refracts incoming light into the opening provided at the first end of the body (102). The biconcave lens (108) is provided at the first end of the body (102) to refract light coming from the dome with staggered steps (106) towards the solar cell strips (104). The conical mirror (110) is provided at the second of the body (102) to reflect the incoming light towards the solar cell strips (104). The base cap (112) is provided at the second end of the body (102) to provide a flat bottom.

HYBRID SOLAR CONCENTRATOR APPARATUS

Resumen de: WO2025178603A1

A hybrid solar concentrator apparatus consists of a rotary supporting device (4, 5), a concentrator (1) and a solar energy converter in the form of a vacuum heat pipe (2), which is situated at the focus of the concentrator (1). The apparatus also comprises additional solar energy converters in the form of solar panels (3). The solar panels (3) are situated outside of both the focus and the opening diameter of the concentrator (1) and are connected to an azimuthal rotation assembly (5).

Solarthermischer Wärmetauscher

Resumen de: DE102024000559A1

2.1. Aufgabe der Erfindung ist es einen kompakten solarthermischen Wärmetauscher zu entwickeln, welcher als Dach- oder Fassadenelement, wie auch als Balkonverkleidungselement eingesetzt werden kann, und bei dem mit minimalem Montageaufwand mehrere Absorber problemlos hocheffektiv zu einem Wärmetauscher mit hohe Stabilität verbunden werden können.2.2. Der erfindungsgemäße Solarthermischen Wärmetauscher, zeichnet sich dadurch aus, dass die den Grundkörper (1) des Absorbers (3) ausbildenden Lamellensteckhalbprofile (4) und auch das Lamellensteckvollprofil (5) mittels ihrer Klemmstege (9) in den Klemmnuten (10) der unmittelbar benachbarten Steckprofile verklemmt sind, und dass auf den von den Seitenwandungen (6) der Steckhalbprofile (4) gebildeten Seitenwänden (11) des Grundkörpers (1) beidseitig Stabilisierungsbleche (12) angeordnet sind, die zusammen mit dem Grundkörper (1) den Absorber (3) ausbilden, der eine Einströmöffnung (13) wie auch eine Ausströmöffnung (14) aufweist, die von den endseitigen Öffnungen der Kanäle (2) der Lamellensteckprofile gebildet werden, und dass jeder Wärmetauscher aus einem oder mehreren Absorber/n (3) besteht, wobei an einem Endes des Wärmetauschers ein Einlassmodul (15) und am anderen Ende ein Auslassmodul (16), und zwischen den Absorbern (3) Durchlassprofile (17) angeordnet sind.2.3. Die Erfindung betrifft einen solarthermischen Wärmetauscher zur Erwärmung eines Wärmeträgers durch Absorption solarer Energie mittels eines/me

SOLAR ENERGY SYSTEM WITH RANKINE CYCLE

Resumen de: US2025271184A1

The systems of the present disclosure include a solar-powered steam Rankine cycle (SRC) subsystem to convert solar energy into thermal energy and store the thermal energy; an ejector refrigeration cycle (ERC) subsystem to provide a first refrigeration effect with a first range of temperature based on the thermal energy; an absorption refrigeration cycle (ARC) subsystem to provide a second refrigeration effect with a second range of temperature based on the thermal energy; a brine refrigeration cycle (BRC) subsystem to generate and store when there is no cooling demand and provide a third refrigeration effect with a third range of temperature based on the electrical power generated by the ERC subsystem and the ice being melted; and an adsorption refrigeration cycle (ADRC) subsystem to provide a fourth refrigeration effect with a fourth range of temperature based on the thermal energy.

LUNAR WATER EXTRACTOR

Resumen de: US2025271210A1

A water extraction system including: a base; and an extraction system, the extraction system including: a heated chamber, the heated chamber including an outer annulus and an inner core; a solar reflector; an auger contained within the outer annulus; and a water vapor collection system, wherein the system is configured for feeding regolith from an input bin to an inlet of the heated chamber, wherein the auger is configured to move the regolith along the outer annulus of the heated chamber to a top part of the heated chamber and recycle heated regolith to the inner core, wherein the solar reflector is configured to heat the heated chamber using concentrated solar energy, wherein the heated chamber is configured to liberate water vapor from the regolith, wherein the water vapor collection system is configured to collect the water vapor.

FILM TUNNEL FOR ROADWAYS

Resumen de: US2025270930A1

A film tunnel for forming a roadway roof has supports between which at least one film is stretched. The supports include first and second groups of supports, the first group supports arranged on a first side and the second group supports arranged on a second opposite side of a longitudinal center plane of the film tunnel. The first and second group supports form pairs of supports having spaced upper free ends and connected and retained relative to one another by at least one retaining device. Each support at least of the first and/or second group has a lower part and at least one upper part. When the retaining device is released, the at least one upper part is guided by its weight force along the at least one lower part in the direction of a lower end of the at least one lower part into a lower end position.

A VENTILATION SYSTEM AND A METHOD FOR PREHEATING A SUPPLY AIR IN THE SAME

Resumen de: WO2024085766A1

A ventilation system (1) and a method for preheating a supply air in the same, the system being arranged in a building structure provided with a glazed balcony (3) and comprises a pre-heating device configured for utilizing radiation from the sun to increase a temperature of a ventilation supply air prior to entering a room (5) of the building structure via an air supply channel (10) extending between the glazed balcony and the room. The air supply channel comprises at least one of: - a heat exchanging element (14) comprising a thermal energy storage medium (14S, 14L) for balancing a temperature of the ventilation air flowing from the interior space of the balcony and through the air supply channel, wherein the thermal energy storage medium is selected from at least one of a liquid and a solid substance; and - a heating circuit (15) operatively connected to an energy source.

一种热水器切换方法、装置、控制器及存储介质

Resumen de: CN120538184A

本申请公开了一种热水器切换方法、装置、控制器及存储介质；该方法包括：当太阳能热水器在当前供水时刻上为用户供水时，通过第一温度传感器和第二温度传感器分别获取太阳能热水器在当前供水时刻上的储水温度和出水温度；根据获取到的储水温度和出水温度确定太阳能热水器的参考温度；若该参考温度大于第一基准温度并且小于第二基准温度，则获取太阳能热水器在当前供水时刻上的出水量；根据获取到的出水量控制太阳能热水器或者燃气热水器在下一个供水时刻上为用户供水。本申请可以自动地在太阳能热水器和燃气热水器之间进行切换，无需用户手动操作，节省大量的时间和精力，同时还可以充分利用太阳能热水器中的温水，节约资源，避免频繁切换。

切换装置、切换供水控制方法及热水系统

Resumen de: CN120538185A

本发明属于热水器技术领域，公开了一种切换装置、切换供水控制方法及热水系统，切换装置能够对太阳能热水器和燃气热水器的供水进行切换，包括第一阀体模块、第二阀体模块以及控制模块。第一阀体模块和第二阀体模块能够分别控制该太阳能热水器和该燃气热水器的供水。该第一阀体模块和该第二阀体模块分别通讯连接于该控制模块，该控制模块能够分别控制该第一阀体模块和该第二阀体模块的通断。该热水系统能够简化太阳能热水器和燃气热水器的切换步骤，便于用户使用。

与光热电站耦合的储热系统及其控制方法

Resumen de: CN120538190A

本申请提出一种与光热电站耦合的储热系统及其控制方法，其中，该系统包括：聚光单元、高温吸热器、中温吸热器、高温储热单元、中温储热单元、电加热单元、高温换热器、中温换热器、蒸汽发生器、预热给水系统和控制单元；其中，所述聚光单元、所述高温吸热器、所述高温换热器、所述高温储热单元和所述蒸汽发生器组成高温回路；所述聚光单元、所述中温吸热器、所述中温换热器、所述中温储热单元和所述预热给水系统组成中温回路；所述控制单元用于基于辐照强度在所述高温回路和所述中温回路之间进行切换，并控制所述电加热单元的启停。通过本申请的技术方案，能够提升发电效率和储热系统的循环效率。

定日镜场调控方法及相关装置

Resumen de: CN120538187A

本发明公开定日镜场调控方法及相关装置，可以获得热电偶传感器测得的第一温度值；根据所述第一温度值，校正热像仪测得的温度场；确定校正后的所述温度场是否满足预设设置的温度场要求；若校正后的所述温度场不满足所述温度场要求，则使用预先建立的定日镜场光学计算算法计算得到待调控定日镜的数量、编号和目标点位置；根据所述数量、编号和目标点位置，控制相应定日镜的工作状态。本发明基于热电偶传感器测得的第一温度值可以对热像仪测得的温度场进行校正，以便于依据准确（校正后）的温度场确定是否需要对定日镜进行调整，并且，本发明还可以基于温度场要求准确计算出待调控定日镜的数量、编号和目标点位置，结果准确且效率较高。

一种传热流体集热管及太阳能集热装置

Nº publicación: CN120538182A 26/08/2025

Solicitante:

中广核太阳能开发有限公司

Resumen de: CN120538182A

本发明涉及一种传热流体集热管及太阳能集热装置，该传热流体集热管包括外管、内管及相变储热装置，外管的管壁周向分布有入射部以及非入射部，入射部透明以使入射光穿过；内管设置于外管的管腔内，内管与外管之间形成透明保温结构；相变储热装置包括装置主体以及相变储热介质，装置主体在对应于非入射部的位置与内管热传导配合，相变储热介质密封装于装置主体内。上述传热流体集热管中的相变储热装置通过内管将储存的热量传递给内管中的传热流体，从而减轻或避免内管中的传热流体在阴天或者夜间容易凝结冻堵的问题，提升整个系统的可靠性及稳定性。