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一种竖向安装透镜聚光加热高沸点流体的储能装置

Resumen de: CN120403094A

一种竖向安装透镜聚光加热高沸点流体的储能装置，包括一竖向安装的导热密封外管2，导热密封外管2中套有轴向的循环内管4，循环内管4的上端开放，下端穿过导热密封外管2的底部密封层连通保温密封容器10，导热密封外管2底部有高沸点流体入口6，高沸点流体入口6通过管道连接储能循环泵8，储能循环泵8的另一端通过管道连通保温密封容器10并形成一个闭环回路，在整个循环回路的空腔和保温密封容器10内有高沸点流体12，围绕导热密封外管2的外面设置有可旋转支架14，可旋转支架14上固定有线性聚光透镜组件16，线性聚光透镜组件16将光线聚焦于导热密封外管2的表面。

一种可调节式光伏光热耦合系统

Resumen de: CN120415275A

本发明涉及太阳能发电技术领域，尤其是涉及一种可调节式光伏光热耦合系统。包括光热反射镜，所述光热反射镜上设有光伏电池阵列，所述光伏电池阵列包括多个半透明光伏电池，每个所述半透明光伏电池分别通过角度调节机构与所述光热反射镜连接。本发明提供的系统中光伏电池阵列包括多块小面积的半透明光伏电池，每个半透明光伏电池分别与光热反射镜通过角度调节机构连接，每个半透明光伏电池都可以根据太阳光照的角度和强度独立调节与光热反射镜之间的夹角，调节光热反射镜的接收光量和整个系统的透光率，动态调整光谱利用效率，从而提高系统的光电转化效率和光热发电效率。

一种定日镜吊装加长卡具装置及其使用方法

Resumen de: CN120403095A

本发明公开了一种定日镜吊装加长卡具装置及其使用方法，涉及太阳能光热发电技术领域。本发明包括定日镜部件，包括安装支架，设置于所述安装支架顶部的定日镜本体；固定部件，包括设置于所述安装支架两侧的固定组件，设置于所述固定组件内部的侵入组件，设置于所述侵入组件内部的内涨组件。本发明通过对双向螺杆转动使螺纹连接在其两侧的螺纹套筒转动，间接的通过剪叉杆使扩张板扩张，从而完成卡具的安装，然后，通过固定盒的移动间接的控制钩板的端部发生转动，从而对固定座进行钩住，不需要工作人员频繁的吊装工具固定在吊机上，解决了现有的卡具固定不牢固，且需要人为频繁固定的问题。

多源协同喷雾冷却的聚光分频光伏制氢系统及调控方法

Resumen de: CN120400864A

本发明涉及光伏冷却制氢技术领域，具体提出一种多源协同喷雾冷却的聚光分频光伏制氢系统及调控方法。通过夹套管分频及反应管实现太阳光谱的精准分离，其中可见光波段经由光伏组件转化为电能，而红外波段则通过催化反应管进行光热转换，将富余热能直接用于电解水制氢的活化过程，实现太阳能的梯级利用。还实现精准控温，结合闭环温控策略将光伏板温度稳定在最佳区间。风光互补供电与废热梯级回收装置协同提升能源利用率，多功能集成电控系统通过动态博弈优化算法与数字孪生仿真平台实现氢‑电‑热多目标调度。不仅使太阳能电池工作温度稳定在最佳效率区间，同时将传统系统的热能损耗转化为制氢有效能源，构建了高效稳定的太阳能‑氢能转换系统。

METHODS AND DEVICES FOR STIMULATING GROWTH OF GRAPE VINES, GRAPE VINE REPLANTS OR AGRICULTURAL CROPS

Resumen de: MX2025008577A

A growth chamber for improving growing conditions of a growing plant which include a growing grape vine, grape vine replant or other agricultural crop plant. The growth chamber includes a solar concentrator for collecting and concentrating solar energy, a Iight transmitter in optical communication with the solar concentrator, for directing the collected solar energy toward the growing plant, an inner wall comprising a perimeter positioned between the solar concentrator and the growing grape vine or grape vine replant, the inner wall further comprising a reflective inner surface for directing collected solar energy toward the growing plant, and a protective inner surface configured for placement around the growing plant, the protective inner surface defining a protected zone surrounding the growing plant, the protective inner surface extending downward from the Iight transmitter and comprising a rigid outer wall for protecting the protected zone from one or more growth limiting factors.

一种耦合太阳能储热的压火热备热力系统及运行方法

Resumen de: CN120402884A

本发明提供了一种耦合太阳能储热的压火热备热力系统及运行方法，属于循环流化床机组设备领域。所述系统设置太阳能集热器、高/低温熔盐罐、熔盐‑水换热器及熔盐‑蒸汽换热器，太阳能集热器的熔盐出口、高温熔盐罐、高温熔盐泵、第八三通阀、熔盐‑水换热器、第七三通阀、低温熔盐罐、低温熔盐泵、太阳能集热器的熔盐入口依次连通；第八三通阀的第二出口与熔盐‑蒸汽换热器的熔盐侧入口连通，熔盐‑蒸汽换热器的熔盐侧出口与第七三通阀的第二入口连通。运行时，常规状态下将太阳能储存在高温熔盐罐的熔盐中；开启压火热备时，将熔盐中的能量通过换热器，加热给水/蒸汽产生满足汽轮机安全运行的蒸汽。本发明延长了压火周期，提升了深度调峰能力。

SUPPORT SYSTEM FOR OFFSHORE SOLAR PHOTOVOLTAICS EQUIPMENT

Resumen de: AU2025200186A1

SUPPORT SYSTEM FOR OFFSHORE SOLAR PHOTOVOLTAICS EQUIPMENT A support system for offshore solar photovoltaics equipment includes a float platform (1), float bodies (2), a ballast member (4), and a carrier frame (6) disposed on the float platform (1) and defining an accommodating space (61). The float platform (1) defines a plurality of limiting grooves (111) each of which extends in the longitudinal direction (A) and that are spaced apart from each other in a transverse direction (B) transverse to the longitudinal direction (A). The float bodies (2) are disposed in the limiting grooves (111) and protrude out of a bottom surface of the float platform (1). Each float body (2) surrounds and defines an inner space (21) adapted for a liquid or a gas to be filled therein. The ballast member (4) is connected to the float platform (1) and extends downwardly from the float platform (1) across bottom sides of the float bodies (2). (Figure 3) SUPPORT SYSTEM FOR OFFSHORE SOLAR PHOTOVOLTAICS EQUIPMENT A support system for offshore solar photovoltaics equipment includes a float platform (1), float bodies (2), a ballast member (4), and a carrier frame (6) disposed 5 on the float platform (1) and defining an accommodating space (61). The float platform (1) defines a plurality of limiting grooves (111) each of which extends in the longitudinal direction (A) and that are spaced apart from each other in a transverse direction (B) transverse to the longitudinal direction (A). The float bodies (2)

WIND AND WAVE REDUCTION DEVICE FOR AN OFFSHORE SOLAR PHOTOVOLTAIC MODULE AND WIND AND WAVE REDUCTION SYSTEM INCLUDING THE SAME

Resumen de: AU2025200182A1

WIND AND WAVE REDUCTION DEVICE FOR AN OFFSHORE SOLAR PHOTOVOLTAIC MODULE AND WIND AND WAVE REDUCTION SYSTEM INCLUDING THE SAME A wind and wave reduction device includes base seats (11) and base pipes (12). Each base seat (11) has two lateral ends and through holes (110) disposed between the lateral ends. Each base pipe (12) extends through a respective one of the through holes (110) of each of the base seats (11). Step plates (16) are disposed on support frames (15), and each of the support frames (15) is positioned between two adjacent ones of the base pipes (12). A lateral frame (21) is connected transversely to one of the lateral ends of each of the base seats (11). A blocking plate (22) is fixed to the lateral frame (21) and has air disturbing holes (220). (Fig. 1) WIND AND WAVE REDUCTION DEVICE FOR AN OFFSHORE SOLAR PHOTOVOLTAIC MODULE AND WIND AND WAVE REDUCTION SYSTEM INCLUDING THE SAME A wind and wave reduction device includes base seats (11) and base pipes (12). Each base seat (11) has two lateral ends and through holes (110) disposed between the lateral ends. Each base pipe (12) extends through a respective one of the through holes (110) of each of the base seats (11). Step plates (16) are 10 disposed on support frames (15), and each of the support frames (15) is positioned between two adjacent ones of the base pipes (12). A lateral frame (21) is connected transversely to one of the lateral ends of each of the base seats (11). A blocking plate (22) is fixed to the l

Verfahren zur Herstellung eines nachhaltigen Energieträgers

Resumen de: DE102024102614A1

Die Erfindung betrifft ein Verfahren zur Herstellung eines nachhaltigen Energieträgers, wobei das Verfahren die folgenden Schritte umfasst:- Herstellen eines Methan (3) und Kohlendioxid (4) umfassenden Gases (2) aus organischem Müll (1) in einer Fermentationseinheit (10),- Abtrennen des Methans (3) und des Kohlendioxids (4) aus dem Gas (2) in einer Trenneinheit (20),- Umwandeln des Methans (3) in Wasserstoff (5) und Kohlenstoff (6) in einer Umwandlungseinheit (30), insbesondere einer Pyrolyseeinheit,- Umwandeln des Kohlendioxids (4) und des Wasserstoffs (5) in Methanol (7) in einer Methanolsyntheseeinheit (40), wobei die Trenneinheit (20), die Umwandlungseinheit (30) und die Methanolsyntheseeinheit (40), vorzugsweise ausschließlich, durch in einer Solarenergieeinheit (50) erzeugten Strom und/oder Wärme, betrieben werden.

SOLAR ENERGY COLLECTION ASSEMBLY

Resumen de: WO2025156014A1

A solar energy collection assembly comprising: a first spherical mirror assembly having a first reflective mirror surface with a centre located above the first spherical mirror, a radius of curvature R1 and a focus located on a first movable axis which passes through the centre of the first reflective mirror surface and through the sun with a first sunlight absorbing receiver adapted to be movably positioned to substantially align with the first movable axis in a plurality of positions for receiving and absorbing reflected light when sunlight is reflected by the first reflective mirror surface; a second spherical mirror assembly arranged above the reflective surface of the first spherical mirror assembly in a non-concentric configuration relative to the first spherical mirror assembly, the second spherical mirror having a second reflective mirror surface with a centre located away from the second spherical mirror, a radius of curvature R2 and a focus located on a second movable axis which passes through the centre of the second spherical mirror and through the sun with a second sunlight absorbing receiver adapted to be movably positioned to substantially align with the second movable axis in a plurality of positions for receiving and absorbing reflected light when sunlight is reflected by the second spherical mirror; and a rotation mechanism for rotating the combination of the first and second spherical mirror assemblies about a common axis to allow the reflective surface of

Mounting bracket for an offshore photovoltaic module

Resumen de: AU2024278637A1

MOUNTING BRACKET FOR AN OFFSHORE PHOTOVOLTAIC MODULE A mounting bracket (2) for an offshore photovoltaic module includes a buoyancy body (21) extending along a lengthwise direction (A), a first pole (22) and a second pole (23) disposed on and extending from the buoyancy body (21) along a height direction (B) 5 and spaced apart from each other in the lengthwise direction (A), and a reinforcing beam (24) and a carrying beam (25) connected with the first and second poles (22, 23). Each of the first and second poles (22, 23) has a U-shaped cross-section for increasing the second moment of area, thereby improving the resistance to flexure of the first and second poles (22, 23). The reinforcing beam (24) extending in an inclined manner to 10 further improve the resistance to flexure in the lengthwise direction (A) so as to enhance the rigidity and durability of the entire offshore photovoltaic module assembly. (FIG. 2) MOUNTING BRACKET FOR AN OFFSHORE PHOTOVOLTAIC MODULE A mounting bracket (2) for an offshore photovoltaic module includes a buoyancy body (21) extending along a lengthwise direction (A), a first pole (22) and a second pole 5 (23) disposed on and extending from the buoyancy body (21) along a height direction (B) and spaced apart from each other in the lengthwise direction (A), and a reinforcing beam (24) and a carrying beam (25) connected with the first and second poles (22, 23). Each of the first and second poles (22, 23) has a U-shaped cross-section for increasing th

Solar Energy Directed to a Cylinder Containing a Propeller Used to Generate Electricity

Resumen de: US2025243850A1

An elevated or ground level vertical cylinder houses one or more propellers and/or turbines that are rotated by heated air convection within or around or above the cylinder. The rotating shafts of the propellers generate electricity in an area at the bottom of or below the cylinder. For added, improved air flow directions and volumes; and, for stabilization of the rotating shaft or shafts, a cone structure is disposed below the cylinder. Heat is directed to the cylinder by a plurality of sun tracking concave mirrors that are positioned in concentric circles at various heights. The cylinder may be composed of concrete, ceramics, metal compounds or other materials and operate with a surface temperature that may range from 70 to 1,300 degrees Fahrenheit. Disclosed embodiments include the use of heat sinks, internal blades disposed upon pyramid structures and flexible vanes and flaps,

PHOTOELECTRIC BUILDING BLOCK

Resumen de: US2025247043A1

The invention relates to a photoelectric building block comprising a rigid support (1), made of a single extruded piece of non-metal material, provided with a front with a first coupling configuration (10) formed by a sunken channel (11) between two opposing parallel grooved guides (12) that define a narrowing of the opening of the sunken channel (11), at least one photoelectric panel (2) with a second coupling configuration (20) inserted into the sunken channel (11) and having opposite coupling ends (21) inserted into the two grooved guides (12); wherein the photoelectric building block further comprises a retainer device (30) which exerts a thrust on the opposite coupling ends (21) of the second coupling configuration (20), moving them away from the bottom of said sunken channel (11) and thrusting them against the lower surface (13) of the two grooved guides (12), retaining the photoelectric panel (2).

BUILDING-INTEGRATED THERMAL PHOTOVOLTAIC BUILDING CLADDING SYSTEM

Resumen de: US2025247041A1

A building integrated thermal and photovoltaic cladding system includes: an exterior layer including photovoltaic elements, an interior layer including heat exchange modules; a load-bearing structure including one or more spacers configured to maintain the exterior layer in spaced apart relation to the interior layer, and providing an air flow conduit therebetween for receiving air from the exterior, the air flow generally passing over the interior layer by natural circulation.

Enclosed Solar Thermal Energy Generation System and Methods of Operation

Resumen de: US2025244053A1

The invention relates to enclosed solar parabolic trough reflector systems for thermal heat generation that can ultimately be used in various applications. The system includes a modular dual arch building design with a transparent building envelope and a reflector assembly connected within the building through a bearing assembly. The system is particularly suited for solar heat collection in harsh environment.

太陽光発電モジュール設置用支持装置

Resumen de: AU2024278637A1

MOUNTING BRACKET FOR AN OFFSHORE PHOTOVOLTAIC MODULE A mounting bracket (2) for an offshore photovoltaic module includes a buoyancy body (21) extending along a lengthwise direction (A), a first pole (22) and a second pole (23) disposed on and extending from the buoyancy body (21) along a height direction (B) 5 and spaced apart from each other in the lengthwise direction (A), and a reinforcing beam (24) and a carrying beam (25) connected with the first and second poles (22, 23). Each of the first and second poles (22, 23) has a U-shaped cross-section for increasing the second moment of area, thereby improving the resistance to flexure of the first and second poles (22, 23). The reinforcing beam (24) extending in an inclined manner to 10 further improve the resistance to flexure in the lengthwise direction (A) so as to enhance the rigidity and durability of the entire offshore photovoltaic module assembly. (FIG. 2) MOUNTING BRACKET FOR AN OFFSHORE PHOTOVOLTAIC MODULE A mounting bracket (2) for an offshore photovoltaic module includes a buoyancy body (21) extending along a lengthwise direction (A), a first pole (22) and a second pole 5 (23) disposed on and extending from the buoyancy body (21) along a height direction (B) and spaced apart from each other in the lengthwise direction (A), and a reinforcing beam (24) and a carrying beam (25) connected with the first and second poles (22, 23). Each of the first and second poles (22, 23) has a U-shaped cross-section for increasing th

太陽光発電設備設置用支持装置

Resumen de: AU2025200186A1

SUPPORT SYSTEM FOR OFFSHORE SOLAR PHOTOVOLTAICS EQUIPMENT A support system for offshore solar photovoltaics equipment includes a float platform (1), float bodies (2), a ballast member (4), and a carrier frame (6) disposed on the float platform (1) and defining an accommodating space (61). The float platform (1) defines a plurality of limiting grooves (111) each of which extends in the longitudinal direction (A) and that are spaced apart from each other in a transverse direction (B) transverse to the longitudinal direction (A). The float bodies (2) are disposed in the limiting grooves (111) and protrude out of a bottom surface of the float platform (1). Each float body (2) surrounds and defines an inner space (21) adapted for a liquid or a gas to be filled therein. The ballast member (4) is connected to the float platform (1) and extends downwardly from the float platform (1) across bottom sides of the float bodies (2). (Figure 3) SUPPORT SYSTEM FOR OFFSHORE SOLAR PHOTOVOLTAICS EQUIPMENT A support system for offshore solar photovoltaics equipment includes a float platform (1), float bodies (2), a ballast member (4), and a carrier frame (6) disposed 5 on the float platform (1) and defining an accommodating space (61). The float platform (1) defines a plurality of limiting grooves (111) each of which extends in the longitudinal direction (A) and that are spaced apart from each other in a transverse direction (B) transverse to the longitudinal direction (A). The float bodies (2)

水上式太陽光発電設備用防護装置および防護システム

Resumen de: AU2025200182A1

WIND AND WAVE REDUCTION DEVICE FOR AN OFFSHORE SOLAR PHOTOVOLTAIC MODULE AND WIND AND WAVE REDUCTION SYSTEM INCLUDING THE SAME A wind and wave reduction device includes base seats (11) and base pipes (12). Each base seat (11) has two lateral ends and through holes (110) disposed between the lateral ends. Each base pipe (12) extends through a respective one of the through holes (110) of each of the base seats (11). Step plates (16) are disposed on support frames (15), and each of the support frames (15) is positioned between two adjacent ones of the base pipes (12). A lateral frame (21) is connected transversely to one of the lateral ends of each of the base seats (11). A blocking plate (22) is fixed to the lateral frame (21) and has air disturbing holes (220). (Fig. 1) WIND AND WAVE REDUCTION DEVICE FOR AN OFFSHORE SOLAR PHOTOVOLTAIC MODULE AND WIND AND WAVE REDUCTION SYSTEM INCLUDING THE SAME A wind and wave reduction device includes base seats (11) and base pipes (12). Each base seat (11) has two lateral ends and through holes (110) disposed between the lateral ends. Each base pipe (12) extends through a respective one of the through holes (110) of each of the base seats (11). Step plates (16) are 10 disposed on support frames (15), and each of the support frames (15) is positioned between two adjacent ones of the base pipes (12). A lateral frame (21) is connected transversely to one of the lateral ends of each of the base seats (11). A blocking plate (22) is fixed to the l

一种太阳能集热洗物系统

Resumen de: CN120385160A

本申请公开了一种太阳能集热洗物系统，包括太阳能热水集热器，太阳能热水集热器与水洗设备连通，太阳能热风集热器与烘干设备连通，太阳能蒸汽集热器、太阳能热油集热器连通的热油蒸汽发生器和热水蒸汽发生器中的至少一个与熨烫设备连通。本申请的有益效果：太阳能技术通过直接利用太阳辐射能，将太阳能转化为洗物系统所需的热水、热风、热油或蒸汽，为洗物系统提供绿色环保的热源供给，显著降低洗物能耗，并兼具环保与经济优势。

一种基于非成像光学的二级反射镜设计方法及聚光集热器

Resumen de: CN120386087A

本发明涉及一种基于非成像光学的二级反射镜设计方法及聚光集热器，属于太阳能光热聚光技术领域；包括如下步骤：S1：根据工程工况确定主反射镜类型，包括抛物面槽式主反射镜PTC或复合抛物面主反射镜CPC；S2：基于主反射镜类型及参数，动态确定吸热内管的尺寸、位置；S3：假设二级反射镜端点位置，然后初始化二级反射镜的起点位置，再依据边缘极端光线原理和光线等程约束条件，通过端点收敛校验生成多段准椭圆线曲面。S4：进行二级反射镜聚光效果分析，优化二级反射镜起点位置，直到二级反射镜的聚光效果达到预期目标；S5：根据二级反射镜和吸热内管的位置和尺寸，选择二级反射镜与真空集热管的结合方式。针对抛物面槽式和复合抛物面集热器存在的聚光比小、光线逃逸、能流密度分布不均及热应力显著等问题，构建了由多段准椭圆线组成的二级反射镜动态设计方法解决了现有技术中出现的问题。

一种灌溉水泵的可再生能源供能系统

Nº publicación: CN120385065A 29/07/2025

Solicitante:

沈阳农业大学

Resumen de: CN120385065A

本发明涉及农业灌溉技术领域，尤其涉及一种基于生物质能、太阳能、风能的灌溉水泵的可再生能源供能系统。其结构如下：生物能燃烧装置通过加热口与水箱连接，水箱通过第一集热管与灌溉水泵连接，第一集热管上设置有盘式太阳能聚热装置、槽式太阳能聚热装置和增强加热管，灌溉水泵与水箱之间还设置有第二集热管，第二集热管上设置有循环水泵，灌溉水泵与灌溉用水管连接。本发明利用多种可再生能源作为灌溉水泵的可持续能量来源，具有清洁低碳的特点，它改善了当下灌溉季节电能驱动水泵对电网的影响，降低了灌溉成本。