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一种装配式光伏箱逆变一体机支撑平台及方法

Absstract of: CN120639011A

本发明公开了一种装配式光伏箱逆变一体机支撑平台及方法，解决了现有技术中光伏箱逆变一体机的支撑平台结构复杂不便于在海边滩涂快速施工的问题，具有结构简单、方便施工的有益效果，具体方案如下：一种装配式光伏箱逆变一体机支撑平台，包括植入海边滩涂中的多根支撑桩，支撑桩呈排呈列布设，第一预制梁固定于支撑桩的桩顶，第一预制梁通过至少两处支撑桩进行支撑，第一预制梁设有多列，通过多列第一预制梁来支撑第二预制梁，第二预制梁设有至少两排，第二预制梁设于同一排支撑桩的上方，第二预制梁同第一预制梁的端部之间间隔距离设置，预制板通过第一预制梁超出第二预制梁的部分进行支撑，预制板同第一预制梁连接。

一种双工况太阳能热泵空调设备

Absstract of: CN120627242A

本发明属于双工况太阳能热泵空调技术领域，具体的说是一种双工况太阳能热泵空调设备；包括机组本体、电机和过滤网；所述机组本体的两侧侧面均开设有进风口；两个所述进风口的内部均固连有过滤网；所述机组本体的顶面开设有出风口；所述出风口的内部固连有固定块；所述固定块的顶面设有球头杆；所述进风口的内部滑动连接有滑块；当出现侧向风时，风会吹动叶片，叶片会带动球头杆倾斜，球头杆会带动第二导电块与第一导电块之间接触，该侧电路导通，对应第一电动推杆启动，第一电动推杆会带动滑块运动，对该侧位置的进风口进行封堵，此时另一侧位置的进风口可以持续吸入新鲜空气，避免机组本体排出的气体由于风力影响再次通过进风口导入问题。

基于严寒地区的钢结构屋面绿色融雪除冰施工方法

Absstract of: CN120625812A

本发明涉及屋面除冰技术领域，更具体而言，涉及基于严寒地区的钢结构屋面绿色融雪除冰施工方法。包括以下步骤：S1、场地勘测与设计；S2、材料与设备准备；S3、施工人员培训；S4、钢结构屋面基层施工；S5、融冰化雪装置安装；S6、电气系统安装；S7、保温与防水处理；S8、系统调试与验收。电气系统采用自动化控制，通过监测设备实时反馈屋面情况，实现了融冰化雪装置的智能运行，提高了系统的智能化水平和节能效果。本发明主要应用于严寒地区的钢结构屋面绿色融雪除冰方面。

SYSTEM AND METHOD FOR VISUAL DETECTION AND MEASUREMENT OF HELIOSTAT MIRROR SOILING

Absstract of: US2025283637A1

A device may include one or more cameras arranged relative to the heliostat field so that heliostats in the heliostat field are in a field of view of the one or more cameras, the one or more cameras operable to capture an image of the heliostat field. A device may include a processor configured to: receive the captured image, detect in the captured image one or more soiled heliostat mirrors in the heliostat field; and determine a level of soiling of said one or more soiled heliostat mirrors in the heliostat field.

Solardach

Absstract of: DE102024106433A1

Die vorliegende Erfindung betrifft ein Solardach mit einer Solardachoberseite, einer Solardachunterseite, wenigstens einem an einem Tragelement mittels Befestigungselementen befestigten Solarmodul und wenigstens einem an das Solarmodul angeschlossenen Überbrückungselement, wobei das Solardach zum Abführen von Niederschlägen über die Solardachoberseite ausgebildet ist, und wobei das Solarmodul ein Solarlaminat aufweist. Die Aufgabe der Erfindung besteht im Aufzeigen von gegenüber dem Stand der Technik verbesserten Solardächern zur effizienten Nutzung von Solarenergie. Diese Aufgabe wird vom dem Solardach gelöst, das zusätzlich wenigstens ein einen Kantenbereich des Solarlaminats einrahmendes Rahmenelement aufweist, wobei das Überbrückungselement an dem Rahmenelement des Solarmoduls oder an den Rahmenelementen von wenigstens zwei benachbarten Solarmodulen mittels Verbindungselementen, insbesondere wenigstens einer Schraube, abgedichtet befestigt ist.

MOLTEN SALT HEAT EXCHANGE SYSTEM FOR CONTINUOUS SOLAR PRODUCTION OF H2

Absstract of: US2025282613A1

Contemplated systems and methods for hydrogen production use a solar heliostat system as an energy source to produce hydrogen during daytime, and employ molten salt as an energy source to produce hydrogen during nighttime.

Solar Receiver With a Porous Absorber

Absstract of: US2025283636A1

A volumetric solar receiver is disclosed having a porous element with a pseudo-periodic lattice structure, wherein said porous element is arranged in the solar receiver to be heated by solar radiation and to transfer heat to a flowing medium. The porous element has a continuous functional gradient with reference to its structure in at least one direction pointing away from an outer region of the porous element arranged to be exposed to solar radiation. The gradient is such that the cell size of the porous element continuously decreases along at least one direction, from the outer region to an inner region of the element, without a discontinuity in the lattice pattern.

SOLAR THERMAL PROCESSING OF AGRICULTURAL PRODUCTS

Absstract of: AU2024225419A1

An agricultural product processing (roasting) system that uses solar power as the primary heat source. An embodiment includes two rotating hollow chambers for containing agricultural products, such as beans or nuts, during a roasting session. An array of heliostats concentrates reflected solar radiation onto the surface of each hollow chamber, typically one chamber at a time, while the other chamber is cooling or being serviced. The rotational velocity is controlled to ensure even heating from the solar heliostat array, and temperature and humidity sensors may be used to monitor and control the system. Various actuators control the rotational velocity, the opening or closing of vents or perhaps louvers, the directional pointing of the heliostat array, and the opening of a door to empty the hollow chamber after processing.

CONSTRUCTION, AND METHOD FOR PRODUCING SAME

Nº publicación: EP4612379A1 10/09/2025

Applicant:

IIS INST FOR INDEPENDENT STUDIES ZUERICH GMBH [CH]
IIS Institute for Independent Studies Z\u00FCrich GmbH

Absstract of: WO2024094580A1

The invention relates to a construction, in particular a wall construction, floor construction, ceiling construction and/or roof construction of a building, said construction consisting of: at least two shells that are spaced apart from one another; and an intermediate space which is substantially empty except for structural member components and/or technical components, is filled at least in sections with sound insulation material, vibration insulation material and/or thermal insulation material, is delimited by the shells, and enclosed between said shells. The construction comprises a component framework that includes at least one formwork which partially or completely forms at least one of the at least two spaced-apart shells, at least one formwork defining an outer surface of the component framework.