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Solicitudes publicadas en los últimos 15 días / Applications published in the last 15 days



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MIRROR FOR A SOLAR REFLECTOR, METHOD OF MIRROR ASSEMBLY AND MANAGEMENT SYSTEM IN A SOLAR FIELD

NºPublicación: WO2018069558A1 19/04/2018

Solicitante:
FUND CENER CIEMAT [ES]
FUND TEKNIKER [ES]

Resumen de: WO2018069558A1

The present invention relates to a mirror (20) for a solar reflector comprising at least one sensor (4) integrated in the body of the mirror itself, the body of the mirror being understood as all the layers that comprise the same. Furthermore, integrating at least one processor in the body of the mirror (20), associated with the sensor (4), gives rise to an intelligent device and thus, to an intelligent mirror or smart mirror. The invention also relates to a method of assembly of the mirror (20) itself and to a management system for mirrors that make up a solar field.



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Vorrichtung (45) als Präzisions-Spiegel / Parabolspiegel aus Segmentteile angeordnet und ein Verfahren dass die Spiegelsegmente in Bewegung versetzt um die Gesamtspiegelfläche anders strukturiert, um in der Ruhestellung, Windkräfte die Angriffsfläche zu nehmen.

NºPublicación: DE102016012402A1 19/04/2018

Solicitante:
MAIER STEFAN ALFRED [DE]

 

SOLAR COLLECTOR HAVING FRESNEL MIRRORS

NºPublicación: US2018106503A1 19/04/2018

Solicitante:
PK ENR [FR]

Resumen de: US2018106503A1

The present specification relates to a solar collector having Fresnel mirrors including a mounting for a set of mirrors made up of strips of mirrors referred to as primary mirrors, each pivoting about a respective axis of rotation referred to as the large axis relative to the mounting, and intended for collecting solar radiation and for concentrating said radiation toward one or more concentrating elements which can be mutually similar or different, carrying a heat-transfer fluid, characterized in that the solar collator comprises a means for moving one or more concentrating elements such as to make the collector mobile relative to the mounting of the set of primary mirrors.



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SOLAR THERMAL COLLECTOR

NºPublicación: CN107923657A 17/04/2018

Solicitante:
\u5343\u4EE3\u7530\u5316\u5DE5\u5EFA\u8BBE\u682A\u5F0F\u4F1A\u793E

Resumen de: WO2017002252A1

A solar thermal collector is provided which can efficiently heat a heat medium flow path that comprises different types of tubes. This solar thermal collector (1) is provided with a heat medium flow path (2) which circulates a heat medium in a condensing position of a condensing mirror (3) that condenses solar heat. The heat medium flow path (2) is configured from a series connection of multiple types of conductive tubes that include heat collector tubes (2a) arranged in a condensing position of the condensing mirror (3). This solar thermal collector is provided with a heating means (30) which, by serially electrifying the serially connected heat collecting tubes (2a), flexible tubes (2e) and piping (2b), heats said tubes and piping. The piping (2b) is provided with a bypass cable (2f) which conducts electricity in parallel to the piping (2b).



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A THERMAL ENERGY ACCUMULATOR

NºPublicación: CN107923656A 17/04/2018

Solicitante:
\u66FC\u82CF\u5C14\u00B7\u963F\u91CC\u00B7\u7A46\u7F55\u9ED8\u5FB7

Resumen de: WO2016207000A1

A thermal energy accumulator comprising a container (4) defines a space (14) adapted to contain a heat accumulating substance (20) being solid at room temperature at ambient atmospheric pressure. In accordance with the invention, said expansion/contraction device (33) comprises a force actuating means (50) associated with said container (4) for taking up thermal expansion and contraction of the heat accumulating substance (20) at melting and solidification, respectively.



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MIRROR FOR A SOLAR REFLECTOR, METHOD OF MIRROR ASSEMBLY AND MANAGEMENT SYSTEM IN A SOLAR FIELD

NºPublicación: ES2663571A1 13/04/2018

Solicitante:
FUND CENER CIEMAT [ES]
FUND TEKNIKER [ES]

Resumen de: WO2018069558A1

The present invention relates to a mirror (20) for a solar reflector comprising at least one sensor (4) integrated in the body of the mirror itself, the body of the mirror being understood as all the layers that comprise the same. Furthermore, integrating at least one processor in the body of the mirror (20), associated with the sensor (4), gives rise to an intelligent device and thus, to an intelligent mirror or smart mirror. The invention also relates to a method of assembly of the mirror (20) itself and to a management system for mirrors that make up a solar field.



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种新型节能搅拌机

NºPublicación: CN107899460A 13/04/2018

Solicitante:
\u6210\u90FD\u4EBF\u65B9\u4E16\u4F73\u79D1\u6280\u6709\u9650\u516C\u53F8

Resumen de: CN107899460A

本发明公开了种新型节能搅拌机,解决了现有技术浪费能源以及不能在搅拌过程中进行加热的问题。本发明包括搅拌机壳体,搅拌机壳体为密闭的双层结构,并且该双层结构的内腔蓄有水,搅拌机壳体顶部设有驱动电机,搅拌机壳体内设有与驱动电机固定连接的搅拌轴,搅拌轴上设有两片以上搅拌桨叶,搅拌机壳体顶部设有太阳能支架,并且该太阳能支架顶部倾斜安装有太阳能电池板,太阳能支架上安装有相互电连接的太阳能控制器和太阳能蓄电池,太阳能控制器分别与太阳能电池板和驱动电机电连接,搅拌机壳体的内腔设有与太阳能控制器电连接的电热丝。本发明结构简单、设计科学合理,使用方便,节能环保。



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OPTICAL CONCENTRATION SYSTEM FOR A SOLAR ENERGY ASSEMBLY AND SAME

NºPublicación: CN107912080A 13/04/2018

Solicitante:
\u5723\u5965\u53E4\u65AF\u4E01\u52A0\u62FF\u5927\u7535\u6C14\u6709\u9650\u516C\u53F8

Resumen de: WO2017008152A1

The invention relates to an optical concentration system (1) for a solar energy assembly, in particular for a concentrator solar energy assembly (9), for concentrating incoming light onto a 5 target area (17) such as a solar cell (7) in the solar energy assembly, the system comprising a first optical element (3) for collecting the incoming light and forming a light cone (13) towards the target area (17) and a second optical element (5) adjacent to the target area (17). In order to provide an optical concentration system (1) for a solar energy assembly and same, which allows a high efficiency for light transmission and concentration and which is easy to manufacture, it is 0 intended according to the invention, that the first optical element (3) is a multi-focal element and that the second optical element (5) is adapted to reflect the light to at least one region (34) of the target area (17) which is outside the center (23) of the target area (17).



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种多曲面槽式太阳能集热系统

NºPublicación: CN107906770A 13/04/2018

Solicitante:
\u6C5F\u82CF\u71D5\u5C71\u5149\u4F0F\u8BBE\u5907\u6709\u9650\u516C\u53F8

Resumen de: CN107906770A

本发明公开了种多曲面槽式太阳能集热系统,包括反射镜,反射镜置于弧形反射镜托的上端,弧形反射镜托的两侧设有若干个弧形连接孔,弧形反射镜托之间通过弧形连接件穿插弧形连接孔进行连接,弧形反射镜托侧的上端通过第三角支撑架与集热管安装梁固定连接,集热管安装梁的侧固定有集热管。本发明的有益效果是:该种多曲面槽式太阳能集热系统,对支架的结构进行改进的同时也对镜托进行了改造,使支架的结构相对简单,能够有效解决现有的槽式太阳能集热器存在的载荷较大,安装困难,不能上房的缺点,且镜托都是采用单个单个弧形的镜托拼接而成,使镜托的尺寸可以不受出厂后固有尺寸的影响,安装方便。



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定管高效光热发电站

NºPublicación: CN107906769A 13/04/2018

Solicitante:
\u738B\u5B58\u4E49

Resumen de: CN107906769A

本发明定管高效光热发电站,是利用太阳能产生高温高压蒸汽而推动蒸汽轮机和发电机进行发电的系统。它由带有全自动双轴跟日机的阳光高热机群、储能产汽部件、动力转换和发电部件及辅助设备构成。可用于建设大型或超大型阳光高热发电站而为电网供电;也可建设分布式小型阳光高热发电站为居民小区或工厂、农场、部队营房等各单位供电。具有热电转换效率可高达百分之三十以上、显热和潜热储存时间长、阴雨天和夜间等无太阳时也能连续发电、双轴全方位全自动跟踪太阳而集热效率高和聚光镜易于制造且成本低廉等优点。



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碟式太阳能供暖、制冷、发电组合系统

NºPublicación: CN107905966A 13/04/2018

Solicitante:
\u5C71\u897F\u4E09\u664B\u4E4B\u7A97\u65B0\u80FD\u6E90\u79D1\u6280\u6709\u9650\u516C\u53F8

Resumen de: CN107905966A

本发明属于太阳能利用技术领域,具体涉及碟式太阳能供暖、制冷、发电组合系统,碟式太阳能供暖、制冷、发电组合系统,包括太阳能集热器、水箱、吸收式制冷机和斯特林发电机,所述太阳能集热器通过油管与水箱连接,通过太阳能集热器对油管中的流体进行加热,油管通过热交换的方式对水箱中的水进行加热,水箱通过输热管与散热器连通并形成循环,吸收式制冷机通过热媒管与水箱连通并形成循环,所述斯特林发电机与水箱连通,斯特林发电机发电过程中产生热水可以流入水箱中。该系统可以对太能进行有效的转变,可以实现太阳能供暖、制冷、发电体化。



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CALIBRATION METHOD AND CALIBRATION DEVICE FOR A GROUP OF REFLECTORS FOR CONCENTRATING SOLAR RADIATION ONTO A RADIATION RECEIVER

NºPublicación: DE102016119000A1 12/04/2018

Solicitante:
FRAUNHOFER GES FORSCHUNG [DE]

Resumen de: WO2018065261A1

The invention relates to a calibration method for a group of reflectors for concentrating solar radiation onto a radiation receiver, having the following steps: A) aligning the reflectors in order to at least partly expose a calibration surface to solar radiation reflected by the reflectors; B) modifying the intensity distribution of the radiation incident on the calibration surface by carrying out a pattern of movements by means of each reflector of the group, wherein at least one specified parameter for the pattern of movements of each reflector differs from the parameters of the other reflectors, said parameter being selected from the group: - movement frequency, - movement amplitude, - movement phase position, and - path curve of the solar radiation reflected by the reflector within the calibration surface; C) recording rows of pixels for a plurality of differently located location points of the calibration surface by means of at least one camera, each row of pixel having at least five temporally offset pixel recordings; D) ascertaining a spectrum for each row of pixels by transforming the row of pixels into the frequency domain; E) assigning a subset of spectra to the reflectors on the basis of the movement pattern parameter of the reflector; and F) determining at least one reflection target position for each reflector at least on the basis of the subset of spectra assigned to the reflector. The invention additionally relates to a calibration device for a group of reflec



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CALIBRATION METHOD AND CALIBRATION DEVICE FOR A GROUP OF REFLECTORS FOR CONCENTRATING SOLAR RADIATION ONTO A RADIATION RECEIVER

NºPublicación: WO2018065261A1 12/04/2018

Solicitante:
FRAUNHOFER GES FORSCHUNG [DE]

Resumen de: WO2018065261A1

The invention relates to a calibration method for a group of reflectors for concentrating solar radiation onto a radiation receiver, having the following steps: A) aligning the reflectors in order to at least partly expose a calibration surface to solar radiation reflected by the reflectors; B) modifying the intensity distribution of the radiation incident on the calibration surface by carrying out a pattern of movements by means of each reflector of the group, wherein at least one specified parameter for the pattern of movements of each reflector differs from the parameters of the other reflectors, said parameter being selected from the group: - movement frequency, - movement amplitude, - movement phase position, and - path curve of the solar radiation reflected by the reflector within the calibration surface; C) recording rows of pixels for a plurality of differently located location points of the calibration surface by means of at least one camera, each row of pixel having at least five temporally offset pixel recordings; D) ascertaining a spectrum for each row of pixels by transforming the row of pixels into the frequency domain; E) assigning a subset of spectra to the reflectors on the basis of the movement pattern parameter of the reflector; and F) determining at least one reflection target position for each reflector at least on the basis of the subset of spectra assigned to the reflector. The invention additionally relates to a calibration device for a group of reflec



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MULTIFUNCTIONAL SOLAR ENERGY SYSTEM

NºPublicación: EP3306223A1 11/04/2018

Solicitante:
BOLY MEDIA COMM SHENZHEN CO [CN]

Resumen de: EP3306223A1

Disclosed is a multifunctional solar energy system comprising a converging system and two solar energy utilization devices (P1, P2), wherein the converging system comprises at least one light-focusing refractive surface (s1) and one reflective surface (s2); at least one of the reflective surface (s2) and the two solar energy utilization devices (PI, P2) are movable; if the reflective surface (s2) is movable, the two solar energy utilization devices (PI, P2) are respectively provided on light paths before and after the reflective surface (s2) moves; and if the reflective surface (s2) is fixed, the two solar energy utilization devices (PI, P2) are successively provided in the light path after the reflective surface (s2). The solar energy system is able to place one of the two solar energy utilization devices (PI, P2) in the light path by moving the movable component so as to respectively use the two solar energy utilization devices (P1, P2) at different times, thereby greatly extending the function of the solar energy system and improving the comprehensive utilization rate of the system.



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种定日镜固定结构及固定方法

NºPublicación: CN107894105A 10/04/2018

Solicitante:
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Resumen de: CN107894105A

本发明公开了太阳能热发电技术领域的定日镜固定结构及固定方法,包括支撑套筒,所述支撑套筒的外壁通过固定螺栓固定安装有固定套箍,所述固定套箍的外侧壁均匀安装有铰链座,所述铰链座的外壁安装有支撑脚,所述支撑脚的底端安装有安装脚座,所述支撑套筒的顶部滑动插接有移动支架,所述移动支架的顶端安装有角度安装板,所述角度安装板的侧壁安装有支撑板,所述支撑板的外壁通过转轴连接有安装板,所述的顶端安装有定日镜安装板,所述支撑套筒的底部贯穿螺接有螺杆,所述螺杆的底端安装有手轮,安装速度快,能够对定日镜进行高度和角度的调节,调节方便快捷,精度较高,操作简单,支撑架构稳定性强,使用寿命长。



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种太阳能空气压缩机

NºPublicación: CN107882708A 06/04/2018

Solicitante:
\u5317\u4EAC\u5DE5\u4E1A\u5927\u5B66

Resumen de: CN107882708A

种太阳能驱动的空气压缩机,属于太阳能热利用技术领域。压缩机系统包括点聚焦菲涅尔透镜、压缩空气罐、调节装置、保温棉、冷却水箱、循环水泵,本发明可对太阳光线进行双轴追踪。所述压缩空气罐包括三种不同结构法兰、石英玻璃、石墨垫片、压力容器、吸热管和冷却盘管,最外侧法兰开有圆形通光孔,吸热管上端开口、下端封闭,底部为半球形,压缩空气罐底部焊有进气管道和出气管道,管道上分别装有进气阀门和出气阀门,用于控制空气的流进和流出,压力容器和法兰外部包有保温棉,加热时可减少装置与外界的传热损失。本发明以太阳辐射作为驱动能源,具有结构简单,运行成本低,高效清洁对环境无污染的优点。



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种太阳能热能传递系统

NºPublicación: CN107883595A 06/04/2018

Solicitante:
\u8087\u5E86\u5E02\u9AD8\u65B0\u533A\u6653\u9756\u79D1\u6280\u6709\u9650\u516C\u53F8

Resumen de: CN107883595A

本发明提供种高效的太阳能热能传递系统。本系统包括真空集热器、加热回路、集热工质、电加热器、热管、循环回路、传热工质、电泵以及加热管,其中,真空集热器上安装若干组热管,真空集热器与热管之间设有导热硅脂涂层,热管另端连接加热回路,加热回路内填充集热工质,其端与热管相连,另端插入循环回路中,循环回路内填充传热工质,其端部连接加热回路的末端;电加热器底部设有加热管,加热管的另端浸没在循环回路的传热工质中,电泵安装在循环回路的适当位置;上述的加热回路、热管和循环回路外壁均设有绝热层或涂抹绝热涂层。



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种用于干燥淤泥的系统和方法

NºPublicación: CN107879590A 06/04/2018

Solicitante:
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Resumen de: CN107879590A

本发明涉及环保节能领域,公开了种用于干燥淤泥的系统和方法,利用太阳能聚热以更好、更有效地实现对淤泥的干燥处理,在废弃淤泥处理中达到无害化、减量化及资源化的目的;该系统包括:主控装置,用于计算太阳位置信息,并计算在该太阳位置信息下集热装置的焦点轨迹信息;驱动装置,驱动装置包括第驱动装置和第二驱动装置,第驱动装置用于根据太阳位置信息驱动集热装置调整角度,第二驱动装置用于根据焦点轨迹信息驱动干燥装置追踪集热装置的焦点;集热装置,用于对太阳能进行热量聚集;干燥装置,用于盛放淤泥,并追踪集热装置的焦点获得热量以实现对淤泥的干燥处理。



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HEATER

NºPublicación: JPWO2017002261A1 05/04/2018

Solicitante:
\u5343\u4EE3\u7530\u5316\u5DE5\u5EFA\u8A2D\u682A\u5F0F\u4F1A\u793E

Resumen de: WO2017002261A1

This heater (40) heats a heat medium flow path (11) which circulates a heat medium that receives solar heat. The heat medium flow path (11) is provided with a first heat collector tube (12a) and a second heat collector tube (12b) which receive condensed sunlight, and a coupling tube (14) which connects one end (20a) of the first heat collector tube (12a) and one end (21a) of the second heat collector tube (12b). The heater is provided with: a connection wire (22) which electrically connects the other end (20b) of the first heat collector tube (12a) and the other end (21b) of the second heat collector tube (12b); a power source (23) for energizing the heat medium flow path (11); a first power source wire (24) which connects one electrode (23a) of the power source (23) and a center point (20c) of the first heat collector tube (12a); a second power source wire (25) which connects the other electrode (23b) of the power source (23) and a center point (21c) of the second heat collector tube (12b); and a bypass wire (30) which is electrically connected in parallel to the coupling tube (14).



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APPARATUS FOR COLLECTING AND TRANSMITTING SOLAR ENERGY, AND METHOD THEREFOR

NºPublicación: WO2018059243A1 05/04/2018

Solicitante:
HANGZHOU LINGYING TECH CO LTD [CN]

Resumen de: WO2018059243A1

Disclosed is an apparatus for collecting and transmitting solar energy. The apparatus comprises a mutually connected light transmissive body (1), transmission layer (3) and plurality of reflectors (2), wherein the transmission layer (3) is provided with a light collection opening (4), the reflectors (2) comprise a collection transmission plate enclosed by an arc A0AX, a straight line A0B and a straight line BC, an end A0 of the arc A0AX is successively connected to an end A0 of the straight line A0B and an end C of the straight line BC. This apparatus for collecting and transmitting solar energy has a large collection scope, can directly use or convert the solar energy after collection, has a high aggregation degree and a low transmission loss, the shape thereof is not limited, and has a wide application range. Further disclosed is a method for the apparatus for collecting and transmitting solar energy.



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HEATING SYSTEM

NºPublicación: JPWO2017002260A1 05/04/2018

Solicitante:
\u5343\u4EE3\u7530\u5316\u5DE5\u5EFA\u8A2D\u682A\u5F0F\u4F1A\u793E

Resumen de: WO2017002260A1

This heating system heats a heat medium flow path of a solar thermal collector (8). This heat medium flow path comprises, connected in series, a heat collector tube, a flexible hose, and piping. Each of these has different electrical resistance. This heating system is provided with an electrification unit (67) which electrifies the heat medium flow path in order to heat the heat medium flow path, a temperature measurement unit (66) which measures the temperature of the piping, and a processing unit (75) which compares the measured temperature of the piping with a preset piping temperature expected given the length of electrification, and performs processing depending on the comparison result.



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种可调节角度的速热太阳能热水器

NºPublicación: CN107869850A 03/04/2018

Solicitante:
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Resumen de: CN107869850A

本发明公开了种可调节角度的速热太阳能热水器,包括三角主体框架,所述三角主体框架上方设有换热装置,所述换热装置由圆柱形储水罐、水箱、出水口、进水口、溢出口、进水管、换热口、冷水管、三通控制阀、接口、电磁阀、微型抽水泵、接口二、接口三、换热口二、热水管、电磁阀二、微型抽水泵二、喷淋管、三通接口、混合水管、喷淋头、常温水管和集热装置共同构成,所述三角主体框架侧设有控制器,所述控制器与三通控制阀、电磁阀、微型抽水泵、电磁阀二、微型抽水泵二电性连接,所述控制器与电动真空压缩杆电性连接。本发明的有益效果是,结构简单,实用性强。



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RECEIVER FOR COLLECTING CONCENTRATED RADIATION

NºPublicación: CN107864665A 30/03/2018

Solicitante:
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Resumen de: WO2016162412A1

The invention relates to a receiver (1) for collecting concentrated (solar) radiation from a surrounding mirror field. The receiver (1) has a container (20) with at least one light inlet opening (16) and with an inlet and an outlet for a cooling medium, preferably an evaporating metal. The container (20) is equipped with at least one absorber element (15) which is designed as a black body at least in some regions and which is arranged behind the radiation inlet opening (16) for collecting the radiation energy and converting same into thermal energy. The container (20) is additionally equipped with heat storage elements (9, 10, 22) in the form of high-temperature storage units (3), which are heated by condensation, for generating energy in the evening hours without solar irradiation.



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SOLAR THERMAL COLLECTOR GROUNDING STRUCTURE, SOLAR THERMAL COLLECTOR AND SOLAR THERMAL GENERATOR SYSTEM

NºPublicación: JPWO2017002259A1 29/03/2018

Solicitante:
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Resumen de: WO2017002259A1

This solar thermal collector (8) is provided with a first heat medium flow path (11) which circulates a heat medium that receives solar heat, and with multiple steel columns (12) which support the first heat medium flow path (11). The first heat medium flow path (11) is warmed by being electrified. Some of the first columns (12) are grounded through a copper first cable (60). The rest of the first columns (12) are connected to the ground through a steel first connecting member (14).



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Maintenance method and system for solar receiver

Nº publicación: AU2016362470A1 29/03/2018

Solicitante:
COCKERILL MAINTENANCE & INGENIERIE SA

Resumen de: AU2016362470A1

The invention relates to a tower (1) for a concentrating solar power plant comprising an upper external platform (11) on which an essentially cylindrical solar receiver (2) with a lateral outer surface and an upper base is arranged, the lateral surface of the receiver (2) including a plurality of receiver panels (20) mounted removably and a system for installing and maintaining receiver panels (20), characterised in that the system for installing and maintaining receiver panels (20) comprises a crane (3) mounted so as to rotate through 360° and guided by means of at least two concentric rails (4), on the upper base of the receiver (2).


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