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Resultados 47 resultados LastUpdate Última actualización 22/06/2018 [15:27:00] pdf PDF




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



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SOLAR RECEIVER

NºPublicación: EP3334981A1 20/06/2018

Solicitante:
THE UNIV OF ADELAIDE [AU]

Resumen de: WO2017024338A1

A solar receiver (10) for exposing heat absorbing particles to concentrated solar radiation. The solar receiver (10) comprises a chamber (13) having an aperture (15) through which concentrated solar radiation can be received within the chamber. An inlet means (31) is provided for introducing an inflow comprising solar absorbing particles into the chamber (13). An outlet means (33) is provided for discharge of an outflow from the chamber (13). The inlet means (31) communicates with the chamber (13) for introduction of the inflow into a first section (41) of the chamber (13) in opposed relation the aperture (15). The outlet means (33) communicates with a second section (42) of the chamber (13) disposed between the first section (41) and the aperture (15), wherein fluid flow from the inlet means (31) to the outlet means (33) is exposed to concentrated solar radiation received within the chamber (13). The first section (41) is divergent in a direction towards the aperture (15), and the inlet means (31) is configured to introduce the inflow tangentially into the divergent first section.



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Solar Ray concentration system for a power generation system

NºPublicación: GB2557205A 20/06/2018

Solicitante:
JON OTEGUI VAN LEEUW [DE]

Resumen de: GB2557205A

A solar thermal power generation system comprising a vertical tower or mast 10.4 with a plurality of arrays of mirrors mounted upon the mast, used to concentrate incoming solar rays downwards 10.6, to a focal point inside a channel. Each array of mirrors comprises a concave mirror 10.3, a convex mirror 10.6, and a pair of flat inclined mirrors, all mounted on horizontal members protruding from the vertical tower. In some embodiments there may be a light ray shielding member 10.1 mounted parallel to the mast structure, to prevent the concentrated sun rays from being projected in unwanted directions. The concentrated solar rays are used to heat water in a water carrying tube, which is converted to steam to drive turbines for energy generation. The convex mirror may be a plano convex mirror, and the concave mirror may be a plano concave mirror.



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DUAL-USE SOLAR ENERGY CONVERSION SYSTEM

NºPublicación: EP3335246A1 20/06/2018

Solicitante:
GANLEY JAMES T [US]

Resumen de: WO2017027116A1

A dual-use solar energy conversion system has an innovative structural framework which accurately maintains the relative position and alignment of functional system components. The system has parabolic trough reflectors which focus solar radiation onto arrays of solar cells. The cells convert a portion of the incident radiation into electrical energy and the rest is collected in a cooling fluid and subsequently discharged as low-grade thermal energy to an energy storage medium. During operation, the entire system rotates about a vertical axis to track the azimuthal position of the sun.



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种塔式太阳能发电装置

NºPublicación: CN108183678A 19/06/2018

Solicitante:
\u5317\u4EAC\u6C11\u5229\u50A8\u80FD\u6280\u672F\u6709\u9650\u516C\u53F8

Resumen de: CN108183678A

本发明涉及种塔式太阳能发电装置,包括发电塔、设置在发电塔上部的接收器、围绕发电塔而设置的多个反射板,该发电装置还包括板块,所述反射板按照设定角度围绕发电塔布置在发电塔周围的地面上,所述发电塔垂直固定在地面上,接收器的上部通过支持台固定板块,板块用于将脱离接收器的太阳光再次反射或吸收;板块整体为中心向上凸起的圆盘型结构,在板块朝向地面的内侧反射面上设有用于将反射板反射来的太阳光进行吸收或反射的处理部;在板块的外表面覆盖有外太阳电池,在接收器下方的发电塔外侧面上安装有反射镜子,反射镜子整体呈圆筒形结构,套在发电塔上,且紧挨接收器。该装置能将在反射板上反射的太阳光尽可能的进行收集,提高发电效率。



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种双面吸热型太阳能集热管

NºPublicación: CN108180642A 19/06/2018

Solicitante:
\u6D77\u5B81\u5E02\u534E\u950B\u592A\u9633\u80FD\u96C6\u70ED\u7BA1\u6709\u9650\u516C\u53F8

Resumen de: CN108180642A

本发明公开了种双面吸热型太阳能集热管,包括安装架和集热管,所述集热管位于集热管内侧壁之间,所述集热管侧设置有反光镜,且反光镜侧设置有橡胶卡套,所述反光镜与橡胶卡套之间固定连接有支撑杆,所述反光镜通过支撑杆连接的橡胶卡套与集热管固定连接,所述安装架内底端设置有安装槽,所述集热管通过安装槽与安装架相连接。本发明结构简单,通过利用反光镜与金属导热片的结合,实现将太阳光反射集中照射在集热管底端面,从而增加集热管受热面积以及传热效率,进而提高集热管的吸热效果,实现两面吸热供暖,便于滤除水中夹杂的杂质,保证水质,操作方便。



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种抛物柱面可折叠便携式太阳灶

NºPublicación: CN108180655A 19/06/2018

Solicitante:
\u4E1C\u5317\u5927\u5B66

Resumen de: CN108180655A

本发明公开了种抛物柱面可折叠便携式太阳灶,包括呈倾斜设置的柔性反光板,所述柔性反光板包括呈抛物柱面的柔性材料底板,所述柔性材料底板的外壁贴合有多个沿所述柔性材料底板的长度方向排列的拱形反光板支撑杆,所述柔性材料底板的焦线位置设有集热装置,所述柔性材料底板的开口两侧设有多个沿所述柔性材料底板的长度方向排列的第弹性绳,所述拱形反光板支撑杆的下端设有拱形太阳灶支架,所述拱形反光板支撑杆的上端设有太阳灶支撑杆支撑。本发明结构简单、易于制造,各个部件可组合或折叠、收纳体积小、重量轻、携带方便和,适合旅行与野外工作使用。



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种太阳能烧结加工装置

NºPublicación: CN108180760A 19/06/2018

Solicitante:
\u6148\u6EAA\u7405\u534E\u673A\u68B0\u79D1\u6280\u6709\u9650\u516C\u53F8

Resumen de: CN108180760A

种太阳能烧结加工装置,包括圆形底板、支撑板和粉末烧结装置,所述粉末烧结装置包括方形壳体,所所述转动盘两端的方形槽内对称设置有电动升降装置,所述方形槽内左右两端的电动升降孔中分别设置有烧结丝杆和送料丝杆,所述烧结丝杆和送料丝杆上端的方形槽内分别设置有烧结区和存料区,所述烧结丝杆和送料丝杆的上端通过相同的稳定装置分别连接有承重板和送料板。本发明工作中,支撑杆在环形滑道内滑动,转动旋转套使升降杆上升或下降,从而调整支撑板的角度,烧结丝杆带动承重板下降,同时送料丝杆带动送料板上升,推料板推动送料板上的粉末到承重板上,上方的限高板有效的防止粉末堆积造成的分布不均这问题。



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Solar pressurized energy storage type micro waterhead fluid energy water pumping system

NºPublicación: CN108167156A 15/06/2018

Solicitante:
\u90B5\u4F5C\u6743

Resumen de: CN105569974A

A solar pressurized energy storage type micro waterhead fluid energy water pumping system is composed of a fluid energy extraction mechanism, a speed change mechanism, a crank-link mechanism, a plunger type gas pump, a gas reservoir, a pneumatic motor, a rotor type water pump, a hydraulic ram, a solar tracing system, a gas heating cavity and a pipeline. The fluid energy extraction mechanism is connected with the speed change mechanism which is connected with the plunger type gas pump through the crank-link mechanism. A gas pump gas outlet pipe of the plunger type gas pump is connected with the gas reservoir. A gas reservoir gas outlet pipe of the gas reservoir is connected with the gas heating cavity formed in the solar tracing system. The gas heating cavity is connected to the pneumatic motor through a cavity body gas outlet pipe. A power output shaft of the pneumatic motor is connected with the rotor type water pump. A water pump water outlet of the rotor type water pump is connected with the hydraulic ram. A curved mirror is arranged on the solar tracing system. Sunlight irradiated to the curved mirror is reflected to the gas heating cavity by the curved mirror and is used for heating gas in the gas heating cavity.



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种太阳能聚光系统

NºPublicación: CN108168117A 15/06/2018

Solicitante:
\u6D77\u5B81\u6D77\u5149\u4FE1\u606F\u79D1\u6280\u6709\u9650\u516C\u53F8

Resumen de: CN108168117A

本发明提供了种太阳能聚光系统,属于太阳能利用技术领域。它解决了现有太阳能聚光系统容易受风沙影响,光热转化效率低等技术问题。种太阳能聚光系统,包括玻璃房,玻璃房上部具有玻璃板,玻璃板上设置有用于清洁玻璃板的自动清洗装置;玻璃房内固设有支架,支架上固设有若干反光板,反光板内具有聚光槽,聚光槽内具有光线聚焦的聚焦区,聚光区上设置有能将太阳能转成为热能的能量吸收转化器,能量吸收转化器通过固定杆固设在支架上,且能量吸收转化器处在聚光槽的光线聚焦位置。本发明具有光热转化效率高的特点。



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种太阳能集热球的加工方法

NºPublicación: CN108168107A 15/06/2018

Solicitante:
\u6D77\u5B81\u5E02\u534E\u950B\u592A\u9633\u80FD\u96C6\u70ED\u7BA1\u6709\u9650\u516C\u53F8

Resumen de: CN108168107A

本发明公开了种太阳能集热球的加工方法,包括集热球本体,所述集热球本体包括镀锌腔体、出水口A、出水口B、进水口、聚光圆球和铜铝合金体,所述镀锌腔体包括镀锌腔体A、镀锌腔体B和镀锌腔体C,所述集热球本体为正十二面体,所述镀锌腔体上设置有镀锌腔体A以及设置在镀锌腔体A底部的镀锌腔体B,所述镀锌腔体B底部设置有镀锌腔体C,所述镀锌腔体A、镀锌腔体B和镀锌腔体C上均设置有聚光圆球以及设置在聚光圆球内部的铜铝合金体,所述镀锌腔体A和镀锌腔体C上设置的聚光圆球均为两组,所述镀锌腔体C上设置的聚光圆球为三组。本发明加工简单,集热效果佳,吸收阳光的角度多,具有很好的推广价值。



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种迅速聚热太阳能热水器

NºPublicación: CN108168114A 15/06/2018

Solicitante:
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Resumen de: CN108168114A

本发明公开了种迅速聚热太阳能热水器,其包括支架、冷水箱、热水箱以及位于热水箱和冷水箱之间的太阳能集热器,其特征在于,所述冷水箱位于支架的上方,热水箱位于支架的下方,所述太阳能集热器连接热水箱和冷水箱;所述太阳能集热器包括多个集热管,所述集热管包括玻璃外管和陶瓷内管,所述陶瓷内管为实心柱状管体,所述玻璃外管与陶瓷内管之间构成水通道夹层,所述水通道夹层通过多根毛细芯绳与所述冷水箱连通,所述毛细芯绳端插入冷水箱中,另端放置在陶瓷内管上端的外壁上;所述集热管的下端入所述热水箱中。



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种直通式太阳能蒸汽发生系统

NºPublicación: CN108167797A 15/06/2018

Solicitante:
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Resumen de: CN108167797A

本发明公开了种直通式太阳能蒸汽发生系统,包括:直通式太阳能集热系统、蒸汽发生器、控制器、循环泵和膨胀罐;蒸汽发生器、循环泵和膨胀罐依次串接,控制器分别与汽发生器、循环泵连接并控制其工作;直通式太阳能集热系统包括:至少两个直通式太阳能集热装置平行排列而成的阵列和用于支撑所述阵列的支架结构;直通式太阳能集热装置包括:铜管、玻璃管、吸收膜和CPC反光板;铜管与吸收膜连接;铜管与吸收膜均收纳在玻璃管内;玻璃管设置在CPC反光板的有效聚光区域内;铜管包括:硬质铜管、第软质铜管和第二软质铜管;所述硬质铜管的端与所述第软质铜管连接,另端与所述第二软质铜管连接;所述第软质铜管和所述第二软质铜管均具有弯折部。



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SUNLIGHT COLLECTION SYSTEM WITH ASYMMETRIC CATADIOPTRIC OPTICS

NºPublicación: US2018164561A1 14/06/2018

Solicitante:
GLINT PHOTONICS INC [US]

Resumen de: US2018164561A1

The system captures and concentrates sunlight for transmission to interior spaces or to a PV system. A solar collector uses arrayed refractive lenses, opposing concave focusing mirrors, and a movable coupling sheet forming part of a lightguide. The lenses and mirrors have an asymmetric shape, such as having aspect ratios of 3:4 or 1:2, so as to have an asymmetric aperture to better receive light at the different ranges of angles of the sun's rays over the course of a year. The long axis of the apertures is generally oriented in an East-West. The movable sheet contains small angled mirrors, and the sheet is translated to position the angled mirrors at the focal points of the sunlight for maximum deflection of the sunlight to an output of the collection system. A position sensor provides feedback regarding the position of the angled mirrors relative to the focal points.



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THERMOCHEMICAL ENERGY STORAGE METHOD AND SYSTEM WITH HIGH-TEMPERATURE CALCIUM CIRCULATION

NºPublicación: WO2018103210A1 14/06/2018

Solicitante:
UNIV NANJING TECH [CN]

Resumen de: WO2018103210A1

Disclosed are a thermochemical energy storage method and system with high-temperature calcium circulation, wherein CaCO3/CaO is used as a thermochemical energy storage system, and energy is stored by means of mutual conversion between thermal energy and chemical energy. When solar radiation is sufficient, solid CaCO3 particles undergo an endothermic decomposition reaction via divided wall heating resulting from hot air generated by solar energy, so that the received heat is stored as chemical energy in decomposition products, i.e. CaO and CO2. When heat is desired, CaO and CO2 are subjected to a reversed thermochemical reaction at an atmospheric pressure to inversely convert the chemical energy stored in the CaO and CO2 to heat energy and release the heat energy. The method and system feature high stored energy density, high circulation efficiency, being environmentally friendly, a simple structure and reliability in application, can address the need for a solar high-temperature thermal power station to operate continuously and efficiently, can be widely applied in the field of high-temperature solar power generation, and are also applicable to high-temperature thermal energy storage and regeneration of other types of power stations.



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ENERGY-EFFICIENT HIGH LEVEL DEVICE, PLANT AND METHOD FOR THE USE OF THERMAL ENERGY OF SOLAR ORIGIN

NºPublicación: EP3332177A1 13/06/2018

Solicitante:
MAGALDI POWER SPA [IT]

Resumen de: WO2017021832A1

A device (1) for storage and exchange of thermal energy of solar origin, which device (1) is configured to receive a concentrated solar radiation using an optical system of "beam down" type, which device (1) comprises: - a containment casing (2) which defines an internal compartment (20) and has an upper opening (10) configured to allow entry of the concentrated solar radiation, which opening (10) puts in direct communication the internal compartment (20) with the external environment having no closure or screen means; - a bed (3) of fluidizable solid particles, received within the internal compartment (20), which bed (3) has an irradiated operative region (30) directly exposed, in use, to the concentrated solar radiation that enters through said opening (20) and a heat accumulation region (31) adjacent to said operative region (30); - fluidization elements (4) of the bed of particles (3), configured to feed fluidization air within the compartment (20), which fluidization means (4) is configured to determine different fluid-dynamic regimens in the operative region and in the accumulation region, based upon different fluidization speeds, wherein, in use, the particles of the operative region (30) absorb thermal energy from the solar radiation and they give it to the particles of the accumulation region (31).



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种三维立体太阳能收集装置

NºPublicación: CN108155855A 12/06/2018

Solicitante:
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Resumen de: CN108155855A

本发明公开了种三维立体太阳能收集装置,该装置包装单体和支撑构件,单体设置于支撑构件上;所述单体包括可以透过太阳光的主体部和收集部,所述收集部设置于主体部的内部;所述收集部为太阳能转换部件,所述支撑构件内设置有太阳能输出通道;该装置以多个上述单体在三维空间中排列,通过支撑构件相连连接,形成立方晶格,支撑构件内设置的太阳能输出通道与每个单体连接,并将太阳能转换后的能量输送出去。本发明太阳能收集装置,通过不同部件的组装,既可以用于电能的转化,也可以用于热能的收集,具有三维立体结构,不安装太阳能跟踪装置仍然具有较高的收集效率,减少安装面积和安装费用及维护费用,具有低成本高效益的优点。



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Solar pressurized energy storage type micro waterhead fluid energy water pumping system

NºPublicación: CN108150378A 12/06/2018

Solicitante:
\u90B5\u4F5C\u6743

Resumen de: CN105569974A

A solar pressurized energy storage type micro waterhead fluid energy water pumping system is composed of a fluid energy extraction mechanism, a speed change mechanism, a crank-link mechanism, a plunger type gas pump, a gas reservoir, a pneumatic motor, a rotor type water pump, a hydraulic ram, a solar tracing system, a gas heating cavity and a pipeline. The fluid energy extraction mechanism is connected with the speed change mechanism which is connected with the plunger type gas pump through the crank-link mechanism. A gas pump gas outlet pipe of the plunger type gas pump is connected with the gas reservoir. A gas reservoir gas outlet pipe of the gas reservoir is connected with the gas heating cavity formed in the solar tracing system. The gas heating cavity is connected to the pneumatic motor through a cavity body gas outlet pipe. A power output shaft of the pneumatic motor is connected with the rotor type water pump. A water pump water outlet of the rotor type water pump is connected with the hydraulic ram. A curved mirror is arranged on the solar tracing system. Sunlight irradiated to the curved mirror is reflected to the gas heating cavity by the curved mirror and is used for heating gas in the gas heating cavity.



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THERMAL MANAGEMENT SYSTEM FOR CONTROLLING THE TEMPERATURE OF A REFLECTIVE SURFACE HAVING A SOLAR CONCENTRATION ARRAY

NºPublicación: CN108155869A 12/06/2018

Solicitante:
\u6CE2\u97F3\u516C\u53F8

Resumen de: EP3330635A1

A thermal management system ("TMS") (300) for controlling the temperature of a selective reflective panel (1202) is disclosed. The TMS includes a solar concentrator array (224,302,908), a temperature sensor (236a,910a), and a controller (228,916). The solar concentrator array (224,302,908) is located within the selective reflective panel (1202) and has a plurality of reflectors (406,1300) arranged in reflector groups (214,240,912). The temperature sensor (236a,910a) monitors a temperature of the selective reflective panel (1202) at a location of the temperature sensor (236a,910a). The controller (228,916) monitors the local temperature of the selective reflective panel (1202) utilizing the temperature sensor (236a,910a) and, in response, produces a control signal that is sent to the solar concentrator array (224,302,908). The control signal directs the solar concentrator array (224,302,908) to position a selected number of reflectors (406,1300) on the concentrator array (224,302,908) into an off-pointing position in response to monitoring the temperature sensor (236a,910a), where the selected number of reflectors (406,1300) is determined to control the local temperature of the selective reflective panel (1202).



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ENERGY-EFFICIENT HIGH LEVEL DEVICE, PLANT AND METHOD FOR THE USE OF THERMAL ENERGY OF SOLAR ORIGIN

NºPublicación: CN108139113A 08/06/2018

Solicitante:
\u9A6C\u8FE6\u8FEA\u52A8\u529B\u80A1\u4EFD\u516C\u53F8

Resumen de: WO2017021832A1

A device (1) for storage and exchange of thermal energy of solar origin, which device (1) is configured to receive a concentrated solar radiation using an optical system of "beam down" type, which device (1) comprises: - a containment casing (2) which defines an internal compartment (20) and has an upper opening (10) configured to allow entry of the concentrated solar radiation, which opening (10) puts in direct communication the internal compartment (20) with the external environment having no closure or screen means; - a bed (3) of fluidizable solid particles, received within the internal compartment (20), which bed (3) has an irradiated operative region (30) directly exposed, in use, to the concentrated solar radiation that enters through said opening (20) and a heat accumulation region (31) adjacent to said operative region (30); - fluidization elements (4) of the bed of particles (3), configured to feed fluidization air within the compartment (20), which fluidization means (4) is configured to determine different fluid-dynamic regimens in the operative region and in the accumulation region, based upon different fluidization speeds, wherein, in use, the particles of the operative region (30) absorb thermal energy from the solar radiation and they give it to the particles of the accumulation region (31).



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CALIBRATION METHOD FOR HELIOSTATS

NºPublicación: CN108139115A 08/06/2018

Solicitante:
\u53EF\u518D\u751F\u73AF\u5883\u6280\u672F\u57FA\u7840\u516C\u53F8,
\u7279\u514B\u5C3C\u514B\u57FA\u7840\u516C\u53F8

Resumen de: WO2017055663A1

The invention relates to a calibration method for heliostats comprising the following steps: carrying out at least one search to display at least one reference via an artificial vision device secured to each of the heliostats to be calibrated; recognising the searched reference; acquiring the reference for each of the searches, said acquisition involving capturing an image viewed by the artificial vision device in which the reference appears and reading a value supplied by the sensors; collecting and storing data from the captured image and the reading; comparing the value supplied by the sensors during acquisition with the value supplied by the sensors according to a kinematic relationship in effect; establishing an error for each of the acquisitions; and determining a new kinematic relationship.



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Solar pressurized energy storage type micro waterhead fluid energy water pumping system

NºPublicación: CN108131270A 08/06/2018

Solicitante:
\u90B5\u4F5C\u6743

Resumen de: CN105569974A

A solar pressurized energy storage type micro waterhead fluid energy water pumping system is composed of a fluid energy extraction mechanism, a speed change mechanism, a crank-link mechanism, a plunger type gas pump, a gas reservoir, a pneumatic motor, a rotor type water pump, a hydraulic ram, a solar tracing system, a gas heating cavity and a pipeline. The fluid energy extraction mechanism is connected with the speed change mechanism which is connected with the plunger type gas pump through the crank-link mechanism. A gas pump gas outlet pipe of the plunger type gas pump is connected with the gas reservoir. A gas reservoir gas outlet pipe of the gas reservoir is connected with the gas heating cavity formed in the solar tracing system. The gas heating cavity is connected to the pneumatic motor through a cavity body gas outlet pipe. A power output shaft of the pneumatic motor is connected with the rotor type water pump. A water pump water outlet of the rotor type water pump is connected with the hydraulic ram. A curved mirror is arranged on the solar tracing system. Sunlight irradiated to the curved mirror is reflected to the gas heating cavity by the curved mirror and is used for heating gas in the gas heating cavity.



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Solar pressurized energy storage type micro waterhead fluid energy water pumping system

NºPublicación: CN108131271A 08/06/2018

Solicitante:
\u90B5\u4F5C\u6743

Resumen de: CN105569974A

A solar pressurized energy storage type micro waterhead fluid energy water pumping system is composed of a fluid energy extraction mechanism, a speed change mechanism, a crank-link mechanism, a plunger type gas pump, a gas reservoir, a pneumatic motor, a rotor type water pump, a hydraulic ram, a solar tracing system, a gas heating cavity and a pipeline. The fluid energy extraction mechanism is connected with the speed change mechanism which is connected with the plunger type gas pump through the crank-link mechanism. A gas pump gas outlet pipe of the plunger type gas pump is connected with the gas reservoir. A gas reservoir gas outlet pipe of the gas reservoir is connected with the gas heating cavity formed in the solar tracing system. The gas heating cavity is connected to the pneumatic motor through a cavity body gas outlet pipe. A power output shaft of the pneumatic motor is connected with the rotor type water pump. A water pump water outlet of the rotor type water pump is connected with the hydraulic ram. A curved mirror is arranged on the solar tracing system. Sunlight irradiated to the curved mirror is reflected to the gas heating cavity by the curved mirror and is used for heating gas in the gas heating cavity.



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种具有复合抛物面聚光器的塔式太阳能热发电系统

NºPublicación: CN108131263A 08/06/2018

Solicitante:
\u4E2D\u56FD\u79D1\u5B66\u9662\u5149\u7535\u6280\u672F\u7814\u7A76\u6240

Resumen de: CN108131263A

本发明提供种具有复合抛物面聚光器的塔式太阳能热发电系统,利用非成像聚光器的独特聚光性能,在塔式太阳能热发电系统的塔顶接收器处放置个复合抛物面聚光器,可以延长系统的工作时间、提高太阳能热发电系统的聚光效率从而提高系统效率、或者降低定日镜的跟踪精度。本发明适用于塔式太阳能热发电系统中,为提高塔式太阳能热发电系统的效率提供了条件。



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太阳能辅助取暖盘管式智能化成套装置

NºPublicación: CN108131846A 08/06/2018

Solicitante:
\u8D75\u6587\u5CF0

Resumen de: CN108131846A

太阳能辅助取暖盘管式智能化成套装置,包括底座(1)、蜗轮蜗杆减速电机(2)、支架(3)、电动推杆(4)、支杆(5)、双球面集热球(6)、感光器(7)、反光罩(8)、行程开关(9)、摆杆(10)、拉绳(11)、浮子(12)、溢水箱(13)、热水管(14)、安全阀(15)、盘管(19)、进水管(20)、螺杆截止阀(21)、保温桶(16)、温控传感器(17)、循环泵(18),第二温控截止阀(29)、第温控截止阀(28)、第三温控截止阀(30)、第四温控截止阀(31)、暖气片(33)、燃气炉(32)、智能控制箱(22)。双球面集热球(6)由内芯管(23)、外球壳(26)、密封件(27)和真空吸嘴(25)组成,内芯管(23)端密封,盘管(19)内灌满高效导热介质。使用本发明,智能化发挥太阳能的热量,辅助取暖,高效清洁、节能环保,会更好的服务于人民和社会。



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MULTIFUNCTIONAL SOLAR ENERGY SYSTEM

Nº publicación: US2018159465A1 07/06/2018

Solicitante:
BOLY MEDIA COMM SHENZHEN CO [CN]

Resumen de: US2018159465A1

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 (P1, P2) are movable; if the reflective surface (s2) is movable, the two solar energy utilization devices (P1, 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 (P1, 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 (P1, 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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