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    • 1. 发明申请
    • SOLAR ENERGY CAPTURE DEVICE WITH ENHANCED ANGULAR EFFICIENCY
    • 具有增强角度效率的太阳能捕获装置
    • WO2015044967A1
    • 2015-04-02
    • PCT/IT2013000257
    • 2013-09-25
    • OHIKIA S R L
    • STENICO FRANCESCOROSSO MARIACRISTINANEGRISOLO FRANCESCO
    • F24S23/70F24S23/74
    • F24J2/14F24J2/07F24J2/1047F24J2/50F24J2002/1014Y02E10/41Y02E10/45
    • A solar energy capture device is described,. The device captures solar energy also for angles of incidence of solar radiation not strictly orthogonal to cover surface 16 making unnecessary any tracking system and with a size ratio between height (27) and width (28) of the device being lower than one. The device has a concave reflective surface (12), the profile of the reflective surface follows at least in part the shape of a paraboloid; and an absorber (14) for absorbing solar rays A reflected by the reflective surface (12), characterised in that the paraboloid is rotated such that a paraboloid axis (17) is rotated about the focus point of the related second degree curve obtained by fourth and third degree terms deletion thereof and is mirrored with respect to a central axis (18) intersecting a centre point (21) of the reflective surface (12) and a longitudinal axis (20) of said absorber (14).
    • 描述太阳能捕获装置。 该装置还捕获与太阳辐射的入射角不太严格地垂直于覆盖表面16的太阳能,使得不必要的任何跟踪系统以及装置的高度(27)和宽度(28)之间的尺寸比低于1。 该装置具有凹形反射表面(12),反射表面的轮廓至少部分地遵循抛物面的形状; 以及用于吸收由反射表面(12)反射的太阳光线A的吸收器(14),其特征在于,所述抛物面旋转,使得抛物面轴线(17)围绕由第四部分获得的相关第二度曲线的焦点旋转 和第三级术语删除,并且相对于与反射表面(12)的中心点(21)相交的中心轴线(18)与所述吸收器(14)的纵向轴线(20)相反。
    • 2. 发明申请
    • AN IMPROVED HEAT COLLECTION ELEMENT FOR LINEAR COLLECTOR
    • 用于线性收集器的改进的集热元件
    • WO2013183067A3
    • 2014-08-28
    • PCT/IN2013000357
    • 2013-06-05
    • PAREKH SHARAD BHUPENDRABHAI
    • PAREKH SHARAD BHUPENDRABHAI
    • F24J2/18F24J2/00F24J2/05F24J2/07F24J2/10F24J2/24F24J2/46
    • F24J2/246F24J2/055F24J2/07F24J2/14F24J2/18F24J2/4636F24J2/465F24J2002/4665F24J2002/4678Y02E10/41Y02E10/44Y02E10/45
    • The present invention provides improved Heat Collection Element (1) for Linear Solar Collector for temperature range 50°C-350°C. It comprises of Helical Coil (4) with spaced pitch of its helical turns on ends providing Expansion Compensating Mechanism (5); Glass Cover (6) to avoid thermal losses; Space between said Helical Coil (4) and said Glass Cover (6) filled with heat conductive gases; End Covers (2a and 3a) to close said Glass Cover (6); End Seals (2d and 3d) to avoid leakage of gases; Connection Hose (2h and 3h) for ingress and egress of Heat Transfer Fluid; secondary reflector (8) for reflecting back the rays that bypasses Helical Coil (4); Clipping Arrangement (9) for fixing said Secondary Reflector (8) on said Glass cover (6); Joining Piece (12) to facilitate interconnection of two units of said Heat Collection Element (1) when arranged in plurality in series; and mounting arrangement (13) to mount said series at site.
    • 本发明提供用于线性太阳能集热器的改进的集热元件(1),用于50℃-350℃的温度范围。 它包括螺旋线圈(4),螺旋线圈的螺旋线间距分布在提供膨胀补偿机构(5)的端部; 玻璃盖(6)以避免热量损失; 所述螺旋线圈(4)和所述玻璃盖(6)之间的空间填充有导热气体; 封闭所述玻璃盖(6)的端盖(2a和3a); 末端密封(2d和3d)以避免气体泄漏; 连接软管(2h和3h)用于传热流体的进出; 辅助反射器(8),用于反射绕过螺旋线圈(4)的射线; 用于将所述副反射器(8)固定在所述玻璃罩(6)上的夹紧装置(9); 当多个串联布置时,连接件(12)以促进所述集热元件(1)的两个单元的互连; 和安装装置(13)以在现场安装所述系列。
    • 3. 发明申请
    • BEARING STRUCTURE FOR SOLAR COLLECTORS
    • 支撑结构太阳能电池板
    • WO2014020098A3
    • 2014-07-10
    • PCT/EP2013066157
    • 2013-08-01
    • SUNOYSTER SYSTEMS GMBH
    • CORINO CARSTEN
    • F24J2/14F24J2/52F24J2/54
    • F24J2/14F24J2/5203F24J2/541F24J2002/5215Y02E10/45Y02E10/47
    • The invention relates to a bearing structure (1) for the reflector (4) of a solar collector (3) and a production method for the bearing structure (1) according to the invention, or rather for the reflector bearing element (2) of said collector. The bearing structure (1) according to the invention, for the reflector (4) of a solar collector (3), has a reflector bearing element (2) that is shaped as a parabolic trough in the longitudinal direction (90), wherein the reflector bearing element (2) is made of plastic and has the structure of a multi-wall sheet (10). A corresponding reflector bearing element (2) either can be extruded in the shape of a parabolic trough or can be produced by forming a flat multi-wall sheet into the shape of a parabolic trough by means of hot forming.
    • 本发明涉及一种用于太阳能收集器的反射器(4)(3)和用于本发明的支撑结构(1)或反射器支撑件(2)的制造方法的支撑结构(1)。 根据本发明(1)所述的太阳能收集器的反射器(4)的支撑结构(3)具有在运行抛物线形反射器支撑件(2),其中,所述反射器支撑件(2)由塑料制成,和(a腹板10的结构的纵向(90) )了。 相应的反射器支撑件(2)可以是挤出成rinnenparabolischer形式或可通过热成形,从平坦腹板在rinnenparabolische形式开始。
    • 4. 发明申请
    • ABSORBER ARRANGEMENT FOR A TROUGH COLLECTOR
    • 用于一个冲洗收集器的吸收器组件
    • WO2014000114A3
    • 2014-06-19
    • PCT/CH2013000109
    • 2013-06-20
    • AIRLIGHT ENERGY IP SA
    • AMBROSETTI GIANLUCAGRANZELLA SERGIOPEDRETTI-RODI ANDREA
    • F24J2/07F24J2/00F24J2/14F24J2/24
    • F24J2/12F24J2/07F24J2/14F24J2/24F24J2/26F24J2/541F24J2002/003Y02E10/41Y02E10/44Y02E10/45Y02E10/47
    • The invention relates to an elongated absorber arrangement for a trough collector, which is exposed to concentrated radiation over its length during operation, and which has means for transporting a heat transfer fluid through the absorber arrangement. The absorber arrangement has at least one fluid-free absorber space for concentrated radiation, which has a thermal opening leading to the interior thereof and walls for absorbing the heat that is incident on it. The means for transporting the fluid have a feed-line arrangement and a discharge-line arrangement, which are operationally connected to one another by a heat exchanger arrangement through which fluid flows, wherein said heat exchanger arrangement extends over the length of the absorber arrangement, is designed for the fluid to flow through as a transverse flow in relation to the length of the absorber arrangement and is thermally connected to the at least one absorber space in such a way that the fluid is heated during operation in the transverse flow from an inlet temperature to the operating temperature and reaches the discharge-line arrangement at this temperature.
    • 本发明涉及一种用于槽集热器,其在操作上集中的辐射的长度施加,并且具有用于通过所述吸收器组件传输热传输流体通过的装置的细长吸收器组件。 吸收器装置具有至少一个无浓缩流体的吸收器空间,该吸收器空间具有通向其内部的热开口以及用于吸收沉入其中的热量的壁。 用于流体输送的装置包括供给管路装置和排放装置,它们通过载流热交换器组件可操作地连接在一起,其延伸过吸收器装置的长度为所述流体的横流中的吸收器组件的长度的流动被形成,并且与所述 至少一个吸收器空间被热连接,使得流体在从输入温度到工作温度的交叉流动中加热并且在此之下到达排放装置。
    • 10. 发明申请
    • A SOLAR ADSORPTION APPARATUS
    • 太阳能吸收装置
    • WO2012028878A2
    • 2012-03-08
    • PCT/GB2011051632
    • 2011-08-31
    • SAHAWNEH FARIS NASHATBOWMAN PAUL ALAN
    • SAHAWNEH FARIS NASHAT
    • F24S23/70F24S23/71F24S23/74
    • F24J2/14F24J2/245F24J2/5266H01L31/0547Y02E10/44Y02E10/45Y02E10/47Y02E10/52
    • A solar adsorption apparatus comprising a parallel array of adsorber tubes; and an array of pairs of reflectors, each pair of reflectors having an axis parallel to said parallel array of absorber tubes; arranged such that in a first position: a reflector surface of one pair of reflectors and a reflector surface of an adjacent pair of reflectors form a compound parabolic concentrator having one of said adsorber tubes positioned to receive radiation reflected by said compound parabolic concentrator; and each pair of reflectors forms a shaded area with an adsorber tube positioned within said shaded area; the apparatus further comprising control means to move the pairs of reflectors relative to the array of adsorber tubes to a second position wherein: adsorber tubes that were in a shaded area in said first position are positioned to receive radiation from a compound parabolic concentrator formed from a reflector surface of one pair of reflectors and a reflector surface of an adjacent pair of reflectors; and adsorber tubes that in said first position were positioned to receive radiation from a compound parabolic concentrator formed from a reflector surface of one pair of reflectors and a reflector surface of an adjacent pair of reflectors are positioned within a shaded area formed by a pair of reflectors.
    • 一种太阳能吸附装置,包括平行排列的吸附管; 以及一对反射器阵列,每对反射器具有平行于所述吸收管平行阵列的轴线; 布置成使得在第一位置:一对反射器的反射器表面和相邻的一对反射器的反射器表面形成复合抛物面聚光器,其中所述吸附器管中的一个被定位成接收由所述复合抛物面聚光器反射的辐射; 并且每对反射器形成具有位于所述阴影区域内的吸附管的阴影区域; 所述设备还包括控制装置,用于将所述反射器对相对于所述吸附器管阵列移动到第二位置,其中:位于所述第一位置中的阴影区域中的吸附管被定位成接收来自复合抛物面聚光器的辐射 一对反射器的反射器表面和相邻的一对反射器的反射器表面; 以及在所述第一位置被定位成接收来自由一对反射器的反射器表面形成的复合抛物面聚光器的辐射的吸附器管和相邻的一对反射器的反射器表面的吸光器管定位在由一对反射器形成的阴影区域内 。