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    • 5. 发明授权
    • Integrated solar energy thermal storage system and methods
    • 集成太阳能热存储系统及方法
    • US09046307B2
    • 2015-06-02
    • US13873319
    • 2013-04-30
    • BRIGHTSOURCE INDUSTRIES (ISRAEL) LTD.
    • Moshe LuzAlon Ganany
    • F03G6/00F01K1/00F28D20/00F03G6/06F24J2/07F24J2/40F24J2/16F24J2/10
    • F28D20/00F03G6/06F24S20/20F24S23/77F24S50/00F24S2023/87F28D2020/0047Y02E10/41Y02E10/46
    • A solar energy thermal storage system can include a receiver in which a first storage medium is heated by insolation. First and second thermal storage reservoirs for a second storage medium can be provided. A first heat exchanger can be configured to transfer heat in the first storage medium to the second storage medium. A buffer tank can be located at a height above the receiver and can be fluidically connected to the first heat exchanger at its inlet and the receiver at its outlet. A second heat exchanger can be configured to transfer heat between the second storage medium and pressurized water and/or steam. The use of a buffer tank in conjunction with the first storage medium increases the overall efficiency of the system and results in a higher temperature for the thermal storage system, which can be used to generate superheated steam.
    • 太阳能热存储系统可以包括其中通过日晒来加热第一存储介质的接收器。 可以提供用于第二存储介质的第一和第二储热容器。 第一热交换器可以被配置为将第一存储介质中的热量传递到第二存储介质。 缓冲罐可以位于接收器上方的高度处,并且可以在其入口处的第一热交换器和其出口处的接收器流体连接到第一热交换器。 第二热交换器可以构造成在第二存储介质和加压水和/或蒸汽之间传递热量。 与第一存储介质一起使用缓冲罐提高了系统的整体效率,并导致用于产生过热蒸汽的储热系统的较高温度。
    • 6. 发明授权
    • Device for collecting solar energy
    • 用于收集太阳能的装置
    • US09004702B2
    • 2015-04-14
    • US13808458
    • 2011-07-06
    • Sudhir V. Panse
    • Sudhir V. Panse
    • G02B5/10F24J2/10F24J2/16F24J2/54
    • G02B5/10F24S23/77F24S23/80F24S30/425F24S2023/872F24S2023/874Y02E10/47Y02E10/52
    • A solar energy collector comprising a set of two or more reflectors reflecting sunrays at the focal line; a receiver of reflected rays placed at the focal line; and means to move the said set of reflectors along a non-parabolic concave curve. The said non-parabolic concave curve with reference to the focal line is defined by the formula: x2+y2=constant (k) y where x and y are the co-ordinates of a point on the said non-parabolic concave curve, in the co-ordinate system, having X axis horizontal, Y axis vertical and the origin of said co-ordinate system on the focal line. The said focal line is perpendicular to the X-Y plane and wherein each of the said reflectors intersects said non-parabolic concave curve.
    • 一种太阳能收集器,包括一组在焦线处反射阳光的两个或更多个反射器; 放置在焦线的反射光线的接收器; 以及用于沿着非抛物面凹曲线移动所述反射器组的装置。 相对于焦线的所述非抛物线凹曲线由下式定义:x2 + y2 =常数(k)y,其中x和y是所述非抛物线凹曲线上的点的坐标, 坐标系,X轴水平,Y轴垂直,坐标系的原点在焦线上。 所述焦线垂直于X-Y平面,并且其中每个所述反射器与所述非抛物面凹曲线相交。
    • 7. 发明授权
    • Durable, lightweight, and efficient solar concentrator
    • 耐用,轻便,高效的太阳能集中器
    • US08878049B2
    • 2014-11-04
    • US12456656
    • 2009-06-19
    • Richard Sabino SapienzaRobert Bagno
    • Richard Sabino SapienzaRobert Bagno
    • H01L31/042H02N6/00F24J2/52F24J2/14F24J2/16F24J2/10F24J2/46
    • F24S23/77F24S23/74F24S23/82F24S25/00F24S2023/874F24S2025/6007Y02E10/45Y02E10/47Y02E10/52Y10T428/31504
    • A solar concentrator, which is modular, durable, lightweight, and cost-efficient is described. The solar concentrator is constructed from a plurality of interconnected reflector panels that are secured to a contoured support frame assembly by means of an adjustable fastening mechanism. The reflector panels are preferably fabricated from a low-cost composite material and have an optically flat front surface. A specularly reflective front surface is formed on the reflector panel by deposition of a plurality of thin films which are highly reflective. Individual reflector panels can be interconnected and arranged into a two-dimensional grid having a predetermined degree of curvature by means of the contoured support frame assembly. Electromagnetic radiation incident upon the reflector panel arrangement is reflected to and concentrated upon a collector plate or receiving surface or receiver where it may be converted into a usable form of energy.
    • 描述了一种模块化,耐用,重量轻且具有成本效益的太阳能集中器。 太阳能聚光器由多个互连的反射器面板构成,其通过可调节的紧固机构固定在成型的支撑框架组件上。 反射器面板优选地由低成本复合材料制成并且具有光学平坦的前表面。 通过沉积高反射性的多个薄膜,在反射板上形成镜面反射前表面。 各个反射器面板可以通过轮廓支撑框架组件互连并布置成具有预定曲率半径的二维格栅。 入射到反射器面板装置上的电磁辐射被反射并集中在集电板或接收表面或接收器上,在此可将其转换成可用形式的能量。
    • 9. 发明申请
    • CROSS LINEAR TYPE SOLAR HEAT COLLECTING APPARATUS
    • 十字线型太阳能热收集装置
    • US20130152916A1
    • 2013-06-20
    • US13819117
    • 2011-09-29
    • Yutaka Tamaura
    • Yutaka Tamaura
    • F24J2/38F24J2/04F24J2/16
    • F24S50/20F24S10/25F24S20/20F24S23/77F24S25/50F24S30/425F24S2020/16F24S2023/872G02B7/183Y02E10/41Y02E10/47
    • It is to heighten the heat collecting efficiency of a linear type solar heat collecting apparatus.A plurality of reflection lines and one reception line are included. The reflection lines are arranged in parallel substantially in the south-north direction on earth. Each reflection line L1, L2, . . . has a heliostat 1. The heliostat 1 is composed of a plurality of mirror segments disposed in series on each reflection line L1, L2, . . . . The reception line C extends in the east-west direction perpendicular to the reflection lines L1, L2, . . . , and is disposed at a predetermined position above the reflection lines L1, L2, . . . The reception line C has a single receiver. The mirror segments disposed on each reflection line L1, L2, . . . radiate reflected light of sunlight that has impinged on the mirror surface toward the reception line C. The receiver 2 disposed on the reception line C collects the heat of the reflected light of sunlight radiated from the mirror segments disposed on each reflection line.
    • 提高线状太阳能集热装置的集热效率。 包括多条反射线和一条接收线。 反射线基本上在地球上的南北方向上平行排列。 每条反射线L1,L2, 。 。 具有定日镜1.定日镜1由在每条反射线L1,L2上串联设置的多个反射镜部分组成。 。 。 。 接收线C在垂直于反射线L1,L2的东西方向延伸。 。 。 并设置在反射线L1,L2上方的预定位置。 。 。 接收线C具有单个接收机。 设置在每个反射线L1,L2,...上的镜片段。 。 。 将照射在镜面上的阳光的反射光朝向接收线C辐射。设置在接收线C上的接收器2收集从设置在每条反射线上的反射镜区域辐射的阳光的反射光的热量。