会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 62. 发明申请
    • DEVICE FOR COLLECTING SOLAR ENERGY BY MEANS OF A CONCENTRATOR OF THE NONIMAGING TYPE
    • 用非收敛型收集太阳能的装置
    • WO2016170485A1
    • 2016-10-27
    • PCT/IB2016/052255
    • 2016-04-21
    • BALDERRIE ENERGIES GMBHKING ABDULAZIZ CITY FOR SCIENCE & TECHNOLOGY
    • DE RICCARDIS, AndreaKOCH, TobiasAL-YOUSEF, Yousef M.
    • F24J2/07F24J2/10F24J2/46F28D13/00
    • F24S23/70F24S20/20F24S23/79F24S70/10F24S80/20F24S2023/83F28D13/00Y02E10/41
    • The present invention concerns a device for collecting solar energy by means of a concentrator (12) of the nonimaging type and a receiver (3) for the transfer of energy by heat exchange with a fluid which operates, independently, a thermodynamic cycle for the exploitation of energy, said concentrator (12) comprising an inlet area (1), an underlying outlet area (2) and an inner space between said inlet area (1) and said outlet area (2); said receiver (3) being positioned under said concentrator (12) and said inner space of the concentrator (12) and said receiver (3) being connected by said outlet area (2), characterised in that said inner space of the concentrator (12) and said receiver (3) are in fluid communication through said outlet area (2), a plurality of solid particles (11) are present inside said receiver (3), and said device for collecting solar energy comprises means (6) apt to take a part of said solid particles (11) from said receiver (3) and to put them from below inside said inner space of said concentrator (12), said solid particles (11) subsequently returning, by gravity, into said receiver (3), passing through said outlet area (2).
    • 本发明涉及一种用于通过非成像型聚光器(12)收集太阳能的装置,以及用于通过与独立地操作用于开发的热力循环的流体的热交换来传递能量的接收器(3) 所述浓缩器(12)包括入口区域(1),下面的出口区域(2)和所述入口区域(1)和所述出口区域(2)之间的内部空间; 所述接收器(3)位于所述集中器(12)下方,并且所述集中器(12)的所述内部空间和所述接收器(3)通过所述出口区域(2)连接,其特征在于,所述集中器(12)的所述内部空间 )和所述接收器(3)通过所述出口区域(2)流体连通,所述接收器(3)内部存在多个固体颗粒(11),并且所述用于收集太阳能的装置包括易于 从所述接收器(3)中取出所述固体颗粒(11)的一部分并将其从所述浓缩器(12)的所述内部空间内的下方放置,所述固体颗粒(11)随后通过重力返回到所述接收器(3) ),通过所述出口区域(2)。
    • 66. 发明申请
    • THERMAL TRANSPIRATION GENERATOR SYSTEM
    • 热传输发电机系统
    • WO2015183244A1
    • 2015-12-03
    • PCT/US2014/039620
    • 2014-05-27
    • ENGINEERING MANUFACTURING CONTRACTORS, LLC
    • NUTTER, Mark, EugeneWOLLENBERG, Ronald, Leo
    • F03G6/00F24J2/00
    • F03G6/04F03G6/02F03G6/06F03G2006/062F24S23/00F24S23/70F24S23/71Y02E10/46
    • A thermal transpiration generator system includes a parabolic dish, a secondary reflector receiving solar energy from the parabolic dish, and a carrier tube directing solar energy from the secondary reflector to a thermal transpiration generator. The thermal transpiration generator includes a sealed vacuum container, a horizontally disposed rotatable shaft within the sealed vacuum container, bearings supporting the rotatable shaft, a first set of vanes secured to the rotatable shaft for rotation therewith, a second set of vanes secured to the rotatable shaft for rotation therewith, a high rpm flywheel secured to the shaft between the first and second sets of vanes, an electric generator operatively coupled to the rotatable shaft to be driven by rotation of the rotatable shaft, and a solar energy distribution system for receiving solar energy from the carrier tube and directing light to each of the first and second sets of vanes.
    • 热蒸发发生器系统包括抛物面皿,从抛物面皿接收太阳能的次级反射器和将太阳能从次级反射器引导到热蒸发发生器的载体管。 热蒸腾发生器包括密封的真空容器,在密封的真空容器内的水平设置的可旋转的轴,支撑可旋转轴的轴承,固定到可旋转的轴上以与之旋转的第一组叶片,固定到可旋转的第二组叶片 用于与其一起旋转的高转速飞轮,固定到第一组和第二组叶片之间的轴的高转速飞轮,可操作地联接到可旋转轴以通过旋转轴的旋转驱动的发电机,以及用于接收太阳能的太阳能分配系统 来自载体管的能量并将光引导到第一和第二组叶片中的每一个。
    • 67. 发明申请
    • 太陽光反射用パネル、および太陽光反射用パネルの製造方法
    • 太阳能反射板及制造太阳能反射板的方法
    • WO2015163044A1
    • 2015-10-29
    • PCT/JP2015/057950
    • 2015-03-17
    • コニカミノルタ株式会社
    • 坂井 智彦
    • G02B5/08F24J2/10G02B7/182
    • G02B5/08F24S23/70G02B7/182
    • 【課題】反射フィルムのサイズを支持基材より小さくする場合であっても、反射フィルムの劣化を抑制でき、反射フィルムが支持基材から剥がれにくい太陽光反射用パネル、およびその製造方法を提供する。 【解決手段】本発明の太陽光反射用パネル100は、支持基材110と、支持基材110の形状にならって、支持基材110の外縁より内側の領域に貼合され、光源からの光を反射する反射フィルム120と、反射フィルム120の光入射側の表面から、支持基材110の光入射側の表面に亘って配置された封止材130と、を有する。
    • [问题]即使反射膜的尺寸小于支撑基材,也能够使反射膜的劣化最小化的反射膜和反射膜从支撑基材剥离, 以及其制造方法。 [解决方案]该太阳能反射面板(100)具有:支撑基材(110); 与所述支撑基材(110)的形状一致的反射膜(120),所述反射膜(120)从所述支撑基材(110)的外缘附着到内侧的区域,并且反射来自 光源; 以及从反射膜(120)的入射侧的表面延伸到支撑基材(110)的光入射侧的表面的密封材料(130)。
    • 68. 发明申请
    • CONCENTRADOR SOLAR
    • 太阳能集中器
    • WO2015011303A1
    • 2015-01-29
    • PCT/ES2014/000107
    • 2014-06-27
    • CENTRO DE INVESTIGACIONES ENERGÉTICAS MEDIOAMBIENTALES Y TECNOLÓGICAS (C.I.E.M.A.T)
    • MONTERREAL ESPINOSA, RafaelENRIQUE ORTS, Raúl
    • G02B7/183G02B5/10F24J2/12F24J2/52
    • G02B7/183F24S23/70F24S25/00F24S30/452F24S2023/874Y02E10/47
    • Concentrador solar del tipo de los utilizados en plantas termosolares de receptor central, consistente en una superficie reflectante con geometría definida, discretizada dicha superficie en elementos especulares simples de menor tamaño y sin geometría definida denominados facetas (1), especialmente diseñados para que su disposición y mecanismo de amarre sobre una estructura soporte (2) conformada les proporcione la capacidad de adaptarse con un grado de libertad a la geometría de dicha superficie y, además, auto-alinearse para conseguir una determinada distribución de irradiancia solar sobre un blanco. El proceso tradicional de alineación de los heliostatos convencionales queda así completamente suprimido, reduciéndose la puesta a punto de la óptica del heliostato a su proceso de montaje, el cual, como efecto adicional de la invención, no demanda instrumentos de precisión ni técnicos cualificados, todo ello sin menoscabo de la calidad óptica del heliostato.
    • 本发明涉及一种用于中央接收太阳能发电厂的太阳能聚光器,该太阳能聚光器由具有规定几何形状的反射表面组成,所述表面被分为较小尺寸和没有限定几何形状的简单镜面元件,称为刻面(1) ,特别设计成使得它们在成形的支撑结构(2)上的布置和固定机构能够以自由度自适应地适应表面的几何形状,并且另外相互匹配以便实现 对目标的太阳辐照度的预定分布。 因此,用于对准常规定日镜的传统方法被完全废除,减少了定日镜的光学系统的调谐和组装方法,作为本发明的附加益处,其不需要精密仪器或专业技术,所有 在没有定日镜的光学质量受损的情况下实现。
    • 69. 发明申请
    • WIND-HEATED MOLTEN SALT AS A THERMAL BUFFER FOR PRODUCING OIL FROM UNCONVENTIONAL RESOURCES
    • 作为用于从非常规资源生产石油的热缓冲器的风加热型盐
    • WO2014176290A2
    • 2014-10-30
    • PCT/US2014/035052
    • 2014-04-22
    • GENIE IP B.V.NGUYEN, ScottVINEGAR, Harold
    • NGUYEN, ScottVINEGAR, Harold
    • E21B43/2401F03D9/007F03D9/18F03D9/22F03D9/25F24S23/70F24T10/15F24T10/17F28D20/0034F28D20/0052F28D2020/0047Y02E10/125Y02E10/40Y02E10/72Y02E60/142Y02E70/30
    • Embodiments of the present invention relate to heat transfer fluids (e.g. molten-salt) as a thermal buffer for heating, by thermal energy derived from wind-generated electricity, at least one of (i) a subsurface hydrocarbon-containing formation or (ii) a bed of hydrocarbon-containing rocks. During times when 5 wind is plentiful, wind electricity is used to heat the heat transfer fluid - e.g. by means of an electrically resistive heater immersed in the heat transfer fluid. At any time, thermal energy from the wind electricity may be transferred to the hydrocarbon-containing rocks or subsurface formation by the heat transfer fluid. In some embodiments, the fluid is 10 heated both by wind-generated electricity and by solar radiation. Some embodiments relate to a subsurface molten salt heater (e.g. powered by wind-generated electricity) having a non-thermally insulation portion through which molten salt flows. The heater is configured to maintain a temperature of the circulating molten salt, throughout the substantially non-thermally-insulated portion, at a temperature significantly above a 15 melt temperature of the molten salt.
    • 本发明的实施例涉及作为用于加热的热缓冲器的热传递流体(例如熔盐),通过来自风力发电的热能,(i)地下含烃地层中的至少一种或(ii) 一个含烃岩石床。 在5风充足的时期,风用来加热传热流体。 借助于浸入传热流体中的电阻加热器。 在任何时候,来自风电的热能可以通过传热流体转移到含烃岩石或地下地层。 在一些实施例中,流体10被风力发电和太阳辐射加热。 一些实施例涉及具有熔融盐流过的非绝热部分的地下熔盐加热器(例如由风力发电供电)。 加热器构造成在显着高于熔融盐的15熔融温度的温度下将循环熔融盐的温度保持在整个基本上非绝热的部分。