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
    • 3. 发明申请
    • VOLUMETRIC RECEIVER
    • 体积接收器
    • WO2017060882A1
    • 2017-04-13
    • PCT/IB2016/056050
    • 2016-10-10
    • FONDAZIONE BRUNO KESSLER
    • ALBERTI, FabrizioROCCABRUNA, MattiaCREMA, LuigiROMERO ALVAREZ, ManuelGONZALEZ-AGUILAR, JoséSANTIAGO SACRISTAN, Sergio
    • F24J2/04F24J2/07F24J2/28
    • F24S10/80F24S20/20F24S70/60Y02E10/41Y02E10/44
    • The invention is a volumetric receiver (100, 200) configured to absorb the radiation (R) emitted by a heat source (S) and incident on an exposed face (102, 202) of the same volumetric receiver (100, 200) and to transfer the thermal energy induced by said absorption to a surrounding heat transfer fluid (F). This volumetric receiver (100, 200) comprises a plurality of hollow cells (1 ) whose longitudinal axes are substantially orthogonal with respect to the exposed face (102, 202), wherein the hollow cells (1 ) are adjacent and stably connected to one another in such a way as to define at least one level (104; 204a, 204b, 204c) substantially parallel to the exposed face (102, 202), each one of the hollow cells (1 ) defining a channel open at both its ends opposite each other according to said longitudinal axis and each one of the hollow cells (1 ) being also provided with an opening (3) made on its lateral surface (2).
    • 本发明是被配置为吸收由热源(S)发射并且入射在相同体积接收器(100,200)的暴露面(102,202)上的辐射(R)的体积接收器(100,200),并且 将由所述吸收引起的热能转移到周围的传热流体(F)。 该容积式接收器(100,200)包括多个中空电池(1),其长轴相对于暴露面(102,202)基本正交,其中中空电池(1)彼此相邻并稳定连接 以限定基本上平行于暴露面(102,202)的至少一个水平面(104; 204a,204b,204c)的方式,每个所述中空细胞(1)限定在其两端相对的通道 根据所述纵向轴线彼此相对,并且每个中空细胞(1)还设置有在其侧表面(2)上制成的开口(3)。
    • 4. 发明申请
    • 集熱レシーバ
    • 热收集器
    • WO2016002822A1
    • 2016-01-07
    • PCT/JP2015/068923
    • 2015-06-30
    • イビデン株式会社
    • 伊藤 孝久保 修一
    • F24J2/48F24J2/04F24J2/28
    • F24S70/10F24S10/00F24S10/80Y02E10/44
    •  集熱レシーバ(10A)によれば、太陽光を吸収する吸収体(20A)と、吸収体(20A)を保持するハウジング(30A)を有する。吸収体(20A)は、互いに受光面が隣り合う第1のハニカム体(22)および第2のハニカム体(23)からなる。ハウジング(30A)の内部には、第1のハニカム体(22)の外側端面(221)とは反対側の内側端面(222)に連続する第1の空間(24)を有するとともに、第1の空間(24)には第1の接続孔(25)が設けられている。また、第2のハニカム体(23)の外側端面(231)とは反対側の内側端面(232)に連続する第2の空間(26)を有するとともに、第2の空間(26)には第2の接続孔(27)が設けられている。このため、太陽光により昇温された空気の吸引および返送を連続して行うことができる。
    • 该集热接收器(10A)具备吸收太阳光的吸收体(20A) 和用于保持吸收体(20A)的壳体(30A)。 吸收体(20A)包括彼此相邻设置的具有光接收表面的第一蜂窝体(22)和第二蜂窝体(23)。 在壳体30A内设有第一空间24,该第一空间24在与第一蜂窝体22的外端表面221相对的一侧延伸到内端表面222。 第一连接孔(25)设置到第一空间(24)。 另外,在第二蜂窝体(23)的与外端面(231)相反一侧的内端面(232)上设有第二空间(26)。 第二连接孔(27)设置到第二空间(26)。 结果,由阳光加热的空气可以被吸入并连续返回。
    • 5. 发明申请
    • SOLAR COLLECTOR FOR HEATING GASES
    • 太阳能集热器于加热气体
    • WO2015124705A3
    • 2015-10-15
    • PCT/EP2015053558
    • 2015-02-20
    • HÄLLER HANS-JÖRG
    • HÄLLER HANS-JÖRG
    • F24J2/28F24J2/50
    • F24J2/40F24J2/28F24J2/482F24J2/506Y02E10/44
    • The invention relates to a radiation collector for heating a gas by means of light energy. The collector (100) has an inner flow channel (103), which is bounded toward the irradiation side by an absorber (102), and an outer flow channel (104), which at least partially surrounds the inner flow channel (103) and which is bounded toward the irradiation side by a transparent cover (101). The transparent cover (101) is formed by a flexible, thin-layer material web, in particular a transparent film. The transparent cover (101) is designed in such a way that air can flow from the outer region through the cover (101) into the outer flow channel. Preferably, the absorber also is formed by a flexible and thin-layer material web, in particular a light-absorbing film and/or a woven fabric, and is air-permeable such that air can flow from the outer flow channel through the absorber into the inner flow channel.
    • 本发明涉及一种辐射收集器,用于与光能量加热的气体。 集电极(100)具有被限定在辐射侧通过吸收器(102)的内部流动通道(103),以及至少部分地围绕用于通过辐射侧的外流动通道(104)的内部流路(103) 透明盖(101)是有限的。 透明盖(101)是特别是由材料制成的柔性且薄的层网,透明膜形成。 透明盖(101)被形成为使得空气能够通过所述盖(101)在所述外流动通道从外部区域阐述流动。 此外,吸收器和由一柔性片材料幅,特别是光吸收膜和/或机织织物优选形成并透过空气,使得空气可从外部流动通道通过吸收在内部流动通道流动。
    • 9. 发明申请
    • RECEIVER FOR SOLAR ENERGY PRODUCTION INSTALLATIONS
    • 接收器,用于太阳能生产设施
    • WO2012041773A3
    • 2012-11-15
    • PCT/EP2011066574
    • 2011-09-23
    • DEUTSCH ZENTR LUFT & RAUMFAHRTKRAFTANLAGEN MUENCHEN GMBHHOFFSCHMIDT BERNHARDKOLL GERRIT
    • HOFFSCHMIDT BERNHARDKOLL GERRIT
    • F24J2/07F24J2/28F24J2/46
    • F24J2/07F24J2/28F24J2/4625Y02E10/41Y02E10/44
    • The invention relates to a high-temperature receiver for solar power stations, especially for heliostat power stations, with air as a heat transfer medium. The receiver has a supporting structure (14), which bears a number of rows of receiver modules (13) that use absorber elements (36) to capture the solar radiation. The absorber elements take in outside air and discharge it as hot air (25) through hot-air tubes (24). To cool the hot-air tubes (24), cooling jackets (26) are provided inside the hollow space (15). The cooling is performed using returned air that generally still contains residual heat. This is blown out from outlet nozzles (41), which are arranged before the front sides (36a) of the adjacent absorber modules, and so the returned air that is expelled is taken in by a number of absorber modules. As a result, energy losses are largely avoided and a high level of efficiency is achieved.
    • 本发明涉及一种高温接收器,用于太阳能发电厂,尤其是用于使用空气作为传热介质定日镜发电厂。 该接收器包括一个支承结构(14)承载多个接收器模块(13)的行的该捕获的太阳辐射吸收体(36)。 通过吸收体外部的空气被吸入和热空气(25)通过热空气管(24)排出。 用于冷却热空气管(24)的空腔(15)的内部设置冷却套(26)。 冷却发生与回风,这.A。 仍含有余热。 这被吹出的吹出喷嘴(41),其是相对于相邻吸收器模块的前侧(36A)被向前移位,从而使排出的返回空气通过的多个的时间吸收模块吸入的。 此能量损失可以在很大程度上避免和有更高的效率水平。