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    • 9. 发明授权
    • METHOD AND SYSTEM FOR STORING SOLAR HEAT
    • 用于存储太阳能热量的方法和系统
    • EP2639527B1
    • 2017-06-21
    • EP11839351.1
    • 2011-11-08
    • Tokyo Institute of Technology
    • TAMAURA Yutaka
    • F24J2/42F24J2/48F28D20/00C04B35/26
    • F24S60/00C04B35/2666C04B2235/3279C04B2235/9607C04B2235/9646F24S20/20F24S70/16F24S2020/23F28D20/003F28D20/0056F28D2020/0047Y02E10/41Y02E60/142Y02E70/30
    • [Object] To provide a solar thermal storage method capable of supplying the heat of about 1000 to 1300 K to an external facility for 24 hours. [Solving Means] Disclosed is a solar thermal storage method for storing heat using solar light energy, the solar thermal storage method including a concentrated beam irradiation step S 1 of irradiating a reactive ceramics layer with a concentrated beam obtained by concentrating solar light to heat the same while moving the reactive ceramics layer formed using reactive ceramics that transforms from an oxidized form to a reduced form with a release of oxygen when heated and returns to the oxidized form when brought into contact with the oxygen; and a thermal storage step S2 of storing the heat emitted from the reactive ceramics layer in thermal storage means while bringing the reactive ceramics layer heated in the concentrated beam irradiation step S 1 into contact with gas containing the oxygen.
    • 本发明的目的是提供一种太阳能蓄热方法,能够将约1000至1300K的热量供应给外部设施24小时。 [解决手段]公开了一种利用太阳光能量进行蓄热的太阳能蓄热方法,该太阳能蓄热方法包括:集中射线照射步骤S1,其通过对通过聚集太阳光而获得的集中光束照射反应陶瓷层以加热 同时移动使用反应性陶瓷形成的反应性陶瓷层,所述反应性陶瓷层在加热时释放氧并从氧化形式转变为还原形式,并在与氧接触时恢复成氧化形式; 以及蓄热步骤S2,其使在集束照射步骤S1中被加热的反应陶瓷层与包含氧的气​​体接触,同时将从反应陶瓷层发出的热量储存在蓄热装置中。
    • 10. 发明公开
    • SOLAR THERMAL ABSORBER ELEMENT
    • SOLARTHERMISCHES ABSORBERELEMENT
    • EP3104098A1
    • 2016-12-14
    • EP16172584.1
    • 2016-06-02
    • Savo-Solar Oy
    • PISCHOW, Kaj
    • F24J2/20F24J2/46F24J2/48F24J2/51
    • F24S80/70F24S10/40F24S10/504F24S10/506F24S70/25F24S70/30F24S70/60F24S80/54F24S80/60F24S2025/011Y02E10/44Y02P80/156Y02P80/24
    • The application relates to a solar thermal collector that comprises a solar thermal absorber element (100). The element comprises a cover glass (110), a direct-flow absorber (120), a fore thermoplastic sealing (130) for attaching the cover glass and the absorber to each other so that there is a distance (h 1 ) therebetween, and a fore sealed space (134), which is formed by the cover glass, the absorber, and the fore sealing. The fore space is filled up with a first low thermal conductive gas (136). The element further comprises a back insulation part (160), a back thermoplastic sealing (170) for attaching the insulation part and the absorber to each other so that there is a distance (h 2 ) therebetween, and a back sealed space (174), which is formed by the insulation part, the absorber, and the back sealing. The back space is filled up with a second low thermal conductive gas (176). The element may comprise e.g. TPS-direct-flow absorber-glass element, wherein the back insulation part of e.g. glass is hermetically sealed with the TPS sealing and the back space is filled with the second gas.
    • 本申请涉及一种包括太阳能热吸收元件(100)的太阳能热收集器。 该元件包括盖玻璃(110),直流吸收器(120),用于将盖玻璃和吸收体彼此附接以使其间具有距离(h 1)的前部热塑性密封件(130)和 由密封玻璃,吸收体和前密封形成的前密封空间(134)。 前空间填充有第一低导热气体(136)。 所述元件还包括背部绝缘部分(160),用于将所述绝缘部分和所述吸收体彼此附接以使其间具有距离(h 2)的后部热塑性密封件(170)和后部密封空间(174) ,其由绝缘部件,吸收器和后密封件形成。 后部空间填充有第二低导热气体(176)。 元件可以包括例如 TPS直流吸收器玻璃元件,其中例如, 玻璃用TPS密封密封,后部空间充满第二种气体。