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    • 77. 发明公开
    • HEAT EXCHANGER ELEMENT
    • 交换部件
    • EP2342520A4
    • 2015-12-02
    • EP09818058
    • 2009-09-22
    • JLO INVEST AB
    • ERIKSSON PER GUNNAR
    • F28D9/00F24J2/20F28F21/06
    • F28F3/12F24J2/201F24J2/204F24J3/081F28F9/0258F28F21/065Y02B10/20Y02E10/12Y02E10/44Y02P80/24
    • The invention relates to an heat exchanger element of a plate type, with one internal flow passage, comprising two plates defining an inlet, an outlet and an internal passage extending between said inlet and said outlet, whereas said passage is between two generally parallel plates of self supporting polymer material. The present invention also relates to the use of such an exchanger element as collector in a solar energy arrangement, as chilled beam, as hear distributing element, as subterranean collector, as exchange element in industrial processes and as heat absorber in arrangements for cooling electrical components that are negatively affected by being close to elements having electrical conductivity.
    • 本发明涉及一种板式热交换器元件,其具有一个内部流动通道,其包括限定入口,出口和在所述入口和所述出口之间延伸的内部通道的两个板,而所述通道位于两个大致平行的 自支撑聚合物材料。 本发明还涉及这种在太阳能装置中作为收集器的这种交换器元件在工业过程中作为冷却梁,作为听到分配元件,作为地下收集器,作为交换元件的用途以及用于冷却电气部件的布置中的吸热器的用途 其受到靠近具有导电性的元件的负面影响。
    • 78. 发明公开
    • SOLAR-POWERED AUTOCLAVE DEVICE
    • 太阳能供电的高压釜装置
    • EP2929931A1
    • 2015-10-14
    • EP14818842.8
    • 2014-02-11
    • Liu, Kai
    • Liu, Kai
    • B01J3/04
    • B28B11/245B01J3/04F24S10/40F24S90/00F26B3/04Y02P80/24
    • The present invention discloses a pump-type autoclave system and a providing method for steam and pressure thereof, wherein the pump-type autoclave system comprises an autoclave, a steam providing device and a compressor, said steam providing device comprises a water storage container and a heating device used for heating said water storage container, said water storage container, the compressor and the autoclave are connected through a pipeline to form a closed loop, an inlet of the compressor is connected with a steam output port of the water storage container, an outlet of the compressor is connected to a steam input port of the autoclave, and a condensate water drain outlet of the autoclave is connected to the water storage container. The present invention uses the compressor to depressurize an intermediate-low temperature water source to obtain steam, and the steam is pumped into the autoclave and condensed to release heat to obtain corresponding temperature and pressure. Since the present invention fully utilizes a great amount of low-cost intermediate-low temperature heat sources obtained from natural, industrial or living waste heat to provide needed high temperature, steam and pressure to the autoclave system, the energy is saved.