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    • 2. 发明申请
    • COMPACT STACKED FIN HEAT EXCHANGER
    • 紧凑堆垛热交换器
    • WO2016144888A1
    • 2016-09-15
    • PCT/US2016/021221
    • 2016-03-07
    • J R THERMAL LLC
    • RICE, Jeremy
    • F28F3/02F28F3/12F28F3/10F28F13/18
    • F28D9/0037F24F12/006F28D9/0062F28F2230/00F28F2275/02F28F2275/14Y02B30/563
    • A method and system is disclosed in which an air to air heat exchanger keeps two air streams separate through the use of metal fins. Edges of alternating fins are folded so that the end is in the proximity of the adjacent fin and the remaining gap is sealed. The fin stack is held together by interlocking features or through the use of a tube, in which case the fin stacks may be stamped and stacked on alignment stakes during production using the same holes as the tubes. The heat exchanger may have extended use in removing moisture and heat from a hot humid air stream. The heat exchanger has utility in heat recovery ventilation systems, clothes dryer heat recovery or other air to air heat exchanger processes where the pressure difference between the airstreams is less than approximately 5000 Pa.
    • 公开了一种方法和系统,其中空气 - 空气热交换器通过使用金属翅片保持两个空气流分离。 交替的翅片的边缘被折叠,使得端部在邻近的翅片附近,并且剩余的间隙被密封。 散热片堆叠通过互锁特征或通过使用管被保持在一起,在这种情况下,在使用与管相同的孔的生产期间,翅片堆叠可以被冲压并堆叠在对准桩上。 热交换器可以用于从潮湿的湿气流中去除水分和热量。 热交换器在热回收通风系统,干衣机热回收或其它空气 - 空气热交换器过程中具有效用,其中气流之间的压力差小于约5000Pa。
    • 3. 发明申请
    • HEAT TRANSFER ENGINE
    • 换热发动机
    • WO2015057472A1
    • 2015-04-23
    • PCT/US2014/059812
    • 2014-10-09
    • J R THERMAL LLC
    • RICE, Jeremy
    • F28D15/02
    • F01K25/08F28D15/0266
    • The invention provides a method for a thermally activated closed loop heat transfer system, and requires no other external power source other than the heat which it is transferring. The system is based on a two-phase (liquid/vapor) working fluid, with heat input through an evaporator and heat rejected through a condenser. All of the mechanical power produced by an engine, driven by the high vapor quality fluid leaving the evaporator, is consumed by the pump. The pump drives the low vapor quality fluid leaving the condenser back to the evaporator. Nearly isothermal heat transport can be achieved when using a pure or azeotropic working fluid, since the operation only requires the evaporator pressure to be marginally higher than the condensers pressure.
    • 本发明提供了一种用于热活化闭环传热系统的方法,并且不需要其所传送的热量以外的其他外部电源。 该系统基于两相(液体/蒸气)工作流体,通过蒸发器输入热量,并通过冷凝器排除热量。 由离开蒸发器的高蒸汽质量流体驱动的发动机产生的所有机械功率被泵消耗。 泵驱动离开冷凝器的低蒸汽质量流体回到蒸发器。 当使用纯的或共沸的工作流体时,可以实现几乎等温的热传输,因为操作仅需要蒸发器压力略高于冷凝器压力。