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    • 1. 发明专利
    • Heat exchanger device and heat exchange system
    • 热交换器装置和热交换系统
    • JP2008089291A
    • 2008-04-17
    • JP2006288079
    • 2006-09-25
    • Shinichi Tateno慎一 舘野
    • TATENO SHINICHI
    • F25B39/04F25B1/00F28D9/00F28D19/00F28F23/02
    • PROBLEM TO BE SOLVED: To provide a heat exchanger device capable of performing efficient heat exchange, compact and low in cost, and a heat exchange system.
      SOLUTION: The heat exchanger device comprises a heat exchanger 5 having first passages 2 through which a heat exchange medium 1 flows, and second passages 4 through which a cooling fluid 3 flows; and a mist generating means 6 having an injection nozzle 61 for spraying the cooling fluid 3, and a pressurizing supply means 62 for pressurizing and supplying the cooling fluid 3 to the injection nozzle 61, and generating a spray of cooling fluid 3 and supplying it into the second passages 4. A mist 3A is supplied into the heat exchanger 5, and the heat of vaporization of the mist efficiently takes away the heat of the heat exchange medium 1.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供能够进行有效的热交换,小型化和低成本的热交换器装置和热交换系统。 解决方案:热交换器装置包括热交换器5,热交换器5具有热交换介质1流过的第一通道2和冷却流体3流过的第二通道4; 以及具有用于喷射冷却流体3的喷射喷嘴61的雾化产生装置6,以及用于将冷却流体3加压并供给到喷嘴61的加压供给装置62,并且产生冷却流体3的喷雾并将其供给 第二通道4.将薄雾3A供应到热交换器5中,并且雾气蒸发的热量有效地消除了热交换介质1的热量。版权所有(C)2008,JPO&INPIT
    • 6. 发明专利
    • Method for improving overall thermal efficiency by exhaust gas temperature elevating of thermal storage burner system
    • 通过热存储燃烧器系统排气温度改善整体热效率的方法
    • JP2000074331A
    • 2000-03-14
    • JP24008898
    • 1998-08-26
    • Nkk Corp日本鋼管株式会社
    • TAKAO SHINGO
    • F23D14/66F23L15/02F28D19/00
    • Y02E20/348
    • PROBLEM TO BE SOLVED: To largely improve an overall thermal efficiency by effectively utilizing a sensible heat of an exhaust gas.
      SOLUTION: In the thermal storage burner system for exhausting burned exhaust gas 21 from a burner B1 or B2 through a thermal storage unit R1 or R2 at time of non-burning by switching paired two burners B1, B2 at the each predetermined time, for alternately burning the burners B1, B2, and for supplying combustion air 12 to the burner B1 or B2 via the unit R1 or R2 at the time of burning; the gas 21 is elevated at its temperature, thermally converting a sensible heat absorbed via the unit R1 or R2 of the gas into steam at a serial two stages to be recovered, driving a blower 30 of the air by steam heat recovered at a high temperature stage, driving a regenerator 25 of dehumidified liquid by the steam heat recovered at a low temperature stage, and dehumidifying combustion gas 18 and/or the air 12 by using the dehumidified liquid regenerated by the regenerator.
      COPYRIGHT: (C)2000,JPO
    • 要解决的问题:通过有效地利用废气的显热来大大提高整体的热效率。 解决方案:在蓄热燃烧器系统中,通过在每个预定时间切换成对的两个燃烧器B1,B2,在不燃烧时从燃烧器B1或B2通过蓄热单元R1或R2排出燃烧废气21, 燃烧燃烧器B1,B2,并且在燃烧时通过单元R1或R2将燃烧空气12供给燃烧器B1或B2; 气体21在其温度下升高,将通过气体的单元R1或R2吸收的显热热转换成蒸汽以串联两个阶段进行回收,通过在高温下回收的蒸汽热驱动空气鼓风机30 通过在低温阶段回收的蒸汽热量驱动除湿液体的再生器25,并且通过使用由再生器再生的除湿液体对燃烧气体18和/或空气12进行除湿。
    • 7. 发明专利
    • AIR CONDITIONING SYSTEM
    • JPH1019411A
    • 1998-01-23
    • JP19573296
    • 1996-07-05
    • EBARA CORP
    • MAEDA KENSAKU
    • F25B25/00F24F3/14F24F3/147F28D19/00
    • PROBLEM TO BE SOLVED: To achieve a higher efficiency in the adsorption and regeneration of a desiccant by separating a group assembly for housing the desiccant and a heat exchanger of a heat pump and a group assembly for housing a compressor of the heat pump. SOLUTION: A heat pump 200 is arranged between a treating path A and a regenerating path B to serve as heat source of a desiccant fresh air conditioner 1 of an assembly part 260 which houses a desiccant 103, a heat exchanger 104, a compressor and an accumulator. The assembly part 260 which houses the compressor and the accumulator is installed with being separated from a group assembly 100 as body part of the desiccant fresh air conditioner 1 containing the desiccant 103, an evaporator 240 and a condenser 220 as heat exchangers of the heat pump 200 and both the assemblies are connected to the paths 201 and 204. This achieves a higher efficiency in the adsorption and the regeneration of the desiccant 103.
    • 10. 发明专利
    • HEAT EXCHANGER
    • JPH0791871A
    • 1995-04-07
    • JP24094693
    • 1993-09-28
    • TOSHIBA CORP
    • WATANABE YUTAKA
    • F28D19/00
    • PURPOSE:To make it possible to utilize effectively waste heat without cleaning a flowing water source by moving a heat accumulation member made of a high conductivity material through a first fluid from the downstream of a first channel to the upstream and moving the material through a second fluid from the upstream of a second channel to the downstream as well. CONSTITUTION:When making use of a circulation flowing water resource, such as sewage as a heat source a heat source sewage 4 is incorporated into a sewage channel 3A of a heat exchange section 3 from a sewage main flow line 1 by way of a filter 2 and discharged to the sewage main flow line 1 from a discharge opening 5 once again. On the other hand, in a circulation system 8 of a heat carrier fluid 7 is installed a heat carrier fluid channel 3B which flows in the opposite direction with the sewage and which is parallel to the sewage channel 3A, and what is more, located at a spot near the channel 3A, a ropeway 10 is installed between the channels 3A and 3B where a chain 9B which suspends a heat accumulation body 9 is making a circulation motion in the ropeway 10. During the circulating motion, when the heat accumlation body 9 absorbs a heat value of the sewage at the sewage channel 3A and then moves to the heat carrier fluid channel 3A, the heat is discharged. Then, the heat accumlation body is returned to the sewage channel 3 after having provided the hat to the hat carrier fluid.