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    • 2. 发明授权
    • Desiccant-based dehumidification system and method
    • 干燥剂除湿系统及方法
    • US06751964B2
    • 2004-06-22
    • US10184249
    • 2002-06-28
    • John C. Fischer
    • John C. Fischer
    • F25D1706
    • F24F3/1423F24F2003/1464F24F2011/0002F24F2203/1004F24F2203/1008F24F2203/1012F24F2203/1016F24F2203/1036F24F2203/104F24F2203/1048F24F2203/106F24F2203/1064F24F2203/1068F24F2203/1084F24F2203/1096
    • The present invention provides an apparatus for dehumidifying air supplied to an enclosed space by an air conditioning unit. The apparatus includes a partition separating the interior of the housing into a supply portion and a regeneration portion. The supply portion has an inlet for receiving supply air from the air conditioning unit and an outlet for supplying air to the enclosed space. A regeneration fan creates the regeneration air stream. The apparatus includes an active desiccant wheel positioned such that a portion of the wheel extends into the supply portion and a portion of the wheel extends into the regeneration portion, so that the wheel can rotate through the supply air stream and the regeneration air stream to dehumidify the supply air stream. A heater warms the regeneration air stream as necessary to regenerate the desiccant wheel. The invention also comprises a hybrid system that combines air conditioning and dehumidifying components into a single integrated unit.
    • 本发明提供了一种用于通过空调单元对供给到封闭空间的空气进行除湿的装置。 该装置包括将壳体的内部分成供给部分和再生部分的分隔件。 供应部分具有用于接收来自空调单元的供应空气的入口和用于向封闭空间供应空气的出口。 再生风扇产生再生空气流。 该设备包括主动干燥剂轮,其定位成使得轮的一部分延伸到供应部分中,并且轮的一部分延伸到再生部分中,使得轮可以旋转通过供应空气流和再生空气流以除湿 供气流。 加热器根据需要加热再生气流以再生干燥剂轮。 本发明还包括将空调和除湿部件组合成单个集成单元的混合系统。
    • 7. 发明授权
    • Method and apparatus for extracting water from air
    • 从空气中提取水的方法和装置
    • US06453684B1
    • 2002-09-24
    • US09804709
    • 2001-03-12
    • Barry L. SpletzerDiane Schafer CallowLisa C. MarronJonathan R. Salton
    • Barry L. SpletzerDiane Schafer CallowLisa C. MarronJonathan R. Salton
    • F25D1706
    • B01D5/0033
    • The present invention provides a method and apparatus for extracting liquid water from moist air using minimal energy input. The method comprises compressing moist air under conditions that foster the condensation of liquid water. The air can be decompressed under conditions that do not foster the vaporization of the condensate. The decompressed, dried air can be exchanged for a fresh charge of moist air and the process repeated. The liquid condensate can be removed for use. The apparatus can comprise a compression chamber having a variable internal volume. An intake port allows moist air into the compression chamber. An exhaust port allows dried air out of the compression chamber. A condensation device fosters condensation at the desired conditions. A condensate removal port allows liquid water to be removed.
    • 本发明提供一种使用最少能量输入从潮湿空气中提取液体水的方法和装置。 该方法包括在促进液态水冷凝的条件下压缩湿空气。 空气可以在不促进冷凝物蒸发的条件下减压。 减压干燥的空气可以更换新鲜的潮湿空气,并重复该过程。 液体冷凝物可以被去除使用。 该装置可以包括具有可变内部容积的压缩室。 进气口允许湿空气进入压缩室。 排气口允许干燥的空气从压缩室排出。 冷凝装置在所需条件下促进冷凝。 冷凝水排出口允许去除液态水。
    • 9. 发明授权
    • Refrigeration circuit with reheat coil
    • 带加热线圈的制冷回路
    • US06381970B1
    • 2002-05-07
    • US09263391
    • 1999-03-05
    • David H. EberPaul R. GlammDwayne L. JohnsonWalter Earhart, Jr.John F. KloudaBrian J. KielDale A. Hulst
    • David H. EberPaul R. GlammDwayne L. JohnsonWalter Earhart, Jr.John F. KloudaBrian J. KielDale A. Hulst
    • F25D1706
    • F25B40/02F24F3/153F24F2011/0002F25B6/02F25B41/04F25B49/027F25B2400/16
    • A refrigeration system with a high percentage of fresh air. The system comprises a supply air duct; an indoor heat exchange coil operably positioned in the supply air duct; a reheat heat exchange coil operably positioned in the supply air duct; an outdoor heat exchange coil; at least one compressor; and an expansion device. The system also comprises refrigeration system tubing connected to and serially arranging the compressor, the outdoor heat exchange coil, the expansion device and the indoor coil into a refrigeration circuit; and reheat tubing connecting the reheat coil to the refrigeration tubing so as to arrange the reheat coil in a parallel circuited arrangement with the outdoor heat exchange coil and in a series circuited arrangement with the compressor, the expansion device and the indoor heat exchange coil. The system further comprises a subcooler located between and operably connected to the indoor heat exchange coil and the parallel circuited arrangement; and a control valve in the reheat tubing operable to control refrigerant flow through the reheat coil.
    • 具有高比例的新鲜空气的制冷系统。 该系统包括供气管道; 可操作地定位在供气管道中的室内热交换盘管; 可操作地定位在供气管道中的再热换热线圈; 户外热交换线圈; 至少一个压缩机; 和扩展装置。 该系统还包括连接到压缩机,室外热交换线圈,膨胀装置和室内线圈的制冷系统管道并联到制冷回路中; 以及将再热线圈连接到制冷管道的再加热管,以将再热线圈与室外热交换线圈并联布置,并与压缩机,膨胀装置和室内热交换线圈串联布置。 该系统还包括位于室内热交换线圈之间并可操作地连接到室内热交换线圈和并联绕组的过冷器; 以及再加热管中的控制阀,其可操作以控制通过再热线圈的制冷剂流。