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    • 1. 发明申请
    • Dry air supply device
    • 干燥空气供给装置
    • US20040231179A1
    • 2004-11-25
    • US10829464
    • 2004-04-22
    • Nichias Corporation
    • Noriaki KodamaMasaji KurosawaKatsuhiro Yamashita
    • F26B021/06
    • F24F3/1423B01D53/06B01D53/261B01D2253/108B01D2253/25B01D2253/3425B01D2257/80B01D2258/0216B01D2259/4009F24F2203/1032F24F2203/1056F24F2203/1072F24F2203/108F24F2203/1088F24F2203/1096
    • The present invention provides a dry air supply device for supplying, into a target space, dry air from which moisture and organic materials have been removed, the device comprising: a plurality of rotors disposed in series, each of which is configured to carry an adsorbent thereon and is rotatably supported; partition members which are arranged at outermost end portions of the rotors and between the rotors so as to partition a rotary zone of each rotor into an adsorption zone, a regeneration zone and a cooling zone; a driving member which rotatably drives the rotors; a supply passage which allows sucked air to pass through the adsorption zone to obtain dry air from which moisture and organic materials have been removed, and which supplies the dry air into the target space; and an exhaust passage which allows a portion of the dry air to pass through the cooling zone, then heats the cooled air, and then allows the heated air to pass through the regeneration zone to separate the moisture and the organic materials from the adsorbent thereby.
    • 本发明提供了一种干空气供给装置,用于向目标空间供给已除去水分和有机材料的干燥空气,所述装置包括:串联设置的多个转子,每个转子构造成承载吸附剂 可旋转地支撑; 隔离构件,其布置在转子的最外端部和转子之间,以将每个转子的旋转区域分隔成吸附区域,再生区域和冷却区域; 驱动所述转子的驱动构件; 供给通道,其允许吸入的空气通过吸附区域以获得从中除去水分和有机材料的干燥空气,并将干燥空气供应到目标空间中; 以及允许一部分干燥空气通过冷却区的排气通道,然后加热冷却的空气,然后允许加热的空气通过再生区,从而将水分和有机材料与吸附剂分离。
    • 6. 发明授权
    • Total energy exchange medium and method of making the same
    • 总能量交换介质及其制作方法
    • US4361620A
    • 1982-11-30
    • US255562
    • 1971-04-20
    • Emerson H. Newton
    • Emerson H. Newton
    • F28F23/00F24F3/14F28D19/04F28F23/02B32B5/16
    • F28D19/042F24F3/1423F24F2203/1012F24F2203/1036F24F2203/104F24F2203/1048F24F2203/1068F24F2203/108F24F2203/1084Y10T428/273
    • Total heat energy exchange medium incorporated in an energy exchange device for transferring heat and moisture between two airstreams in an air supply system. The exchange medium is aluminum having a coating of hydrated calcium and aluminum oxides or hydroxides to render its heat transfer surfaces capable of exchanging latent as well as sensible heat energy. The coating is formed by exposing precleaned aluminum to a heated, preferably boiling solution of water-soluble calcium and aluminum compounds, preferably equal parts of hydrated calcium nitrate and hydrated aluminum nitrate, the pH of the solution having been brought to the range of from about 7 to 11, preferably pH=8 to 9, by adding sodium hydroxide which produces in the solution a mixed gelatinous precipitate of hydrated calcium and aluminum oxides and hydroxides. When the aluminum is exposed to this solution, as by immersing the aluminum therein, further reaction with the aluminum forms a conversion coating portion comprising an hydrated calcium aluminate immediately next to the aluminum surface which, in turn, secures the insoluble gel-like precipitate coating portion of hydrated calcium and aluminum oxides or hydroxides thereto.
    • 总的热能交换介质结合在用于在空气供应系统中的两个气流之间传递热量和湿气的能量交换装置中。 交换介质是具有水合钙和铝氧化物或氢氧化物的涂层的铝,以使其传热表面能够交换潜在的以及显热的热能。 通过将预清洗的铝暴露于水溶性钙和铝化合物,优选等份的水合硝酸钙和水合硝酸铝的加热优选沸腾溶液中形成涂层,溶液的pH已经达到约 7至11,优选pH = 8至9,通过加入在溶液中产生水合钙和铝氧化物和氢氧化物的混合凝胶状沉淀物的氢氧化钠。 当铝暴露于该溶液中时,通过将铝浸入其中,与铝的进一步反应形成包含紧邻铝表面的水合铝酸钙的转化涂层部分,其又固定不溶性凝胶状沉淀涂层 部分水合钙和氧化铝或氢氧化物。
    • 7. 发明授权
    • Total energy exchange apparatus
    • 总能量交换装置
    • US4290789A
    • 1981-09-22
    • US18793
    • 1979-03-08
    • Emerson H. Newton
    • Emerson H. Newton
    • F28F23/00F24F3/14F28D19/04F28F23/02B01D53/28
    • F28D19/042F24F3/1423F24F2203/1012F24F2203/1036F24F2203/104F24F2203/1048F24F2203/1068F24F2203/108F24F2203/1084Y10T428/273
    • Total heat energy exchange medium incorporated in an energy exchange device for transferring heat and moisture between two airstreams in an air supply system. The exchange medium is aluminum having a coating of hydrated calcium and aluminum oxides or hydroxides to render its heat transfer surfaces capable of exchanging latent as well as sensible heat energy. The coating is formed by exposing precleaned aluminum to a heated, preferably boiling solution of water-soluble calcium and aluminum compounds, preferably equal parts of hydrated calcium nitrate and hydrated aluminum nitrate, the pH of the solution having been brought to the range of from about 7 to 11, preferably pH=8 to 9, by adding sodium hydroxide which produces in the solution a mixed gelatinous precipitate of hydrated calcium and aluminum oxides and hydroxides. When the aluminum is exposed to this solution, as by immersing the aluminum therein, further reaction with the aluminum forms a conversion coating portion comprising an hydrated calcium aluminate immediately next to the aluminum surface which, in turn, secures the insoluble gel-like precipitate coating portion of hydrated calcium and aluminum oxides or hydroxides thereto.
    • 总的热能交换介质结合在用于在空气供应系统中的两个气流之间传递热量和湿气的能量交换装置中。 交换介质是具有水合钙和铝氧化物或氢氧化物的涂层的铝,以使其传热表面能够交换潜在的以及显热的热能。 通过将预清洗的铝暴露于水溶性钙和铝化合物,优选等份的水合硝酸钙和水合硝酸铝的加热优选沸腾溶液中形成涂层,溶液的pH已经达到约 7至11,优选pH = 8至9,通过加入在溶液中产生水合钙和铝氧化物和氢氧化物的混合凝胶状沉淀物的氢氧化钠。 当铝暴露于该溶液中时,通过将铝浸入其中,与铝的进一步反应形成包含紧邻铝表面的水合铝酸钙的转化涂层部分,其又固定不溶性凝胶状沉淀涂层 部分水合钙和氧化铝或氢氧化物。