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    • 2. 发明申请
    • ENERGY RECOVERY VENTILATOR
    • 能源回收通风机
    • WO2010002957A2
    • 2010-01-07
    • PCT/US2009/049347
    • 2009-07-01
    • CARRIER CORPORATIONDOBBS, Gregory, M.BENOIT, Jeffrey, T.LEMCOFF, Norberto, O.
    • DOBBS, Gregory, M.BENOIT, Jeffrey, T.LEMCOFF, Norberto, O.
    • F24F11/00F28F3/00F24F7/08
    • F24F12/006F24F2012/007F28D9/0062Y02B30/563
    • An energy recovery heat exchanger (100) includes a housing (102). The housing has a first flowpath (144) from a first inlet (104) to a first outlet (106). The housing has a second flowpath (146) from a second inlet (108) to a second outlet (110). Either of two cores may be in an operative position in the housing. Each core has a number of first passageways having open first and second ends and closed first and second sides. Each core has a number of second such passageways interspersed with the first passageways. The ends of the second passageways are aligned with the sides of the first passageways and vice versa. A number of heat transfer member sections separate adjacent ones of the first and second passageways. An actuator is coupled to the carrier to shift the cores between first and second conditions. In the first condition, the first core (20) is in the operative position and the second core (220) is not. In the second condition, the second core is in the operative position and the first core is not. When a core is in the operative position, its first passageways are along the first flowpath and the second passageways are along the second flowpath.
    • 能量回收热交换器(100)包括壳体(102)。 壳体具有从第一入口(104)到第一出口(106)的第一流路(144)。 壳体具有从第二入口(108)到第二出口(110)的第二流路(146)。 两个芯中的任一个可以处于壳体中的操作位置。 每个芯具有多个具有开放的第一和第二端并且封闭的第一和第二侧的第一通道。 每个核心具有穿过第一通道的多个第二这样的通道。 第二通道的端部与第一通道的侧面对准,反之亦然。 多个传热构件部分分离相邻的第一和第二通道。 致动器耦合到载体以在第一和第二条件之间移动芯。 在第一状态下,第一芯(20)处于操作位置,第二芯(220)不是。 在第二状态下,第二芯处于操作位置,第一芯不是。 当芯部处于操作位置时,其第一通道沿着第一流动路径并且第二通道沿着第二流动路径。
    • 5. 发明申请
    • PHOTOCATALYST PROTECTION
    • 光电子保护
    • WO2006065491A3
    • 2007-05-03
    • PCT/US2005042708
    • 2005-11-22
    • CARRIER CORPHAY STEPHEN OBRANDES SUSAN DLEMCOFF NORBERTO OOBEE TIMOTHY NSCHMIDT WAYNE R
    • HAY STEPHEN OBRANDES SUSAN DLEMCOFF NORBERTO OOBEE TIMOTHY NSCHMIDT WAYNE R
    • B01J19/08
    • A61L9/014A61L9/015A61L9/16A61L9/205A61L9/22B01D53/007B01D53/32B01D53/885B01D2255/802B01D2259/804B60H3/0608B60H2003/0675B60H2003/0691F24F3/16F24F2003/1628F24F2003/1667
    • An air treatment system includes a filter and heating element, a plasma device, and a photocatalyst and UV light that cooperate to purify an air stream flowing through the air treatment system and protect the photocatalyst from passivating effects of certain contaminants. The air treatment system operates in two different modes. In the first mode, the air treatment system primarily draws air from and returns air to a space, and the heating element and plasma device are selectively shut off. In the second mode, the air treatment system regenerates the filter using the heating element to selectively heat the filter and release adsorbed contaminants. The plasma device is selectively turned on and chemically transforms the released contaminants into solid contaminant products. The solid contaminant products are deposited on a biased electrode of the plasma device. The UV light is turned off to ensure that the photocatalyst is inoperable during the release and transformation of the contaminants. Once deposited, the essentially immobile and inert solid contaminant products are unlikely to damage the photocatalyst.
    • 空气处理系统包括过滤器和加热元件,等离子体装置和光催化剂和UV光,其协作以净化流过空气处理系统的空气流并保护光催化剂免受某些污染物的钝化作用。 空气处理系统以两种不同的方式运行。 在第一模式中,空气处理系统主要从空气中抽取空气并将空气返回到空间,并且选择性地切断加热元件和等离子体装置。 在第二模式中,空气处理系统使用加热元件再生过滤器,以选择性地加热过滤器并释放吸附的污染物。 选择性地打开等离子体装置,并将释放的污染物化学转化成固体污染物。 固体污染产物沉积在等离子体装置的偏置电极上。 UV灯被关闭,以确保在污染物的释放和转化过程中光催化剂不可操作。 一旦沉积,基本上不可移动和惰性的固体污染物产物不可能损坏光催化剂。
    • 8. 发明申请
    • ENERGY RECOVERY VENTILATOR
    • 能量回收通风机
    • WO2010002957A3
    • 2010-03-25
    • PCT/US2009049347
    • 2009-07-01
    • CARRIER CORPDOBBS GREGORY MBENOIT JEFFREY TLEMCOFF NORBERTO O
    • DOBBS GREGORY MBENOIT JEFFREY TLEMCOFF NORBERTO O
    • F24F11/00F24F7/08F28F3/00
    • F24F12/006F24F2012/007F28D9/0062Y02B30/563
    • An energy recovery heat exchanger (100) includes a housing (102). The housing has a first flowpath (144) from a first inlet (104) to a first outlet (106). The housing has a second flowpath (146) from a second inlet (108) to a second outlet (110). Either of two cores may be in an operative position in the housing. Each core has a number of first passageways having open first and second ends and closed first and second sides. Each core has a number of second such passageways interspersed with the first passageways. The ends of the second passageways are aligned with the sides of the first passageways and vice versa. A number of heat transfer member sections separate adjacent ones of the first and second passageways. An actuator is coupled to the carrier to shift the cores between first and second conditions. In the first condition, the first core (20) is in the operative position and the second core (220) is not. In the second condition, the second core is in the operative position and the first core is not. When a core is in the operative position, its first passageways are along the first flowpath and the second passageways are along the second flowpath.
    • 能量回收热交换器(100)包括壳体(102)。 壳体具有从第一入口(104)到第一出口(106)的第一流动路径(144)。 壳体具有从第二入口(108)到第二出口(110)的第二流动路径(146)。 两个芯中的任何一个可以处于壳体中的操作位置。 每个核心具有多个第一通道,其具有敞开的第一和第二端以及封闭的第一和第二侧。 每个核心具有多个与第一通道交错的第二通道。 第二通道的端部与第一通道的侧部对齐,反之亦然。 多个传热构件区段将第一和第二通路中的相邻的通路分开。 致动器连接到载体以在第一和第二条件之间移动芯。 在第一种情况下,第一芯体(20)处于工作位置,第二芯体(220)不处于工作位置。 在第二种情况下,第二个核心处于操作位置,第一个核心不在。 当芯部处于操作位置时,其第一通道沿着第一流动路径并且第二通道沿着第二流动路径。