会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 7. 发明授权
    • Cyclonic evaporator
    • 旋风式蒸发器
    • US06958107B1
    • 2005-10-25
    • US09806557
    • 1999-09-30
    • Neville ClarkePaul Woodley
    • Neville ClarkePaul Woodley
    • B01D3/08B01D19/00B04C3/02B04C3/04B04C3/06B04C5/06B04C5/20B04C5/28B04C9/00B01D1/00
    • B01D3/08B01D19/0057B04C3/02B04C3/04B04C3/06B04C5/06B04C5/20B04C5/28B04C9/00
    • A method and apparatus for separating the components of a feed material prior to or simultaneously with at least partially vaporizing one of the components is described. The apparatus comprises at least one inlet (8) for admitting the feed material (10) containing the two components to the apparatus (2) wherein a device for introducing a first movement to the feed material is located, such as, for example, an in-line swirl generator (14), which imparts a swirling movement to the feed material to partially separate the components into two swirling flows. The partially separated material on emerging from the in-line swirl generator (14) is in an evaporation tube (20) in which the more volatile component is vaporized to further assist in separating the two components into a liquid component and a gaseous or vapor component. The liquid component and the vapor phase are discharged from the apparatus in two streams through the same outlet (36). Modifications of the method and apparatus include (i) having multiple evaporation tubes (20), each optionally provided with its own in-line swirl generator to facilitate better distribution and separation of the feed material, and (ii) having a reject nozzle (40) and reject conduit (42) located within the generator for allowing passage of vapor or gas through the in-line swirl generator (14) when there is an intermediate flow formed in the generator (14) and conveyed to the evaporation tube (20). The method and apparatus of this application are used as a pre-treatment in an overall separation plant.
    • 描述了在至少部分蒸发组分之一之前或同时分离进料的组分的方法和装置。 该设备包括至少一个入口(8),用于将包含两个部件的进给材料(10)接纳到设备(2),其中用于将第一运动引入给料材料的装置位于例如 在线旋流发生器(14),其向进给材料施加旋转运动以将部件部分地分离成两个旋转流。 从直列旋流发生器(14)出来的部分分离的材料在蒸发管(20)中,其中挥发性较高的组分被蒸发以进一步有助于将两种组分分离成液体组分和气体或蒸汽组分 。 液体组分和气相通过相同的出口(36)以两股流从设备排出。 该方法和设备的修改包括(i)具有多个蒸发管(20),每个蒸发管可选地设置有自己的直列旋流发生器,以便于进料的更好的分配和分离,以及(ii)具有排出喷嘴 )并且当存在在所述发电机(14)中形成并传送到所述蒸发管(20)的中间流时,位于所述发电机内的导管(42)被允许蒸气或气体通过所述直列涡流发生器(14) 。 本申请的方法和装置用作整个分离装置中的预处理。
    • 9. 发明授权
    • Apparatus and a method for separating particles from hot gases
    • 用于从热气体中分离颗粒的装置和方法
    • US06294001B1
    • 2001-09-25
    • US09308339
    • 1999-05-18
    • Timo HyppänenJari Ristola
    • Timo HyppänenJari Ristola
    • B01D4512
    • B01D45/16B04C5/04B04C5/081B04C5/085B04C5/20B04C5/28F23C10/10F23J15/027
    • An apparatus that includes (i) a centrifugal separator assembly and (ii) a fluidized bed reactor having a reactor chamber, the separator assembly being connected to the reactor and provided for separating solid particles from gas discharged from the reactor chamber. The apparatus includes planar peripheral walls defining a vortex chamber, having a rectangular cross section, the vortex chamber having an interior gas volume in which at least two vertical gas vortices can be formed, and the planar peripheral walls including a first wall portion connecting the separator assembly to the reactor chamber, at least two gas outlets, disposed one after the other in the longitudinal direction of the vortex chamber, for discharging cleaned gas from the gas volume, at least one solid particles outlet for discharging separated solid particles from the gas volume, and at least one gas inlet, arranged in the first wall portion, for introducing gas from the reactor chamber into the gas volume. The at least one gas inlet includes at least two inlet ducts which are mainly perpendicular to the first wall portion and arranged side-by-side in the first wall portion within a less than ninety degree sector of one gas vortex within the vortex chamber.
    • 一种装置,其包括(i)离心分离器组件和(ii)具有反应器室的流化床反应器,所述分离器组件连接到所述反应器并且用于从固体颗粒与从反应器室排出的气体分离。 该装置包括限定具有矩形横截面的涡流室的平面周壁,该涡流室具有内部气体容积,在该内部气体容积中可形成至少两个垂直气体涡流,并且该平面周壁包括连接分离器的第一壁部分 组装到反应室,至少两个气体出口,沿涡流室的纵向方向一个接一个地设置,用于从气体体积排出净化气体,至少一个固体颗粒出口,用于从气体体积排出分离的固体颗粒 以及布置在第一壁部分中的至少一个气体入口,用于将气体从反应器室引入气体体积中。 所述至少一个气体入口包括至少两个入口管道,所述至少两个入口管道主要垂直于所述第一壁部分并且在所述涡流室内的一个气体涡流的小于九十度的扇区内并排布置在所述第一壁部分中。
    • 10. 发明授权
    • Immersed heat exchanger in an integral cylindrical cyclone and loopseal
    • 浸入式热交换器在一个整体的圆柱形旋风和环形密封
    • US5393315A
    • 1995-02-28
    • US282518
    • 1994-07-28
    • Michael G. AllistonBrian T. Sinn
    • Michael G. AllistonBrian T. Sinn
    • B01D45/12B04C5/08B04C5/14B04C5/18B04C5/20F22B31/00F23C10/10
    • B01D45/12B04C5/08B04C5/14B04C5/18B04C5/20F22B31/0084F23C10/10F23C2206/103
    • A cyclone separator for a solids-laden process gas from a fluidized bed boiler or reactor also provides a pressure seal and heat exchanger surfaces for the reactor or boiler. The cyclone includes a cylindrical main housing with a longitudinal axis. The housing is made of membrane wall construction. A portion of the tubes are bent outwardly to form an inlet which communicates with the main housing for receiving the solids-laden process gas from the boiler or reactor. Solids are separated from the solids-laden process gas as they swirl together in the main housing of the cyclone separator. A partition wall is disposed at the lower section of the main housing around the longitudinal axis for defining an outer chamber and an inner chamber adjacent the outer chamber. Gas is provided to the outer and inner chambers for creating fluidized beds of the solids in the outer and inner chambers. Solids are passed from the inner chamber to the outer chamber through an underflow port in the partition wall. Solids exit the main housing from an overflow port which communicates with the reactor. Immersed heat exchanger surfaces are provided in the outer chamber for removing heat therefrom.
    • 来自流化床锅炉或反应器的用于固体填充工艺气体的旋风分离器还为反应器或锅炉提供压力密封和热交换器表面。 旋风分离器包括具有纵向轴线的圆柱形主壳体。 外壳采用膜墙结构。 管的一部分向外弯曲以形成与主壳体连通的入口,用于接收来自锅炉或反应器的固体填充工艺气体。 当固体在气旋分离器的主壳体中一起旋转时,固体与固体填充的工艺气体分离。 分隔壁围绕纵向轴线设置在主壳体的下部,用于限定外室和邻近外室的内室。 气体被提供到外室和内室,用于在外室和内室中产生固体的流化床。 固体通过分隔壁中的下溢端口从内室通到外室。 固体从与反应器连通的溢流口离开主壳体。 浸入式热交换器表面设置在外部室中以从中除去热量。