Gas and solids reducing slurry downcomer
    4.
    发明授权
    Gas and solids reducing slurry downcomer 失效
    气体和固体减少浆液降液

    公开(公告)号:US5866621A

    公开(公告)日:1999-02-02

    申请号:US851863

    申请日:1997-05-06

    摘要: Particulate solids and gas are removed from a three phase hydrocarbon synthesis slurry of solid catalyst particles, gas and liquid, by successively passing slurry from a slurry body through solids and gas disengaging zones in fluid communication, with the solids disengaging zone upstream of the gas disengaging zone. This is accomplished using a solids and gas disengaging downcomer immersed in the slurry wherein solids are disengaged in a quiescent zone adjacent the slurry body, from which the solids reduced slurry passes through an enclosed cup in which gas is disengaged and removed. The bottom of the cup terminates in a downwardly depending downcomer which hydraulically feeds the densified, solids and gas reduced slurry to the bottom of the reactor or to filtration.

    摘要翻译: 颗粒状固体和气体从固体催化剂颗粒(气体和液体)的三相烃合成浆液中通过连续地将浆料从淤浆体通过流体连通的固体和气体分离区域而被从气相分离的上游固体分离区域中除去 区。 这是使用浸入浆料中的固体和气体分离降液管来实现的,其中固体在邻近淤浆体的静止区域中脱离,固体还原浆液从该悬浮液通过封闭的杯,气体被分离和除去。 杯的底部终止于向下的降液管,其将致密化的,固体和气体减少的浆液液压地进料到反应器的底部或过滤。

    Subwater Heat Exchanger
    5.
    发明申请
    Subwater Heat Exchanger 审中-公开
    亚水热交换器

    公开(公告)号:US20150354321A1

    公开(公告)日:2015-12-10

    申请号:US14766621

    申请日:2013-09-30

    IPC分类号: E21B36/00 F28D15/00

    摘要: The present disclosure provides a subwater heat exchanger that includes a duct, first coils, a first impeller and a second impeller. The duct is configured to receive a first fluid. The first coils are inside of the duct and are configured to receive a second fluid that is heated or cooled by the first fluid. The first impeller is inside of the duct that is configured to initiate flow of the first fluid around the first coils. The second impeller is inside of the duct and is substantially in line with the first impeller along a duct lateral axis of the duct.

    摘要翻译: 本公开提供了一种次水热交换器,其包括管道,第一线圈,第一叶轮和第二叶轮。 所述管道构造成接收第一流体。 第一线圈位于管道的内部并且被构造成接收由​​第一流体加热或冷却的第二流体。 管道内部的第一叶轮配置成启动第一流体围绕第一线圈的流动。 第二叶轮在管道的内部,并且沿着管道的管道横向轴线基本上与第一叶轮成一直线。