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    • 1. 发明授权
    • Process for reheating and conveying a granular heat carrier
    • 加热和输送颗粒状热载体的方法
    • US4591335A
    • 1986-05-27
    • US530208
    • 1983-09-08
    • Ludwig M. BuxelLudwig MuhlhausUlrich Neumann
    • Ludwig M. BuxelLudwig MuhlhausUlrich Neumann
    • B01D53/08B01J8/38B01J20/34C01B31/08F23L15/00F27B15/00F26B3/08
    • C01B31/087B01J8/388
    • In reheating and conveying a granular heat carrier, such as sand, which is transportable by a gas and is used for desorption by heating a charged lumpy adsorber, such as activated carbon pellets, the sand is passed upwardly in a cylindrically shaped pipe element in the form of a fluidized bed. The sand is heated during its upward passage through the fluidized bed. Air introduced into the lower part of the pipe element is used as the fluidizing medium and also as combustion air. Further, fuel is supplied into the lower part of the pipe element. From the upper end of the pipe element, the heated sand flows downwardly by gravity to a sand separator, where it is separated from flue gas, into a desorber where it is contacted by the absorbent and then into a device for separating the sand and the adsorbent so that the sand can be returned into the lower end of the pipe element.
    • 在重新加热和输送诸如沙子的颗粒状热载体,其可以通过气体运输并且通过加热带电的块状吸附器(例如活性炭颗粒)用于解吸,砂子在圆柱形管状元件中向上通过, 形式的流化床。 沙子在向上通过流化床期间被加热。 引入管元件下部的空气用作流化介质,也用作燃烧空气。 此外,燃料被供应到管道元件的下部。 从管元件的上端开始,加热的沙子通过重力向下流动到与烟道气分离的砂分离器,在其中被吸收剂接触的分离器中,然后进入用于分离砂的装置和 吸附剂,使得砂可以返回到管元件的下端。
    • 4. 发明授权
    • Crossflow heat exchanger
    • 横流换热器
    • US4681157A
    • 1987-07-21
    • US781141
    • 1985-09-27
    • Hans-Dieter SchwarzFriedrich W. PietzarkaWerner LichtenthalerLudwig Muhlhaus
    • Hans-Dieter SchwarzFriedrich W. PietzarkaWerner LichtenthalerLudwig Muhlhaus
    • F28D9/00F28D9/02F28F7/02F28F21/04F28F21/06F28F9/22F28D7/02
    • F28F21/04F28F7/02Y10S165/431
    • A gas-tight crossflow heat exchanger consisting of a metal casing with two gas inlet nozzles and two gas outlet nozzles, at least one installation cover on the top of the casing, a block consisting of a number of ceramic heat-exchange elements mounted completely accurately in cuboid form with gas ducts arranged in layers one above the other and running at right angles to each other, four side surfaces having gas-duct openings, and the bottom and top surfaces being free of openings, the heat exchanger further consisting of thermal insulation between the metal casing and the block of ceramic heat-exchange elements. Gas-tightness is achieved by each heat-exchange element being provided on all four duct-free edges of each side surface with recesses and elevations, with a sealing strip installed between each opposing elevation and recess, each heat-exchange element being provided on the floor and cover surfaces with at least one recess or elevation and of the same shape, and the thermal insulation between the metal casing and the block of ceramic heat-exchange elements enclosing the block providing non-positive structural locking in the direction of the gas inlet and gas outlet nozzles.
    • 由具有两个气体入口喷嘴的金属壳体和两个气体出口喷嘴组成的气密横流热交换器,在壳体顶部上的至少一个安装盖,由多个完全准确安装的陶瓷热交换元件组成的块 在长方体形式中,气体管道彼此层叠并且彼此成直角地延伸,四个侧表面具有气体管道开口,并且底部和顶部表面没有开口,该热交换器还包括隔热层 在金属外壳和陶瓷热交换元件块之间。 通过在每个侧表面的所有四个无管道边缘上提供凹槽和高度,每个热交换元件设置在每个相对的高度和凹部之间的密封条,每个热交换元件设置在 具有至少一个凹槽或高度和相同形状的地板和盖表面,并且金属壳体和封闭块的陶瓷热交换元件块之间的热绝缘在气体入口的方向上提供非正结构锁定 和气体出口喷嘴。