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    • 4. 发明授权
    • Method and apparatus for regenerating absorption particles
    • 用于再生吸收颗粒的方法和装置
    • US4017422A
    • 1977-04-12
    • US657406
    • 1976-02-12
    • Gunther GappaHarald JuntgenJurgen Klein
    • Gunther GappaHarald JuntgenJurgen Klein
    • B01J8/36B01J20/34C01B31/08B01D53/34B01D15/06
    • B01J8/36B01J20/20B01J20/3416B01J20/3458B01J20/3483C01B31/088B01J2220/56
    • A housing has a foraminous floor adapted to support a bed of adsorption particles. A plurality of baffles spaced above this floor subdivide the bed into a plurality of compartments. Impurity-carrying particles are fed to the compartment at one end of the elongated chamber and the particles overflow a weir at the compartment at the other end of the chamber. A hot gas is passed up through the bed in all of the chambers to deadsorb the particles and the baffles are spaced so that in the direction of flow each baffle projects more deeply into the bed to flow the flow toward the outlet end. A gas above the furthest upstream compartment is collected and condensed to recover useful constituents, and the gas from the other compartments is burned. It is possible to provide an upstream and a downstream compartment at an upper level and below them several downstream compartments, with the gas from the downstream compartments flowing up through the two upper compartments. The chamber has a length equal to at least twice its width and preferably equal to approximately the same multiple of its width as number of compartments it is divided into.
    • 壳体具有适于支撑吸附颗粒床的多孔地板。 在该地板之间间隔开的多个挡板将床分成多个隔间。 杂质携带颗粒在细长室的一端被供给到隔室,并且颗粒在室的另一端处的隔室溢出堰。 热气体在所有室中通过床,以阻止颗粒并且隔板间隔开,使得在流动方向上,每个挡板更深地突入床中以使流动朝向出口端流动。 收集并浓缩最上游隔室上方的气体以回收有用的成分,并且来自其他隔室的气体被燃烧。 可以在上一级和下游隔室设置上游和下游隔室,其中下游隔室中的气体向上流过两个上隔室。 腔室的长度至少等于其宽度的两倍,并且优选地等于其宽度与其被分成的间隔的数量的大致相同的倍数。
    • 5. 发明授权
    • Method of regenerating particulate adsorption agents
    • 再生颗粒吸附剂的方法
    • US4058374A
    • 1977-11-15
    • US694521
    • 1976-06-10
    • Harald JuntgenJurgen KleinGunther Gappa
    • Harald JuntgenJurgen KleinGunther Gappa
    • B01J8/36B01J20/34C01B31/08C02F1/28B01D53/08B01D53/12
    • C01B31/088B01J20/08B01J20/20B01J20/3416B01J20/3433B01J20/3458B01J8/36C02F1/28B01J2220/56
    • An apparatus for performing the method of the invention for the thermal regeneration of contaminated particulate adsorption agents in a fluidized state includes a regeneration chamber which has separate first and second zones for the thermal treatment of the adsorption agents in a fluidized state. A first inlet is provided for admitting contaminated adsorption agents into the first zone and a separate second inlet is provided for admitting contaminated adsorption agents into the second zone. A first outlet is provided for removing regenerated adsorption agents from the first zone whereas a separate second outlet is provided for removing regenerated adsorption agents from the second zone. Means for fluidizing and thermally treating the contaminated adsorption agents so as to regenerate the same includes a combustion chamber arranged to supply hot fluidizing gases to both of the treatment zones. A gas outlet in the regeneration chamber serves to exhaust the fluidizing gases from both of the treatment zones.
    • 用于进行流化状态的污染颗粒吸附剂的热再生的本发明方法的装置包括具有分离的第一和第二区的再生室,用于在流化状态下热处理吸附剂。 提供第一入口用于将污染的吸附剂引入第一区域,并且提供单独的第二入口用于将污染的吸附剂引入第二区域。 提供第一出口用于从第一区域除去再生的吸附剂,而提供单独的第二出口用于从第二区域除去再生的吸附剂。 用于流化和热处理污染的吸附剂以再生污染的吸附剂的装置包括布置成向两个处理区域供应热流化气体的燃烧室。 再生室中的气体出口用于从两个处理区域排出流化气体。
    • 7. 发明授权
    • Process for the purification of waste waters with activated carbon
    • 用活性炭净化废水的方法
    • US4007116A
    • 1977-02-08
    • US598385
    • 1975-07-23
    • Gunther GappaHarald JuntgenJurgen KleinJurgen Reichenberger
    • Gunther GappaHarald JuntgenJurgen KleinJurgen Reichenberger
    • B01D15/00C01B31/08C02F1/28
    • C02F1/283C01B31/087
    • A process for the purification of waste water containing dissolved organic carbon contaminants which comprisesA. passing the waste water upwardly through a column of activated carbon particles,B. determining the total organic carbon content of the water before it enters the column and simultaneously at a location that is between 30 and 70% of the total height of the carbon particles in the column,C. continuously withdrawing the spent carbon particles from the bottom of the column at such a rate as to maintain an essentially constant preselected difference between the total organic carbon content of the water as it enters the column and at the preselected location that is between 30 and 70% of the height of the carbon particles in the column,D. continuously introducing fresh activated carbon particles or reactivated carbon particles at the top of the column at such a rate as to compensate for those withdrawn at the bottom of the column, andE. removing the purified water at the top of the column.
    • 一种净化含有溶解的有机碳污染物的废水的方法,其中包括A.通过活性碳颗粒柱进入废水,B.确定水的总有机碳含量,在进入柱之前和同时进行 位置在柱子内的碳颗粒的总高度的30%至70%之间,C.连续地从柱的底部以这样的速率取出空气中的碳粒子,以维持总有机物之间的基本恒定的差异 水的碳含量,因为它进入柱和在预定位置之间的碳含量在30和70%之间的碳颗粒的高度,D.连续地引入新鲜的活性碳颗粒或反应的碳颗粒在顶部 在这样一个等级的柱子,以补偿在塔的底部,和E.删除净化的水在顶部 的柱子
    • 9. 发明授权
    • Method and apparatus for thermal treatment, especially drying, of finely
comminuted bulk material
    • 用于热处理,特别是干燥的细粉碎散装材料的方法和装置
    • US4439932A
    • 1984-04-03
    • US479110
    • 1983-03-28
    • Gunther GappaJosef DegelHarald Juntgen
    • Gunther GappaJosef DegelHarald Juntgen
    • B01J8/38F26B3/00F26B3/084F26B3/092F26B11/14F26B25/04F26B17/10
    • F26B3/084F26B25/04F26B3/00F26B3/092
    • A method for thermal treatment, especially drying, of finely particulated bulk material comprises the steps of stirring the material in a reactor by means of a rotating stirrer while simultaneously discharging a heated gas under pressure through openings in a hollow arm of the stirrer so as to form in the reactor a whirling fluidized bed from the material, and introducing the necessary amount of heat for the thermal treatment of the material at least in part through a heat exchanger extending into the whirling fluidized bed. The apparatus for carrying out the method mainly comprises an arrangement for feeding the material through an inlet into a reactor forming a whirling chamber in which a rotating stirring device is arranged having at least one hollow stirring arm provided with openings through which a preferably heated gas under pressure is discharged into the material so as to form a whirling fluidized bed in the reactor, a heat exchanger extending through the fluidized bed, and an outlet for discharging the gas and treated material from the reactor. The reactor may also include an arrangement extending into the whirling fluidized bed for retarding flow of the material from the inlet to the outlet of the reactor, which arrangement may be constituted by a heat exchanger of lamellar construction so that the material will pass in cascades through the reactor.
    • 用于热处理,特别是干燥的细颗粒体积材料的方法包括以下步骤:通过旋转搅拌器在反应器中搅拌材料,同时通过搅拌器的空心臂中的开口在压力下排出加热气体,从而 在反应器中形成来自材料的旋转流化床,并且通过延伸到旋转流化床的热交换器至少部分地引入必要量的热量用于材料的热处理。 用于执行该方法的装置主要包括一种用于将材料通过入口供入到形成旋转室的反应器的装置,其中设置有旋转的搅拌装置,其具有设置有开口的至少一个中空搅拌臂,通过该开口, 压力被排出到材料中,以便在反应器中形成旋转流化床,延伸穿过流化床的热交换器和用于从反应器排出气体和处理材料的出口。 反应器还可以包括延伸到旋转流化床中的装置,用于阻止材料从反应器的入口到出口的流动,该布置可以由层状结构的热交换器构成,使得材料级联通过 反应堆。