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    • 2. 发明授权
    • Device and method for treating exhaust gas containing soot particles
    • 用于处理含有烟灰颗粒的废气的装置和方法
    • US08747527B2
    • 2014-06-10
    • US13419812
    • 2012-03-14
    • Wolfgang MausPeter HirthRolf Brueck
    • Wolfgang MausPeter HirthRolf Brueck
    • B03C3/013
    • F01N3/01B01D46/0032B03C3/12B03C3/383B03C2201/12B03C2201/30F01N3/0231F01N3/05F01N3/106F01N13/009F01N2240/28
    • A method for converting soot particles of an exhaust gas includes providing at least nitrogen dioxide or oxygen in the exhaust gas, ionizing soot particles with an electric field, depositing electrically charged soot particles on inner channel walls of at least one surface precipitator, and bringing at least nitrogen dioxide or oxygen into contact with the deposited soot particles on the inner channel walls of the at least one surface precipitator. A device for carrying out the method includes at least one surface precipitator having a plurality of channels through which the exhaust gas can flow and extending between an inlet region and an outlet region, and at least one deposit inhibitor for electrically charged soot particles provided in at least part of the inlet region, especially allowing the soot particles to be evenly deposited and the surface precipitator to be continuously regenerated.
    • 用于转换废气的烟灰颗粒的方法包括:在排气中至少提供二氧化氮或氧气,用电场电离煤烟颗粒,在至少一个表面沉淀器的内通道壁上沉积带电烟灰颗粒, 最少的二氧化氮或氧气与所述至少一个表面沉淀器的内部通道壁上沉积的烟灰颗粒接触。 用于执行该方法的装置包括至少一个表面沉降器,其具有多个通道,废气可以通过该通道在入口区域和出口区域之间流动并延伸,并且至少一个沉积抑制剂用于设置在 入口区域的至少一部分,特别是允许烟灰颗粒均匀地沉积并且表面沉淀器被连续地再生。
    • 5. 发明申请
    • Method for Operating a Particle Trap and Device for Carrying Out the Method
    • 操作颗粒捕集阱的方法和执行该方法的装置
    • US20080155967A1
    • 2008-07-03
    • US11963901
    • 2007-12-24
    • Wolfgang MausRolf Bruck
    • Wolfgang MausRolf Bruck
    • F01N3/023F01N9/00
    • F01N3/023F01N9/002F01N2240/20F01N2250/02F01N2330/38F01N2430/08F01N2550/04F02D2200/0812Y02T10/47
    • A method for operating a particle trap, in particular an open particle trap, in an exhaust gas system of an internal combustion engine, includes determining a first point in time in which the particle trap falls below a first effectiveness limiting value, increasing the effectiveness of the particle trap by adjusting at least one specific operating parameter of the internal combustion engine, while exhaust gas produced by the internal combustion engine does not exceed a temperature of 500° C. in the vicinity of the particle trap, determining a second point in time in which the particle trap exceeds a second effectiveness limiting value, and activating normal operation of the internal combustion engine. The method and an associated device ensure operation of an exhaust gas system of an internal combustion engine, with conservation of fuel, savings of materials and simultaneous high effectiveness of the particle trap integrated into the exhaust gas system.
    • 一种用于在内燃机的排气系统中操作颗粒捕集器,特别是开放颗粒捕集器的方法,包括确定颗粒捕集器在第一有效极限值以下的第一时间点,从而提高效率 通过调节内燃机的至少一个特定的操作参数,在内燃机产生的废气在颗粒捕集器附近不超过500℃的温度,确定第二时间点 其中所述颗粒捕集器超过第二有效性限制值,并且启动所述内燃机的正常操作。 该方法和相关设备确保内燃机的排气系统的运行,具有节省燃料,节省材料并同时具有集成在废气系统中的颗粒捕集器的高效能。
    • 7. 发明授权
    • Catalyst carrier body with sleeve and shortened tubular jacket and catalytic converter having the catalyst carrier body
    • 具有套筒的催化剂载体和缩短的管状夹套以及具有催化剂载体的催化转化器
    • US07241427B2
    • 2007-07-10
    • US10234548
    • 2002-09-04
    • Thomas NagelHans-Günter FaustLudwig WieresWolfgang Maus
    • Thomas NagelHans-Günter FaustLudwig WieresWolfgang Maus
    • B01D50/00
    • F01N3/2842F01N3/2821F01N2260/10F01N2450/02F01N2450/22Y02A50/2322
    • A catalyst carrier body includes a honeycomb body having sheet-metal layers and an axial extent. The sheet-metal layers are at least partly structured in such a way that the honeycomb body has passages through which an exhaust gas can flow. The sheet-metal layers of the honeycomb body have end regions lying radially outwardly. A tubular jacket has an edge and an axial span shorter than the axial extent of the honeycomb body. The tubular jacket is connected to the honeycomb body in at least one axial partial-region by a joining technique. A sleeve has an axial length shorter than the axial extent of the honeycomb body and is disposed on an outer region of the honeycomb body, in the vicinity of an end surface. The sleeve has an inner shell surface connected by a joining technique to the end regions of the sheet-metal layers at the end surfaces. The honeycomb body projects beyond an edge of the tubular jacket in a projecting section surrounded by the sleeve. In this way, stresses between the honeycomb body and the tubular jacket are avoided even with high thermal loads on the catalyst carrier body. A catalytic converter having the catalyst carrier body is also provided.
    • 催化剂载体主体包括具有片状金属层和轴向范围的蜂窝体。 至少部分地将片状金属层构造成使得蜂窝体具有排气可以流过的通路。 蜂窝体的片金属层具有径向向外的端部区域。 管状护套具有比蜂窝体的轴向长度短的边缘和轴向跨度。 管状护套通过接合技术在至少一个轴向部分区域中连接到蜂窝体。 套筒具有比蜂窝体的轴向长度短的轴向长度,并且在端面附近设置在蜂窝体的外部区域。 套筒具有通过接合技术连接到端面处的金属板层的端部区域的内壳表面。 蜂窝体在由套管包围的突出部分中突出超过管状护套的边缘。 以这种方式,即使在催化剂载体主体上具有高的热负载,也避免了蜂窝体和管状护套之间的应力。 还提供了具有催化剂载体的催化转化器。
    • 8. 发明授权
    • Exhaust gas system with at least one guide surface and method for applying exhaust gas flows to a honeycomb body
    • 具有至少一个引导表面的废气系统和用于将废气流施加到蜂窝体的方法
    • US06487854B2
    • 2002-12-03
    • US09925172
    • 2001-08-08
    • Wolfgang Maus
    • Wolfgang Maus
    • F01N700
    • F01N13/10F01N3/2892
    • An exhaust gas system includes a collector for joining exhaust gas flows from two or more cylinders of a combustion engine. The collector has an outlet cross-section behind which a tubular jacket is disposed. A honeycomb body is disposed in the tubular jacket. A space through which a flow is to take place is defined between the outlet cross-section and the honeycomb body. At least one guide surface is disposed in the space for diverting at least a part of the exhaust gas flows. A method is provided for applying exhaust gas flows to a honeycomb body. The flows arrive at the honeycomb body at least partly from different directions. The exhaust gas flows are diverted by at least a first guide surface, before they impinge upon the honeycomb body, in such a way that they flow in a direction at least partly opposite to that of the exhaust gas flows, and their incidence upon the honeycomb body is thus delayed.
    • 排气系统包括用于接收来自内燃机的两个或更多个气缸的废气流的收集器。 收集器具有出口横截面,在其后面设置管状护套。 蜂窝体设置在管状护套中。 在出口横截面和蜂窝体之间限定要流动的空间。 至少一个引导表面设置在该空间中用于使排气流的至少一部分转向。 提供了将废气流施加到蜂窝体的方法。 流动至少部分地从不同的方向到达蜂窝体。 废气流在至少第一引导表面撞击蜂窝体之前被转向至少一个第一引导表面,使得它们沿与废气流的至少一部分相反的方向流动,并且它们在蜂窝体上的入射 身体因此被推迟。
    • 9. 发明授权
    • Metal foil with through openings and honeycomb body
    • 金属箔带通孔和蜂窝体
    • US06316121B1
    • 2001-11-13
    • US09592299
    • 2000-06-12
    • Wolfgang Maus
    • Wolfgang Maus
    • B32B328
    • F01N3/2821B01J35/04F01N2330/321F01N2330/38Y10T428/1234Y10T428/12361Y10T428/1241
    • A metal foil includes at least two intersecting structures, which are spaced from an imaginary reference surface and which define an intersection region. The at least two intersecting structures partially superpose one another in the intersection region and are formed with at least one through opening in the intersection region. A honeycomb body includes at least one flat construction formed with channels, which define a flow direction for a fluid to flow through the channels. The at least one flat construction has at least two intersecting structures, which are spaced from an imaginary reference surface and which define an intersection region. The at least two intersecting structures partially superpose one another in the intersection region and have at least one through opening in the intersection region.
    • 金属箔包括与虚拟参考表面间隔开并且限定交叉区域的至少两个相交结构。 所述至少两个交叉结构在所述交叉区域中部分地彼此重叠,并且在所述交叉区域中形成有至少一个通孔。 蜂窝体包括形成有通道的至少一个平面结构,其限定流体流过通道的流动方向。 所述至少一个平坦结构具有至少两个相交结构,其与虚拟参考表面间隔开并且限定交叉区域。 所述至少两个交叉结构在所述交叉区域中部分地彼此重叠,并且在所述交叉区域中具有至少一个通孔。
    • 10. 发明授权
    • Process for the production of a honeycomb body formed of sheet metal layers of at least partly laminated structure
    • 用于生产由至少部分层压结构的金属板形成的蜂窝体的方法
    • US06224691B1
    • 2001-05-01
    • US09028232
    • 1998-02-23
    • Wolfgang MausLudwig Wieres
    • Wolfgang MausLudwig Wieres
    • F01N328
    • B01J35/04B01J37/0225F01N3/281F01N3/2821F01N2330/04
    • A honeycomb body is produced in which metal sheets are stacked and/or wound in a layered configuration. The metal sheets are suitably structured so as to form passages through which a fluid can flow. At least a part of the sheet layers initially comprises a laminate material with a layer of chromium-containing steel and a layer primarily formed of aluminum. The laminate is substantially homogenized by diffusion to a stratified sheet in a subsequent heat treatment. The honeycomb body is assembled with at least a part of the sheet layers provided a structure which increases the degree of elasticity of the honeycomb body and/or the pressure in relation to surface area of the contact locations prior to and in the heat treatment. The honeycomb body is fitted into a tubular casing with such a prestressing that in the heat treatment the contact locations between the sheet layers remain in contact.
    • 制造以层叠构造层叠和/或卷绕金属板的蜂窝体。 金属片适当地构造成形成流体可以流过的通道。 片层的至少一部分最初包括具有含铬钢层和主要由铝形成的层的层压材料。 在随后的热处理中,层压体通过扩散基本均匀化成分层片材。 蜂窝体组装有至少一部分片层,其提供了增加蜂窝体的弹性程度和/或相对于热处理之前和之后的接触位置的表面积的压力的结构。 蜂窝体被装配到具有预应力的管状壳体中,在热处理中,片层之间的接触位置保持接触。