• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Catalyst module (1) with internals of catalyst elements (2), wherein the inflow surface of the individual catalyst elements is greater than the flow inlet surface of the catalyst module, wherein the module inlet surface of the main flow direction (S) facing surface of the module side is defined, and wherein the catalyst elements so positioned in the catalyst module are that they are flowed through by the direction of the inlet-side and / or the outlet-side flow direction deviating from the flue gas.
    公开号:AT514228A1
    申请号:T306/2013
    申请日:2013-04-15
    公开日:2014-11-15
    发明作者:
    申请人:Ibiden Porzellanfabrik Frauenthal Gmbh;
    IPC主号:
    专利说明:

    EUROPEAN PATENT AND TRADEMARK ATTORNEYS A-1200 VIENNA, BRIGITTTNAUER l-ÄNDfc 50
    DIPL. ING. WALTER WOODEN DIPL. ING. DR. 1ECHN. ELISABETH SCHOBER
    PHONE: (+43 1) 532 41 30-0 TELEFAX: (+431) 532 41 31 E MAIL: MÄIL@PATENT.ÄT
    The invention relates to a catalyst module with internals of catalyst elements,
    PRIOR ART SCR catalysts represent the state of the art for denitrification of flue gases. This makes a substantial contribution to the reduction of ground-level ozone, acid rain and the greenhouse effect. This technology is used in thermal power plants and waste incineration plants as well as in internal combustion engines and many .Industrie! 1 Series. Areas.
    In addition to the reduction of nitrogen oxides, catalysts are also used, for example, for the degradation of dioxins and furans / which has become established as the technical standard in particular in waste incineration plants.
    Catalyst elements are offered, for example, in the form of homogeneously extruded honeycomb bodies or in the form of carrier materials whose surface is provided with a catalytic layer and which are called plate catalysts. Further embodiments are, for example, catalysts in pellet form :, zeolite catalysts in which the active layer on a ceramic carrier by means of Washcoat- 2/13 · '2
    - Φ Φ Φ Φ Φ φ Μ * Φ Φ Φ Φ Φ: Φ ΦΦΦ
    Φ Φ
    Process is applied, as well as wavy plates running catalysts.
    For installation in SCR reactors, the individual catalyst elements are packed in parallelepipedic catalyst modules (for example steel modules), which in combination are referred to as catalyst layers. Seals are provided between the individual catalyst modules as well as between the catalyst modules and the wall of the reactor housing accommodating the modules in order to force the flue gas flow through the caustic elements.
    A key performance parameter is the pressure loss associated with the incorporation of the catalyst elements into the catalyst module. ES seeks to minimize this undesirable pressure loss. The pressure loss is influenced, among other things, by the choice of the geometry of the catalyst elements. The choice of geometry, however, set production-related and process-related limits. The size of the SCR reactor also directly affects the pressure loss. There are limits to the freedom of design: on the one hand by on-site restrictions, in particular with later retrofitted SCR reactors, and on the other hand by economic considerations. 3/13 3
    • · · * ··· ·· ·· »
    Object of the invention
    The object of the invention is to provide catalyst modules with the largest possible catalytically active surface area for a given limited reactor cross section while simultaneously minimizing the pressure loss caused by the catalyst elements. This object is achieved in that the Anströmflache the individual catalyst elements: greater than the. Stromuhgseintrittsf surface of the catalyst module is, wherein the module inlet surface of the main flow direction facing surface of the module side is defined and wherein the Katalysatoreiemente be positioned in the Katalysatormo-dül such that they are from the direction of the inlet side and / or the outlet-side flow direction deviating from the Raughgas: flows through ,
    The provision of the required catalyst surface and the associated Katai ysatorvolumens is thus achieved by the inventive arrangement of the Katalysatoreiemente within the catalyst modules, which brings an increase in the depth of the catalyst modules with it. The cross section of the SCR reactor remains unchanged.
    According to an alternative embodiment, catalyst elements are also preferably provided, which are flowed through in parallel to the orientation of the inlet-side and / or the outlet-side flow direction of the flue gas. 4/13 • · 4 • · 4 ··: • ···············································································
    Preferably, at least one flue gas duct is arranged on the inlet side of the catalyst module, which leads the flue gas into the catalyst module 1, wherein the module side facing the main flow direction is defined as the inlet side of the catalyst module.
    According to a further feature of the invention, at least one flue gas duct is arranged on the outlet side of the catalyst module, which duct leads the flue gas out of the catalyst module, wherein the module side facing away from the main flow direction is defined as the outlet side of the catalyst module.
    The invention will be explained in more detail below with reference to the drawing, which shows a section through a catalyst module according to the invention.
    The per se conventional construction of a catalytic converter module 1 is determined by the fact that the flue gas flow S within the catalytic converter module 1 is deflected from the inlet side 1 'of the catalyst module 1 through the channels 3, 4 of the catalyst elements 2 to the outlet side 1 " of Kataiysatormoduls 1 flows.
    In the structure according to the invention of the catalyzer module 1, which is designed essentially as a closed parallelepipedic body with rectangular side surfaces, the catalyst elements 2 deviating from the previous practice with respect to the inlet side 1 'and / or the outlet side 1 " or the St roman direction in the catalyst module 1 repositioned. The Duroh 5/13 ·······················································. * · · · · · · · · · · · · · · · · · · · · · · · · · ·····
    Flow of the Kabadysatbrelemente 2 thus takes place in a respect to the inlet side and / or the outlet-side flow direction deviating direction., For example, offset by 90 ° · By this particular arrangement of the catalyst elements: 2 within the Katalysatöfmoduls 1 there is the possibility, the existing cross section of To use reactor plant in the depth. This achieves almost any scalability.
    The flue gas is passed from the inlet side 1 'of the catalyst module 1 via a plurality of openings and a plurality of channels 3 to the catalyst elements 2. The Kata Lysatorelemente 2 are arranged so that they are offset from the main flow direction S of the flue gas at the module inlet side 1 'offset by 900. At the exit side of each catalysis :; orelementes 2 opens the flue gas back into a channel 4, through which the flue gas te to the Austrittssei 1 " the catalyst module 1 is passed.
    The channels 3, 4 are either to the inlet side 1 'or the outlet side 1 " of the catalyst module 1, so that the flue gas Ström S is forced through the Kata.l ysatorelemente 2. The channels 3, 4 may optionally have a constant, a decreasing or a widening cross-sectional profile, as in the example shown. The channels 3, 4 can also be made optimized by strömur.gverbessernde fittings with respect to the flow conditions. 6.13
    • · ···· «··· • · • · β
    In contrast, in the conventional design of the catalyst modules 1, the supply of the flue gas stream S in the catalyst elements 2 directly to the inlet side 1 'of the catalyst module 1, because the catalyst elements 2 are usually arranged directly on the inlet side 1' of the catalyst modules 1. In some embodiments, for example, statically relevant struts, load attachment points, walk-on gratings or the like are more attached between the inlet side 1 'of the catalyst module 1 and the entry into the catalyst elements 2, resulting in a corresponding distance between the inlet side 1' of the catalyst module 1 and the entry into can lead the catalyst elements 2.
    The above-described subject matter of the invention can be used, for example, for: »reducing the catalyst-induced pressure loss while maintaining the reactor cross-section. • Reduction of the catalyst-related pressure loss with simultaneously reduced reactor cross section. * * Maintenance of the catalyst-related pressure loss with reduced reactor cross-section.
    It is understood that the embodiment described above within the scope of the inventive concept can be variously modified, in particular as regards the position of the catalyst elements in the catalyst module. 7.13
    权利要求:
    Claims (4)
    [1]
    1. A catalyst module with built-in components of catalyst elements, which is incorporated herein by reference. characterized in that the inflow area of the individual catalyst belt lee (2) is greater than the flow inlet area of the catalyst module (1), wherein the module inlet surface is the main flow direction (S) facing surface of the module side is defined, and wherein the KaLalysa gate elements (2) in the catalyst module (1) are positioned so that they are flowed through by the direction of the inlet-side and / or the outlet-side flow direction deviating from the flue gas.
    [2]
    2. Catalyst module, characterized in that preferably also catalyst elements (2) are provided, we.lche be traversed parallel to the orientation of the inlet side and / or the outlet-side flow direction of the flue gas.
    [3]
    3. Katalysaiorittodul according to claim 1 or 2, characterized in that at the inlet side (1 ') of the catalyst module (1) at least one flue gas channel (3) is arranged, which leads the flue gas in the catalyst module (1), wherein ej ntrittsseite ( 1 ') of the catalyst module (1) di e of the main flow direction (S) facing module side is defined. 8/13 > It is one of claims 1 to 3, the outlet side (1 ") of the Ka-a flue gas duct (4 ") ) angeord-the catalyst module (1), the catalyst module (1) defines the: remote module side
    [4]
    4. Catalyst module according to, characterized in that on the catalyst module (1) is at least net, which is the flue gas from as the exit side (1 ") of the Hauptströffiungsrichtung (S). 9/13
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    同族专利:
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    WO2014169307A1|2014-10-23|
    US20160061082A1|2016-03-03|
    AT514228B1|2015-02-15|
    EP2986358A1|2016-02-24|
    CN105339073A|2016-02-17|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US5470364A|1992-01-07|1995-11-28|Pall Corporation|Regenerable diesel exhaust filter|
    WO1998056503A1|1997-06-09|1998-12-17|Emitec Gesellschaft Für Emissionstechnologie Mbh|Metallic catalyst support for purifying an exhaust gas current, especially of a small engine|
    CZ289693B6|1994-04-11|2002-03-13|Scambia Industrial Developments|Catalyst for catalytic treatment of exhaust gas|
    EP0724474A4|1994-08-18|1997-01-15|Precision Combustion Inc|Catalytic method|
    EP0775808B1|1995-11-23|2001-08-16|Scambia Industrial Developments Aktiengesellschaft|Process for manufacturing the body of a catalyst for the catalytic treatment of gases, catalytic body and catalyst|
    DE20006032U1|2000-03-31|2000-06-29|Bayerische Motoren Werke Ag|Emission control device|
    US6821490B2|2001-02-26|2004-11-23|Abb Lummus Global Inc.|Parallel flow gas phase reactor and method for reducing the nitrogen oxide content of a gas|
    WO2003072915A1|2002-02-28|2003-09-04|Csir|Treatment of exhaust gases from an internal combustion engine|
    US8609030B2|2011-03-04|2013-12-17|Tenneco Automotive Operating Company Inc.|Exhaust aftertreatment device with integrated shell and baffle|
    US20120285144A1|2011-05-13|2012-11-15|GM Global Technology Operations LLC|Exhaust after treatment system and method for treating exhaust|
    EP2527610B1|2011-05-27|2015-03-18|Caterpillar Motoren GmbH & Co. KG|SCR catalyst section and turbocharged engine therewith|CN105257375A|2015-10-08|2016-01-20|南京依柯卡特汽车催化器有限公司|Wall-flow type catalytic converter based on multiple layers|
    CN110339714A|2019-08-26|2019-10-18|高化学(江苏)化工新材料有限责任公司|A kind of flue gas denitration catalyst reactor|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    ATA306/2013A|AT514228B1|2013-04-15|2013-04-15|catalyst module|ATA306/2013A| AT514228B1|2013-04-15|2013-04-15|catalyst module|
    CN201480033699.XA| CN105339073A|2013-04-15|2014-04-14|Catalyst module with catalyst elements|
    KR1020157032669A| KR20160057353A|2013-04-15|2014-04-14|Catalyst module with catalyst elements|
    PCT/AT2014/000077| WO2014169307A1|2013-04-15|2014-04-14|Catalyst module with catalyst elements|
    EP14723668.1A| EP2986358A1|2013-04-15|2014-04-14|Catalyst module with catalyst elements|
    US14/784,762| US20160061082A1|2013-04-15|2014-04-14|Catalyst module with catalyst elements|
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