DE202008003660U1 - Exhaust gas catalyst - Google Patents

Abstract

Exhaust gas catalyst with a ceramic shaped body, in which of channel walls limited, open at their ends flow channels formed for the exhaust gas and the channel walls at least are provided in regions with a catalytically active substance, characterized in that at least some of the flow channels on at least part of its channel walls with turbulence in the exhaust gas flow generating Strömungsstörelementen are provided.

Description

The invention relates to an exhaust gas catalyst for internal combustion engines, in particular for diesel reciprocating engines, with a ceramic molded body in which limited by channel walls, open at their inflow and outflow open flow channels for the exhaust gas and the channel walls at least partially provided with a catalytically active substance are. The latter is used in a diesel engine mainly the conversion of unburned hydrocarbons in CO ₂ and H ₂ O, but if necessary, one also uses several catalytically active substances to convert nitrogen oxides and carbon monoxide into CO ₂ and nitrogen.

at known exhaust gas catalysts of the aforementioned Art has the ceramic molding for the exhaust gases from the combustion process, the straight along the entire molded body rectilinear run and have a constant channel cross-section. To a sufficient To achieve exhaust gas purification, the known exhaust gas catalysts must a considerable minimum length (in the longitudinal direction the flow channels) to ensure that in each operating state of the engine at least almost all in the exhaust gas contained pollutant molecules in contact with the catalytic effective substance come. A reduction of the overall length Although the exhaust catalyst can be basically through the use of flow channels with Smaller channel cross section, through smaller channel cross sections However, the flow resistance of the exhaust catalyst and thereby increases the gas pressure against which the combustion gases out of the engine, which is negative among other things affects fuel economy.

task The present invention is the efficiency of an exhaust gas catalyst to improve the type mentioned.

Of the basic solution idea according to the invention is the exhaust gas flow passages of the ceramic shaped body with turbulence-generating structures to provide, in the through-flow channels flowing through Exhaust gas flows induce turbulence, due which in comparison to a laminar exhaust gas flow in the flow channels the frequency the contact of the pollutant molecules contained in the exhaust gases is significantly increased with the catalytically active substance. An exhaust gas catalyst of the type mentioned becomes too designed according to the invention so that at least some of the flow channels at least a part of their channel walls with turbulence in the exhaust gas streams generating flow disturbing elements are provided.

The Invention brings in comparison with a substantially laminar flowed through the exhaust catalyst of the aforementioned Type the following advantages: The longitudinal the passageways measured length of the ceramic molding can be reduced, so that results in a more compact exhaust gas catalyst; the ceramic one Shaped body of such exhaust catalyst is consequently heated up faster by the exhaust gases when the engine starts cold, which in itself leads to a better pollutant reduction, since Pollutant cleaning after commissioning of a cold engine faster use; the generation of turbulence in the flow channels allows larger channel cross-sections, thereby the caused by the exhaust catalyst pressure loss in the engine exhaust system is reduced; because of the more compact shape of the exhaust gas catalyst are also lower amounts of expensive catalytic substances required; Finally, the turbulence generating Flow disruptors according to the invention be readily designed so that the from the flow channels emerging exhaust gas flows directed in a defined direction can be.

precautionary it should be noted that, unlike a diesel particulate filter (Soot filter) with a ceramic molding, in an exhaust gas catalyst, the channel walls of the ceramic molding are not porous or at least not porous have to.

at the invention to be provided Strömungsstörelementen it can basically be any kind of macroscopic Unevenness of the channel walls of the flow channels act, so for example, wells in the channel wall surfaces; because the wall thicknesses of the channel walls, d. H. the the Throughflow of the ceramic molding separating walls, however, is small and in particular In the range between about 0.15 to 0.35 mm are embodiments preferred in which the channel walls through the Strömungsstörelemente not weakened, but the latter in the flow channels to jump in. In this connection it should be noted that the above-mentioned depressions and projections of course not in the longitudinal direction of the flow channels allowed to run, but transversely or at least obliquely have to run to the longitudinal direction of the exhaust gas streams, otherwise they will not create any turbulence in the exhaust gas streams.

In principle, the flow-disturbing elements designed as projections could be parts produced as separate elements which are then mounted in the flow-through channels. For manufacturing reasons, however, embodiments are preferred in which the Flow disturbing elements are formed as integral with the channel walls ceramic elements, that are already formed in the manufacture of the ceramic molding together with the channel walls. A method which allows this cost, will be described below.

At the Most efficient are embodiments in which the flow disturbing elements designed as the cross-section of a flow-restricting ribs are, which are preferably short, transverse to the longitudinal direction the respective flow passage extending rib segments is; but a flow disturbing element could also have the form of a diaphragm, d. H. one transverse to the longitudinal direction a flow-through extending wall with a flow-through for the exhaust.

A particularly efficient use of the catalytically active substance arises when the flow disturbing elements in the channel longitudinal direction offset from each other at each other arranged opposite channel longitudinal sides are, then then the main flow of the exhaust gas through a flow passage not parallel to the channel longitudinal axis is, but along a flow channel a wave-like main flow course results (one sees from the turbulence generated in the exhaust stream).

Instead of as flow disturbing elements depressions or projections to provide (or in addition to such interfering elements), You can also see the course of each flow channel change abruptly in several places; drawing such embodiments characterized by the fact that the flow channels for Formation of the flow disturbing elements are graded - each Stage then leads to the generation of turbulence.

at preferred embodiments of the invention Exhaust gas catalyst are all flow channels designed in the same way and with flow disturbing elements provided so that all flow channels the same Have flow resistance and lead to the same pressure loss.

at known exhaust gas catalysts of the type mentioned with the ceramic shaped body traversing straight Throughflow with the same everywhere Cross section is the shaped body usually from a solidified by drying and sintering ceramic Mass produced by extrusion or continuous casting. However, such a manufacturing method does not naturally permit Flow disturbing elements according to the invention as to form one-piece ceramic elements with the channel walls, what a cost-effective production desirable is.

• (a) Erzeugung einer einem Querschnitt des Formkörpers entsprechend gestalteten Schicht aus einer formbaren, verfestigbaren keramischen Masse und
• (b) Verfestigung dieser Schicht,

worauf der so erzeugte Rohling gesintert wird.Therefore, according to the present invention, a method for producing an exhaust gas catalyst according to the invention is proposed, in which a sintered blank of the shaped body is built up in layers, in the longitudinal direction of the flow channels transverse layers, which are not all the same, since a part of these layers participates in the formation of Strömungsstörelemente. Such a method is characterized by the fact that a blank of the shaped body is constructed by successive layers in the channel longitudinal direction by repeated succession of the following steps:

• (A) production of a cross section of the shaped body according to the designed layer of a moldable, solidifiable ceramic mass and
• (b) solidification of this layer,

whereupon the blank thus produced is sintered.

Especially simply such layers, and also layers can be because of the Strömungsstörelemente different Shape, screen-printed. The easiest way the solidification of a previously prepared layer by drying, wherein the layer only has to be solidified to the extent that it when applying the next layer her shape is not more changes. After the generation of all layers and the Solidification of the last applied layer is the blank then sintered.

formable ceramic compositions used in solidification and sintering of the blank at least not change their dimensions significantly, are available in the market.

Such a production method for ceramic shaped bodies, which are provided with catalytically active substances, results from the EP-0 627 983-B1 However, this document only concerns the production of porous shaped bodies for ceramic filters.

Further Features, details and advantages of the invention will become apparent the attached schematic representation of two preferred Embodiments of the invention Exhaust gas catalyst and the following description of these embodiments; in the drawing show:

1 a longitudinal section through the ceramic molded body of the first embodiment, namely a section parallel to the longitudinal direction of the flow-through of the molding, and

2 a corresponding Schnittdarstel ment of the second embodiment.

The in 1 as a whole with 10 designated ceramic molded body has a plurality of exhaust gas flow passages 12 , which, as indicated by arrows, according to 1 flows through from left to right and through channel walls 14 be formed and separated from each other. In cross-section perpendicular to the flow direction, the flow channels can in principle have any desired cross section, but preferably the cross section is square, rectangular or circular.

According to the invention to the channel walls 14 Strömungsstörelemente 16 formed, the shape of the in the flow channels 12 have in projecting ribs and in each flow channel 12 offset in channel longitudinal direction against each other are arranged on opposite channel longitudinal sides, as the 1 shows. In this way, resulting in the flow channels 12 not only turbulence, but also a wavy main flow path, as indicated by arrows.

Along the flow channels 12 are the canal walls 14 , but also the flow disturbing elements 16 provided with a catalytically active layer through which the exhaust gases are catalytically purified.

Typically, with flow channels 12 with a circular cross section, the channel diameter is about 1.5 mm or less, and the flow disturbing elements 16 surmount the canal walls 14 maximum up to half of the channel cross-section. The wall thickness of the canal walls 14 is preferably in the range between about 0.15 mm and about 0.35 mm and is in particular about 0.25 mm. The in the longitudinal direction of the flow channels 12 measured thickness of Strömungsstörelemente 16 is preferably about 0.25 mm.

If the blank to be sintered of the ceramic molding 10 As described above, in layers, the layers typically have a thickness of about 40 μm

In the 2 illustrated second embodiment will be described below only insofar as they are of the first embodiment according to 1 deviates, and for corresponding elements were in 2 the same reference numerals as in 1 used, but with the addition of a dash.

At the in 2 illustrated embodiment are as flow disturbing both rib or diaphragm-like Strömungsstörelemente 16 ' provided as well as stages in the course of the flow channels 12 ' , and these stages were with 16a ' designates - actually it concerns stages of the channel walls 14 ' , however, to a gradation of the flow channels 12 ' lead in the longitudinal direction. With sufficient number or density of stages 16a ' can the rib or diaphragm-like Strömungsstörelemente 16 ' also omitted.

QUOTES INCLUDE IN THE DESCRIPTION

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Cited patent literature

• EP 0-627983 B1 [0017]

Claims (8)

Exhaust gas catalyst having a ceramic molded body in which limited by channel walls, open at their ends flow channels for the exhaust gas and the channel walls at least partially provided with a catalytically active substance, characterized in that at least some of the flow channels on at least a portion of their channel walls provided with turbulence in the exhaust gas flow generating Strömungsstörelementen. Exhaust gas catalyst according to claim 1, characterized by in the flow channels projecting flow disturbing elements. Exhaust gas catalyst according to claim 1 or 2, characterized characterized in that the Strömungsstörelemente as integral with the channel walls ceramic elements are formed. Exhaust gas catalyst according to claim 2 or 3, characterized characterized in that the Strömungsstörelemente as the cross-section of a flow-restricting ribs are designed. Exhaust gas catalyst according to one of claims 2 to 4, characterized in that the Strömungsstörelemente in the channel longitudinal direction offset from each other at each other arranged opposite channel longitudinal sides are. Exhaust gas catalyst according to claim 1, characterized in that that the flow channels for the formation of flow disturbing elements graded. Exhaust gas catalyst according to one of the preceding claims, characterized in that all the flow channels provided in the same way with flow disturbing elements are. Exhaust gas catalyst according to one of the preceding claims, characterized in that the ceramic shaped body is built up in layers, which are transverse to the longitudinal direction the flow passages extend.