DE102004063450A1 - Soot filter for exhaust gas stream has filter materials which are arranged in consecutive multilayers and direction of flow lies perpendicular to layer sequence and parallel to individual layers - Google Patents

Abstract

A soot filter has filter materials which are arranged in consecutive multilayers. The direction of flow lies perpendicular to the layer sequence and parallel to individual layers. The first filter material has an inflow cross-section (24) and a discharge cross-section (26) for outward flow, so that a passage of exhaust gas is made possible without flowing through a second filter material.

Description

The present invention himself with a soot filter for exhaust gas flows with a flowed through housing, in a filter cartridge with a first filter material from a catalytically coated wire mesh or fabric and a second Filter material is arranged, the much smaller passage cross-sections as the first filter material possesses.

Such devices, often referred to as soot filters, which in fact provide for the separation and combustion of the soot particles, and which provide for two different filter materials, at least one of which is catalytically active, are already known from US Pat EP 0 747 579 A1 , of the EP 0 900 922 A1 , of the EP 1 065 352 A1 and the EP 1 209 330 A1 known. The basic consideration for the use of two different filter materials is that first in the coarse-meshed wire structure the diesel exhaust gas is conditioned to reduce the ignition temperature for burning off the soot particles, and these particles subsequently collect on the second filter material and burn when the ignition temperature is reached , The known devices provide for minimizing the particle ejection, that the second filter material is forcibly flowed through by the exhaust gas flow as a second stage, so that the soot particles can settle on the second filter material with the small passage cross sections for burning. The disadvantage of this solution is that expensive additional measures are required to allow safe burning out of the exhaust stream filtered out soot particles, otherwise it may cause clogging of the second filter material, whereupon, for example, the diesel engine of a motor vehicle only at significantly reduced power or can no longer be operated. The known additional measures may include an admixture of an additive that lowers the ignition temperature, an injection of fuel into the exhaust system to increase the exhaust gas temperature and / or engine-side control measures such. As a strong mixture enrichment, provide to produce in the soot filter, the burning conditions for the filtered soot particles.

The the above measures can be realized with new developments with high expenditure. As a retrofit solution divorce such soot filters but basically because it's within the shortest possible time Time to the described failures would come, wherein it has been shown in practice that it is due to unfavorable operating conditions, such as z. B. exclusive Short-distance operation, even with modern systems still one unwanted clogging of the soot filter can come.

The The object of the present invention is a soot filter to avoid the danger of clogging and yet a significant reduction in soot particles allowed in the exhaust stream.

According to the invention Task through a soot filter solved the type described above, in which the filter materials Layer by layer sequentially arranged in several layers, wherein the flow direction perpendicular to the sequence of layers parallel to the individual layers and the first filter material has an inlet cross-section and a outlet section for the Has exhaust stream, so that a passage of the Exhaust flow without flow through allows the second filter material is.

Of the Soot filter according to the invention offers the advantage that the Exhaust gas under all circumstances by flowing alone of the first filter material can reach the outlet cross section, so that one Add the soot filter even under the most unfavorable Operating conditions are not to be feared is because the wide-meshed wireworks not up to such a serious extent the soot particles can be added. simultaneously has surprisingly shown that the only partially flowed through and otherwise flowing in parallel Filter material is very well able to soot particles in the desired Accumulate extent and until a time for withhold a burn, at which the combustion temperature is present in the soot filter. The degree The particle reduction is determined by a natural course the geometry of the filter materials, but also by the effective Length of the Through flow path of the first filter material. Are high deposition rates desired is to provide a long flow path accordingly. The back pressure in turn, by an enlarged cross-section the soot filter be lowered with correspondingly more layers of the filter materials.

In principle, the filter materials can follow one another in every conceivable spatial arrangement Gend lie as long as a flow through the filter is made possible only by the first filter material. In a suitably tubular housing, the filter insert can be produced in a particularly simple manner in that it consists of a spiral winding of the filter materials. The preparation he follows, characterized in that a mat of a layer of the first filter material and a second layer of the second filter material is tightly rolled up. Alternatively, however, the filter layers can also be arranged concentrically to form the filter insert. For an inventive design of the soot filter, it would also be readily conceivable to provide a star-shaped arrangement of alternating filter materials. Furthermore, z. As well as a form of training possible in which the filter materials are arranged helically over the length of the soot filter to still achieve the shortest possible length of the soot filter as long a flow path of the first filter material.

Of the Soot filter according to the invention let yourself For example, but also in a rectangular housing of the soot filter form by the Filter insert by plate-shaped successive layers of the filter materials is formed. In an oval shape of the filter housing can, depending on the geometry, a compressed spiral winding or, at very flat oval shapes, in turn, a layer structure advantageous be.

For the second Filter material has a layer thickness of less than 1 mm, preferably 0.3 mm proved to be advantageous while the first filter material a layer thickness preferably in the single-digit millimeter range having. in principle is also a small layer thickness with the first filter material beneficial to one as possible size acting surface of the second filter material for depositing the particles available have, however, the thickness of the first filter material through the training as wire mesh limits, whereby the layer thickness the first Filtermateri as well as for reasons of then increasing exhaust back pressure not too small should be.

While as first filter material usually one with, for example, platinum used as a catalyst coated wire mesh or fabric can come for are the second filter material basically one Variety of different material alternatives conceivable, with basically only Passage cross-sections must be provided, a catching the soot enable. In addition to porous Solids, Tissues or very fine-meshed knits are also fiber or sintered body conceivable, wherein in each case ceramic or metallic materials, the preferably catalytically active coated, can be used.

Especially good results shows the particulate filter according to the invention when using a Metal fleece, preferably a sintered metal tile for the second Filter material, which preferably further from an optionally catalytically Coated ferritic chrome steel is made.

When porosity for the second filter material has a degree of about 80% proved particularly advantageous.

As already mentioned, the soot filter according to the invention is suitable especially for the use for cleaning the exhaust gases of a diesel engine, wherein because of its low tendency to clog it also for retrofitting older diesel engines with strong output too very big Particles, even if no special measures for the production of Burning conditions in the soot filter are met.

following is based on the attached Drawings closer to an embodiment the invention received. Show it:

1 a longitudinal section of a soot filter;

2 a cross section through the soot filter after 1 ,

1 shows a longitudinal section of a soot filter 10 with a housing 12 in which a filter cartridge 14 is arranged. The housing 12 is in 1 with a compared to the inlet cross-section 16 and to the outlet section 18 shown enlarged diameter, but of course also embodiments are conceivable in which the housing diameter corresponds to the pipe diameter at the inlet and at the outlet.

The filter insert is formed by a multilayer arrangement of two filter materials, wherein in the embodiment shown (see also 2 ) a first filter material 20 and a second filter material 22 , which initially exist as a mat, to the filter cartridge 14 be wrapped. The housing encloses the filter element 14 narrow and can also be made divisible to mount the filter cartridge can. As the layers of filter materials 20 . 22 extend parallel to the flow direction, a passage of the exhaust gas through both filter layers successively not necessarily required. The first filter material 20 consists of a wide-meshed wire mesh, which is coated with platinum, in order to be able to catalytically condition the exhaust gas. The first filter material 20 has an inlet cross-section 24 and an outlet section 26 , so that the exhaust gas through the wide-meshed filter material 20 can flow.

The second filter material 22 consists of an approximately 0.3 mm thick sintered metal mat, which consists of ferritic chromium steel, which in turn may be coated with a catalyst. For example, the ferritic chromium steel may have the following composition:

The nonwoven material has a porosity of 80% at a basis weight of about 450 g / m ² .

Instead of the arrangement shown can be achieve the same effect with a catalyst in which the filter materials in other ways alternately parallel to flow direction are arranged, for example, by a plane-parallel layers Construction, a concentric arrangement, a star-shaped formation or in the form of a helical coil. It is crucial that this the exhaust gas conditioning wide-meshed filter material also has an opening cross-section to the outlet side has, so the filter not by excessive deposit of soot particles can enforce. Although the second filter material ensures adhesion the soot particles and for a burn when reaching the ignition temperature, but it should be due unfavorable Operating conditions to a depletion of the absorption capacity for soot particles come through the second filter material, the exhaust gases, the first filter material happen. This may be a temporary deterioration associated with the particle values, but remains, for example with such a soot filter equipped Motor vehicle mobile. In particular, the soot filter is suitable also for retrofitting in older Diesel models with a reinforced Particle emission and missing action for targeted combustion of soot particles, where conventional Filter would very quickly lead to failure.

Surprisingly it has been shown that despite the open outlet cross-section the first filter material under favorable operating conditions, as used, for example, in modern diesel engines with additive admixture, additional Fuel injection and / or targeted engine management are also present achieve very good rates of more than 50% in particle reduction to let.

Claims (13)

Soot filter for exhaust gas flows with a flow-through housing ( 12 ), in which a filter cartridge ( 14 ) with first filter material ( 20 ) of a catalytically coated wire mesh or fabric and another filter material ( 22 ) is arranged, the substantially smaller passage cross-sections than the first filter material ( 20 ), characterized in that the filter materials ( 20 . 22 ) are arranged in succession in multiple layers, wherein the direction of flow is perpendicular to the sequence of layers parallel to the individual layers and the first filter material ( 20 ) at least one inlet cross-section ( 24 ) and at least one outlet section ( 26 ) for the output flow, so that a passage of exhaust gas without flowing through the second filter material ( 22 ) is possible. A soot filter according to claim 1, characterized in that the housing ( 12 ) is tubular. A soot filter according to claim 2, characterized in that the filter insert ( 14 ) from a spiral winding of the filter materials ( 20 . 22 ) consists. soot filter according to claim 2, characterized in that the filter insert by concentric, stellate or helical Filter layers is formed. soot filter according to claim 1, characterized in that the housing is rectangular or is oval-shaped. soot filter according to claim 5, characterized in that the filter insert by plate-shaped successive Layers of filter materials is formed. A soot filter according to one of the preceding claims, characterized in that the second filter material ( 22 ) has a layer thickness of less than 1 mm, preferably about 0.3 mm. A soot filter according to one of the preceding claims, characterized in that the first filter material ( 20 ) has a layer thickness in the single-digit millimeter range. A soot filter according to one of the preceding claims, characterized in that the second filter material ( 22 ) is made of metal, which is preferably coated with a catalyst. A soot filter according to claim 9, characterized in that the second filter material ( 22 ) is a metal fleece, preferably a sintered metal fleece. A soot filter according to claim 9 or 10, characterized in that the second filter material ( 22 ) consists of a possibly coated with a catalyst ferritic chromium steel. A soot filter according to one of the preceding claims, characterized in that the porosity of the second filter material ( 22 ) is about 80%. Use of a soot filter ( 10 ) according to one of the preceding claims for cleaning the exhaust gases of a diesel engine.