DE102011088041A1 - Flexible duct element for use in exhaust system of diesel engine of motor car, has flexible hollow body for conveying effluent stream, where parts of element are comprised of and/or partially coated with catalytic active material - Google Patents

Abstract

The element has a flexible hollow body for conveying effluent stream, where parts of the element come into contact with the effluent stream and are comprised of and/or partially coated with a catalytic active material. The hollow body is comprised of an annular curved or screw thread shape curved metal bellows and/or a flexible metal pipe. The catalytic active material corresponds a catalytic coating of a selective catalytic reduction (SCR) catalyzer for exhaust gases of a combustion engine. The parts of the element are comprised of or coated with aluminum or aluminum oxide.

Description

The invention relates to a flexible conduit element for a movable connection of two pipe parts of an exhaust system of an internal combustion engine according to the preamble of claim 1 and to a use of such a flexible conduit element.

Flexible conduit elements of the present type accordingly comprise at least one flexible hollow body for passing an exhaust gas flow. In many applications, at least one flexible conduit element must be provided in the exhaust system of an internal combustion engine, which connects two pipe parts movable in order not to forward in particular the movements of a rigidly connected to the internal combustion engine pipe part of the exhaust system in the continuing parts of the exhaust system; because these are usually in turn rigidly fixed, for example, on the body of a motor vehicle or on a Abgasauslassöffnung a building in a stationary operation of an internal combustion engine.

Such relative movements between two pipe parts of an exhaust system, which are to be compensated by the present flexible conduit element, can be caused by thermal expansion movements or load changes movements of the engine, or by movements of a vehicle body. Also vibration movements of the internal combustion engine can be kept away from the continuing parts of the exhaust system by a flexible conduit element.

In order to eliminate environmentally harmful substances from the exhaust stream of an internal combustion engine, exhaust after-treatment systems, commonly called "catalyst", are widely used in the exhaust system. In this case, it is usually utilized that the exhaust gas stream at the outlet from the internal combustion engine has high temperatures, so that environmentally harmful substances can be rendered harmless by utilizing these high temperatures by means of a chemical reaction. Accordingly, catalysts are often located close to the engine and even before the flexible conduit part with which the present invention is concerned.

Exhaust aftertreatment can produce substances that are gaseous at high temperatures or can be entrained finely dispersed in the exhaust stream while settling at lower temperatures on walls and pipes through which the exhaust stream flows. In particular, this is done on structured, so not smooth and non-laminar flow-through conduit walls, as they are the rule in flexible conduit elements.

For example, it is known to use SCR (Selective Catalytic Reduction) catalysts to reduce nitrogen oxide emissions from internal combustion engines, especially diesel engines. Here, urea is injected as a reducing agent for the nitrogen oxides (NO _x ) in the SCR catalyst in the hot exhaust gas stream. This results in the problem that form urea derivatives in the exhaust stream, which tend to settle on the pipe walls in the downstream flowing exhaust stream. In particular, a flexible line element arranged downstream of a urea injection is endangered insofar as its flexible hollow body is significantly cooler than the exhaust gas stream when injecting the urea, and has a structured, usually corrugated or wound, and often multi-layered wall for passing the exhaust gas flow , The wall structure leads to turbulence of the exhaust gas flow along the wall of the flexible hollow body, which additionally promotes a deposition of urea derivatives.

In this example of urea derivative deposits in flexible ductwork used in exhaust systems of diesel engines, the problem of the present invention is easily understood: After a certain period of operation of the diesel engine and its exhaust system with ongoing exhaust aftertreatment using SCR catalyst and urea injection store urea derivatives more and more in such quantities in the flexible conduit element that its mobility is increasingly impaired. This leads to malfunctions and ultimately to the failure of the flexible conduit element.

The present invention is therefore based on the object to prevent unwanted deposits from the exhaust stream in a flexible conduit element of the present type, or at least reduce.

This object is achieved by a flexible conduit element with the features of claim 1. Advantageous embodiments of the flexible conduit element according to the invention are set forth in claims 2 to 8; Preferred uses of the flexible conduit element can be found in claims 9 and 10.

According to the present invention, a flexible conduit element of the present type is thus designed such that at least its parts coming into contact with the exhaust gas flow at least partially consist of a catalytically active material and / or are coated with a catalytically active material. This catalytically active material prevents the deposition of components of the exhaust stream, which in flexible Conduit can be done due to turbulence and / or cooling of the exhaust stream.

A preferred use of the flexible conduit element according to the invention is its use in an exhaust system of an internal combustion engine in which urea or a urea solution is introduced into the exhaust gas flow and / or which contains an SCR catalyst. In particular, in this preferred use, it is expedient if the catalytically active material of the flexible conduit element according to the invention is suitable for the splitting of urea derivatives, which originate from the exhaust aftertreatment of a diesel engine with a urea solution. In particular, this catalytically active material will prevent ureas and / or urea derivatives formed by incomplete reaction or side reaction from catalysis from being deposited at temperatures below typically 550 ° C to 580 ° C in the flexible conduit member.

Preferably, the catalytically active material of the flexible conduit element corresponds to the catalytic coating of an SCR catalytic converter for exhaust gases of a diesel engine. This material catalytically breaks down urea or urea derivatives and prevents their deposition.

Preferably, the catalytically active material is a compound or a compound mixture from the group of the substances vanadium oxide (V ₂ O ₅ ), tungsten oxide (WO ₃ ), titanium oxide (TiO ₂ ), platinum (Pt) and / or zeolites, such as ZSM- 5 (zeolite Socony Mobil-5) or ZSM-11 (zeolite Socony Mobil-11). It has been found that especially the zeolites have the property to have a good catalytic activity even at low temperatures. But even with V ₂ O ₅ / WO ₃ / TiO ₂ catalyst good results were achieved.

In a preferred embodiment of the invention, the catalytically active material is or contains a metal zeolite, in particular a Fe zeolite and / or Cu zeolite.

As a rule, flexible conduit elements for the exhaust system of an internal combustion engine are made of stainless steel. The catalytically active material used in the invention is then applied as a coating, but there is the difficulty that catalytically active material often has only a low adhesion to stainless steel surfaces.

The position of the hollow body coming into contact with the exhaust gas flow of the hollow body, under the catalytically active coating, therefore preferably consists of aluminum or is coated with aluminum or aluminum oxide. Such an aluminum or alumina surface has the advantage that catalytically active material, in particular the zeolites, adhere well. However, it is also conceivable that the flow-guiding components of the flexible conduit element consist of an alumina-containing material, such as alumina ceramics or zeolites.

Conveniently, the flexible hollow body of the flexible conduit element according to the invention consists of a ring-corrugated or helically corrugated metal bellows and / or a wound metal hose. A metal hose can also be arranged inside a metal bellows, which ensures the gas-tightness of the conduit element, in order to guide the exhaust gas flow so that it does not swirl on the inner rim of the corrugations of the metal bellows and on the other hand does not subject the bellows with too high a thermal load can apply. When combining a metal bellows with a metal hose, the latter can be designed as an Agraffschlauch.

More preferably, the flexible conduit element according to the invention is designed as a decoupling element for decoupling vibrations, d. H. the flexible conduit member is designed such that engine vibrations can not be passed through the conduit member into the downstream of the flexible conduit member disposed parts of the exhaust system. This decoupling effect for engine vibrations prevents the engine vibrations are transmitted as structure-borne noise to large parts of the exhaust system and - when used in motor vehicles - on this on the body of the vehicle and radiated from there both in the vehicle interior and in the environment.

In order to be able to decouple vibrations of different frequencies, a decoupling element in both the prior art and in the context of the present invention usually contains a relatively soft, ring-corrugated or helically corrugated metal bellows as well as elements which vaporize the natural vibrations of the metal bellows. This damping prevents the metal bellows from resonating, which would mean that it passes through the corresponding vibration frequency. The metal bellows are usually damped by elements made of knitted or braided metal wires, which sometimes come into contact with the exhaust gas flow. A typical structure of a decoupling element includes a metal bellows and a metal tube provided within the same for the exhaust gas flow guidance and possibly damping elements made of knitted fabric or braid, which are arranged in part between the metal bellows and the metal tube. When the flexible conduit element is to be suitable as a decoupling element for engine vibrations, the metal hose is designed with high mobility, so that it is neither gas-tight nor liquid-tight.

In such a flexible conduit element, which is designed as a decoupling element for engine vibrations, the risk of impairment of its function or damage due to deposits of urea derivatives is particularly high; Sometimes these can make the metal tube immobile, get through this in the space between the metal tube and the metal bellows, enforce this gap and thus hinder the metal bellows in his movements or even damage. In this application of a flexible conduit element of the present type, the invention therefore offers very special advantages.

Claims (10)

Flexible conduit member for a movable connection of two pipe parts of an exhaust system of an internal combustion engine, comprising at least one flexible hollow body for passing an exhaust gas stream, characterized in that at least partially come into contact with the exhaust gas stream parts of the flexible conduit element at least partially made of a catalytically active material and / or coated with a catalytically active material. Flexible duct element according to claim 1, characterized in that the flexible hollow body comprises a ring-corrugated or helically corrugated metal bellows and / or metal hose. Flexible line element according to one of claims 1 or 2, characterized in that the catalytically active material is a compound or a compound mixture from the group of substances V ₂ O ₅ , WO ₃ , TiO ₂ , Pt and / or zeolites. Flexible conduit element according to at least one of claims 1 to 3, characterized in that the catalytically active material is a Fe zeolite and / or Cu zeolite. Flexible conduit element according to at least one of claims 1 to 4, characterized in that the parts of the flexible conduit element coming into contact with the exhaust gas flow, under a catalytically active coating, consist of aluminum or are coated with aluminum or aluminum oxide. Flexible conduit element according to at least one of claims 1 to 5, characterized in that the catalytically active material of the flexible conduit element is suitable for the splitting of urea derivatives, which originate from the exhaust aftertreatment of a diesel engine with a urea solution. Flexible conduit element according to at least one of claims 1 to 6, characterized in that the catalytically active material of the flexible conduit element corresponds to the catalytic coating of an SCR catalytic converter for exhaust gases of a diesel engine. Flexible line element according to at least one of claims 1 to 7, characterized in that it is designed as a decoupling element for decoupling vibrations. Use of a flexible conduit element according to at least one of claims 1 to 8 in an exhaust system of an internal combustion engine, in which urea or a urea solution is introduced into the exhaust gas flow. Use of a flexible conduit element according to at least one of claims 1 to 8 in an exhaust system of an internal combustion engine, which contains an SCR catalytic converter.