DE10252734A1 - Purifying I.C. engine exhaust gases involves introducing solid reductant into exhaust gas channel - Google Patents

Abstract

Process for purifying I.C. engine exhaust gases involves introducing a reductant (20) in solid form into the exhaust gas channel. An Independent claim is also included for a device for purifying I.C. engine exhaust gases comprising a blower unit (22) for blowing the reductant in powder form into the exhaust gas channel.

Description

The invention relates to a method and a device for cleaning exhaust gases from an internal combustion engine.

To reduce nitrogen oxides (NO _x reduction) in oxygen-rich exhaust gases, the so-called selective catalytic reduction is used, which has proven particularly effective for reducing the NO _x content in oxygen-rich exhaust gases from power plants. Typically, gaseous ammonia is introduced into the exhaust gas stream as a reducing agent and selectively converted to nitrogen and water with the nitrogen oxides.

When using the method in the vehicle area, however, carrying toxic ammonia gas in the vehicle should be avoided. For this reason, various substances are currently being tested that are non-toxic and only release NH ₃ when necessary.

A known method sees the Feeding of aqueous urea solution into the engine exhaust, before being catalyzed by thermolysis and subsequent Hydrolysis of the urea released the reducing agent ammonia becomes. This procedure is directly applicable to commercial vehicles before a series application. However, it should be noted that urea / water systems have numerous disadvantages.

In addition to the problem of solvents (weight and volume of water) and procedural difficulties a controlled dynamic dosage of this reducing agent in aerosol form is possible with this process of unwanted By-products, such as nitrogenous oligomers, and on the Indicate formation of the intermediate product isacyanoic acid (HNCO). In particular at exhaust gas temperatures below a temperature of 150 ° C a dosage is not recommended, which is the application of the entire SCR system (SCR: selective catalytic reduction) significantly restricted. Furthermore stands for the use of aqueous urea solutions unfavorable Freezing point towards.

It should also be noted that the eutectic Temperature in a urea / water system is around –11.5 ° C. To meet the requirements for the winter suitability of a fuel Corresponding in a motor vehicle is therefore necessary additional heating required. The durability of the urea solution could also increase turn out to be problematic.

Another known method for producing reducing agents comprises the use of ammonia generators. These are used outside the exhaust pipe in the vehicle itself, ie on board. Safe to handle because of their manageability, nitrogen-containing solids, such as ammonium carbamate, which release NH ₃ when heated and thus enable the NH ₃ SCR process in its simplest manner.

The installation space of these reactors, the Moreover executed in pressure-resistant form Need to become, However, what is relatively large the restricted Space in passenger cars to considerable difficulties leads. Another problem with these systems is the lack of heat transfer from the reactor heating to the solid. In addition, it can be cooled by the operation to reverse reaction and also undesirable Side reactions occur, causing the supply lines in the exhaust line can clog. The relationship of carried Reducing agent to installation space is to be classified as similarly unfavorable as for the Use of aqueous urea solution.

From the publication DE 199 25 671 C2 An exhaust emission cleaning device for an internal combustion engine is known. This has a NO _x catalyst for reducing or decomposing NO _x , a container chamber for storing a solid reducing agent and a chamber for heating and liquefying the reducing agent. In this device, solid reducing agent is thus supplied and, after its liquefaction, is introduced into the exhaust gas duct as a reducing agent.

In contrast, the method according to the invention provides before that Reductant is introduced in solid form.

The direct introduction of the reducing agent in solid form into the exhaust duct or exhaust line brings numerous advantages, in particular in comparison to the metering of urea solutions, such as, for example, the reduction of the reducing agent supply to be carried, the winter suitability and the unrestricted storage stability of a solid , In contrast to the NH ₃ reactors, there is no pressure-resistant design, additional heating measures for reducing agent preparation and back reactions that can lead to the dosing system becoming blocked.

The thermal energy for processing is applied by the exhaust gas itself, which in view of the very small amount of reducing agent has no influence on the overall energetic Of the system. As a result, only the need for the contribution and even distribution to be considered in the exhaust system. Ammonia-releasing substances that can be used for this are Solids such as Urea and also ammonium carbonate, carbamate, cyanuric acid etc..

The reducing agent is preferred blown into the exhaust duct as a powder. It can be provided be that Reducing agent first is in the form of prills or pellets, these prills initially the powder and the reactant in powder form is then blown into the exhaust duct.

The table below illustrates the advantages of the method according to the invention over known ones Method.

The introduction of the reducing agent in solid form has thus opposite known variants numerous decisive advantages.

The cleaning device according to the invention the exhaust gas of an internal combustion engine has an injection device for blowing reducing agent in powder form into the exhaust duct on.

This device enables Realization of a reliable Dosierkonzeptes. Thus is a mechanically reliable and energetically inexpensive Introduction of the solid reducing agent possible.

The device preferably has a container to absorb the reducing agent. In this case, advantageously a conveyor, For example, a dosing screw for transporting the reducing agent from the container to the blowing device.

In an embodiment of the invention Moreover a comminution device for comminuting the reducing agent provided before blowing into the exhaust duct. As a shredding device serves, for example, a slotted disc. In this case, the conveyor already bring about a first comminution of the reducing agent.

The use according to the invention of the described The device provides their use for cleaning exhaust gases from an internal combustion engine in front.

For a reliable and permanent dosing of the solid reducing agent it expedient that Solid in as much as possible finely distributed shape with high even distribution in the exhaust system to bring in a high efficiency of the reducing agent sure. This is best done by blowing in the reducing agent achieved as a fine powder. It should be noted, however, that passenger cars are the opposite to trucks over have no external compressed air source. It is also not advisable to use one Always carry finely divided powder in a storage container from the start, because this tends to clump. Furthermore, the bulk density and thus the dosing constancy depends from the level of the storage container. This should be dimensioned so that it can be refilled at normal maintenance intervals possible is, d. H. that this about 10-15 Kg should take.

Round prills with a diameter about 2mm, such as a commercially available fertilizer urea, are against it to store without problems. There is no clumping with these, the bulk density is constant and the flowability is also guaranteed. It follows that the Prills or pellets reproducible and continuously dosed, then preferably finely crushed and then can be blown into the exhaust line.

Further advantages and configurations the invention will become apparent from the description and the accompanying Drawing.

It is understood that the above not only mentioned and the features to be explained below in the specified combination, but also in others Combinations or alone can be used without the frame to leave the present invention.

The invention is based on an embodiment shown schematically in the drawing and is described below Described in detail with reference to the drawing.

1 shows a preferred embodiment of the device according to the invention.

2 shows a preferred embodiment of the shredding device according to the invention.

In 1 is an inventive device for cleaning exhaust gases of an internal combustion engine, overall with the reference number 10 designated, shown. A closed and moisture-proof container can be seen 12 , a screw conveyor 14 , a slotted disc 16 and an injection duct 18 ,

In the container 12 the reducing agent is in the form of prills 20 , These prills are made via the screw conveyor 14 , which is driven by a first motor, towards the slotted disc 16 transported and pre-shredded. The slotted disc 16 wears wings 22 and crushes the pre-shredded prills into fine powder using the slots or knives provided. The wings 22 cause the powder to be dispersed and blown in via the blowing duct 18 in the exhaust line. The slotted disc or knife disc 16 is via a drive shaft 24 of. driven by a second motor.

The device 10 consists essentially of two moving parts, namely the slowly rotating dosing screw 14 as well as the rapidly rotating wing 22 bearing slotted disc 16 , Both moving parts are preferably driven by an electric motor each. Optionally, the fast rotating slotted disc 16 are driven by the belt drive of the vehicle engine. This ensures a simple and low-wear function, which is advantageous with regard to continuous operation in the vehicle. Of course, a single motor can also be provided to drive both parts.

The following table gives an overview on the requirements for a solid dosing system for passenger cars and processing by the device according to the invention.

The table shows that the device according to the invention for one Use in a car is very suitable.

In 2 is a slotted or knife disc 30 shown. In use, this is in the direction of an arrow 32 turned. The disc 30 carries four wings 34 and has four slots 36 on. More wings and slots can also be provided. A prill 38 is by means of the slots 36 crushed and powdered by the wings 34 transported in the direction of the exhaust duct.

In the device shown 10 is a dosing device in which the dosing, comminution and air delivery take place at the same time. The reducing agent is in the closed and moisture-proof container 12 , from which it is via a screw conveyor 14 the shredding and blowing device is supplied. In the case of using prills 38 The dosing screw 14 also performs the function of pre-comminution. The actual shredding mechanism preferably consists of the rapidly rotating slotted disc 16 , The regrind is through the slots 36 the disc 16 promoted and smashed by their rapid rotation. On the disc 16 are the wings 34 mounted, which on the one hand crush the reducing agent again due to its impact effect and also take over the required blower function. As a result, the reducing agent can be introduced into the exhaust line without the support of external compressed air.

The dosing screw 14 is preferably driven by a continuously variable motor, so that a regulation of the mass flow can be realized. The fly knife is driven by a motor with constant speed. If possible, the speed should be as high as possible in order to make the function of the fan as effective as possible.

Claims (10)

Process for cleaning exhaust gases from an internal combustion engine, in which a reducing agent ( 20 . 38 ) is introduced in solid form into an exhaust duct. The method of claim 1, wherein the reducing agent ( 20 . 38 ) is blown into the exhaust duct as a powder. The method of claim 2, wherein the reducing agent ( 20 . 38 ) in the form of prills ( 20 . 38 ) these prills ( 20 . 38 ) are first crushed into the powder and this is then blown into the exhaust duct. Device for cleaning the exhaust gas of an internal combustion engine with a blowing device ( 22 ) for blowing in reducing agent ( 20 . 38 ) in powder form in the exhaust duct. Device according to claim 1 with a container ( 12 ) to absorb the reducing agent ( 20 . 38 ). Apparatus according to claim 5 with a conveyor device ( 14 ) to transport the reducing agent ( 20 . 38 ) from the container ( 12 ) to the blowing device ( 22 ). Apparatus according to claim 6, in which the conveyor device ( 14 ) a dosing screw ( 14 ) serves. Device according to one of claims 4 to 7, in which a comminution device ( 16 ) for crushing the reducing agent ( 20 ) is provided before blowing into the exhaust duct. Apparatus according to claim 8, in which the comminution device ( 16 ) a slotted disc ( 16 ) serves. Using a device ( 10 ) according to one of claims 4 to 9 for cleaning exhaust gases of an internal combustion engine.