DE4426990A1 - IC engine exhaust gas cleaning device - Google Patents

Abstract

The cleaning device has a reactor to produce a reaction between the exhaust gas and a chemical cpd., e.g. ammonia and to swirl the exhaust gas. The reactor has an external container (1) with an inlet (1.1) for the gas from the engine and an outlet (1.2) for the cleaned gas. This container is round an ovoid internal container (2), which has circumferential apertures (6) and an outlet (2.1) at the opposite end to the inlet of the external container, preset to connect with the outlet of the external container. There is a swirler (3) in the vicinity of the inlet of the external container.

Description

The invention relates to a device for cleaning exhaust gases from an internal combustion engine, in particular for reducing the NO _x content of these exhaust gases.

The harmful effects of NO _x have been known for many years. Accordingly, there are a large number of devices to remove NO _x from the exhaust gases as much as possible. Such devices generally have a reactor in which a reaction between the exhaust gas and a chemical compound, for example ammonia, urea or the like, is carried out in order to break down the nitrogen oxides into gaseous nitrogen and water.

The known devices are expensive in the Construction, expensive to manufacture and achieve that not set goal.

The invention has for its object to design a device according to the preamble of claim 1 such that the removal of NO _x takes place more efficiently than with known devices, that the device is simpler in construction and cheaper to manufacture than known devices, and that it is suitable for retrofitting existing internal combustion engine systems.

This task is characterized by the characteristics of Claim 1 solved.

The inventor has managed to make the device very simple to design. The core of the device is the egg-shaped one Inner container that surrounds itself in an outer container that surrounds the inner container like a jacket. Between  The outer container and inner container remain in an annular channel which the exhaust gas to be cleaned is introduced, namely as a gyrating stream. The exhaust gas stream then enters the Inner container, through openings in its Wall. Provisions have been made to ensure that the Flow deflected when entering the inner container is so that they prevail in the ring channel Main flow is largely opposite. The exhaust gas flows accordingly in the interior of the egg-shaped inner container one end of it, again as a gyro or Vortex flow. At the end of the egg - shaped cavity The exhaust gas flow becomes a second time redirected, and planted within the first vertebra another vortex to the other end of the egg-shaped Interior continues where it exits.

The exhaust gas flow is thus on its way through the inlet of the outer container, through the ring channel, through the egg-shaped interior of the inner container and from this redirected out at least three times. The current is on the whole way called vortex shape, whereby also the Reverse swirl direction from time to time.

The vortex is best generated by one in the inlet the swirl generator arranged in the outer container, For example, an impeller that the clear width of the Fills inlet and like a blower rotor is designed.

Somewhere on the way of the flow of the exhaust gases, best of all already in the area of the inlet of the outer container a chemical compound to initiate the reaction with initiated the exhaust gas.

In this way, a very efficient exhaust gas treatment with an extensive removal of NO _{x is} carried out.

The device is due to its high efficiency small size and light weight. You can easily and without problems in an existing engine system install.

The invention is explained in more detail with reference to the drawing.

The figure shows the reactor in a longitudinal section.

The reactor has an outer container 1 . It is elongated in shape. Outer container 1 comprises an inlet 1.1 and an outlet 1.2 . The inlet 1.1 is cylindrical. This is followed by a frustoconical section 1.3 , a cylindrical section 1.4 and a further frustoconical section 1.5 , followed by the cylindrical outlet 1.2 .

The outer container 1 encloses an inner container 2 like a jacket. The inner container is also elongated. It is essentially egg-shaped. The inlet 1.1 of the outer container 1 facing the end of the inner container 2 is closed, while the outlet 1.2 of the outer container 1 facing end is open.

A swirl generator is arranged in the inlet 1.1 of the outer container 1 . This is a rotor whose axis of rotation coincides with the longitudinal axis of the reactor. The rotor 3 largely fills the clear width of the inlet 1.1 of the outer container 1 . In the illustration below the rotor 3 , an annular channel 4 is formed from the wall of the outer container 1 and from the wall of the inner container 2 . Annular channel 4 is delimited by an annular transverse wall 5 .

The wall of the egg-shaped inner container 2 has a plurality of openings 6 , only one of which is shown. These openings are arranged evenly distributed over the circumference of the container 2 . A guide element is assigned to each opening, which gives the exhaust gas flow from the ring channel a certain direction when entering the interior of the inner container 2 . The guide elements can be sleeves which are inserted into the individual opening 6 . The sleeves can protrude beyond the outer skin or the inner skin of the inner container 2 . It is also possible to let the sleeves protrude beyond the outer skin and the inner skin. Each sleeve can be perpendicular to the level of the individual opening 6 . But it is also possible to arrange the individual sleeve at a certain angle deviating from 90 ° to the plane of the opening 6 .

The outlet 2.1 of the inner container 2 (egg outlet) is directed against a baffle element 7 . This is carried by webs 8 , which are attached to the wall of the outer element 1 .

The way of the exhaust gas flow is as follows:

Exhaust gas from the internal combustion engine flows according to arrow A into the inlet 1.1 of the outer container 1 . It is detected there by rotor 3 and arrives in the ring channel 4 . Due to the swirl effect of the rotor 3 , it propagates there in a spinning - seen downwards in the illustration. It then abuts the transverse edge 5 and inevitably reaches the interior of the egg-shaped inner container 2 through the openings 6 . Due to the mentioned guide elements, which will be discussed later, the exhaust gas flow is deflected when entering the interior of the inner container 2 , so that it takes its way towards the upper end of the inner container 2 in the drawing. In this way, too, it spins again. Arrived at the upper end, there is another redirection. The exhaust gas flow now travels within the outer vortex, which moves along the wall of the inner container 2 , again in vortex form down to the egg outlet 2.1 . At the lower edge of the egg outlet 2.1 , it is deflected, specifically by baffle element 7 . It then passes through the annular space between the baffle element 7 and the frustoconical part 1.5 of the outer container 1 to the outlet 1.2 of the outer container in order to finally leave the reactor as a largely cleaned exhaust gas stream in the direction of arrow B.

The connection for the chemical reaction compound is not shown. It is located in the area of the rotor 3 , either in front of or after the rotor.

The invention can also be used for Use heating systems with oil, wood or other Fuels are operated.

Claims (7)

1. Device for cleaning exhaust gases from an internal combustion engine, in particular for reducing the NO _x content

• 1.1 with a reactor for performing a reaction between the exhaust gas and a chemical compound, e.g. B. ammonia and for swirling the exhaust gas

characterized by the following features:

• 1.2 the reactor has an outer container ( 1 ) with an inlet ( 1.1 ) for exhaust gas brought in from the engine and an outlet ( 1.2 ) for treated exhaust gas (clean gas)
• 1.3 the outer container ( 1 ) encloses an inner container ( 2 )
• 1.4 the inner container is at least approximately egg-shaped, is provided with openings ( 6 ) in the area of its periphery (peripheral openings) and has an outlet ( 2.1 ) (egg outlet) on the end opposite the inlet ( 1.1 ) of the outer container ( 1 ) on, which is connected upstream of the outlet ( 1.2 ) of the outer container ( 1 )
• 1.5 a swirl generator ( 3 ) is provided in the area of the inlet ( 1.1 ) of the outer container ( 1 )
• 1.6 inner container ( 2 ) and outer container ( 1 ) together form an annular channel which extends from the inlet ( 1.1 ) of the outer container at least to the openings ( 6 ) of the inner container ( 2 ).

2. Device according to claim 1, characterized in that the annular channel ( 4 ) is blocked by an annular transverse wall ( 5 ) which extends between the inner container ( 2 ) and outer container ( 1 ). 3. Apparatus according to claim 1 or 2, characterized in that the openings ( 6 ) guide elements are assigned to redirect the exhaust gas flow entering the inner container ( 2 ) relative to the main flow direction prevailing in the annular channel ( 4 ). 4. The device according to claim 3, characterized in that the guide members comprise sleeves which are enclosed by the openings ( 6 ). 5. The device according to claim 4, characterized in that the sleeves protrude inwards and outwards over the wall of the inner container ( 2 ). 6. Device according to one of claims 1 to 5, characterized in that a baffle element ( 7 ) is interposed between the egg outlet ( 2.1 ) and the outlet ( 1.2 ) of the outer container ( 1 ).