DE19703306A1 - Exhaust gas cleaner - Google Patents

Abstract

To separate hazardous matter from exhaust gases, a displacement body (2) is inserted into the gas pipe (1) which is positioned (3) according to the gas flow speed. Jets are placed behind the displacement body, where the gas flow eddies, to spray an absorption medium into the gas flow.

Description

It is known that exhaust systems such. B. behind power plants, waste incineration plants, sintering plants, etc. contain pollutants. These pollutants mainly consist of SO ₂ , HCl, HF and practically all acidic components.

In many cases, these exhaust gases are also contaminated with additional toxic substances, such as dioxins, Furans etc.

Wet separators or dry separators are used for separation. The wet Separators usually work with a limestone solution, the dry processes with Absorbents which, for. B. based on hydrated lime and A-carbon and / or A-coke - mixed as a dust-like body - to be blown into pipes and with the one to be cleaned Come into contact with gas.

Behind these contact lines or plate-shaped turntables on which the Absorbent is sprayed on semi-dry or dry or wet, too cleaning gas allocated the absorption medium.

The separation behind the dry or semi-dry gas cleaning is mainly with Made of fabric filters, the separation in the wet process with wet scrubbers mostly downstream droplet separators.  

In order to obtain similarly good separation values for dry or semi-dry processes as for the to achieve wet gas scrubbing are often overstoichiometric amounts of Lime hydrate, partially mixed with activated carbon or activated coke, blown into the flue gas stream.

This often leads to caking, in particular on the turntables and / or also on the walls, which can lead to considerable malfunctions.

In order to discharge the gas from the pipe walls, so-called wall scraper rings are often these are venturi-like throats, which keep the flue gas flowing from the wall deflect and deflect into the center of the pipe.

Here, too, there is usually a high risk of caking.

In order to achieve a high separation performance in the contaminated gas stream of acidic pollutants and / or toxic pollutants without

• 1. high pressure loss, as is the case with wet flue gas cleaning systems, or but
• 2. for semi-dry or dry systems with a turntable and wall rings in Pressure loss range similar to that of a wet separator and
• 3. To avoid the risk of caking, It is proposed according to the invention to choose a method according to the enclosed Explanatory sketch and process description apply.

1 ) shows the conductive gas pipe,
with 2 ) an adjustable plate,
with 3 ) an adjustment mechanism,
with 4 ) a gas velocity meter,
with 5 ) the swirled gas flow is shown.
with 6 ) spray nozzles that inject the dry or semi-dry absorption medium into the gas stream. This is preferably designed with steam and / or compressed air and pressurized water, depending on the type of gas cleaning required and the absorption mass.
with 7 ) the forwarding of the gas enriched with absorbents to a separator, for. B. Tissue filter.

The raw gas that flows through ( 1 ) through the raw gas line is partly led into pipes that are several meters in diameter.

With ( 2 ), according to the invention, an adjustable displacement body in the form of a preferably plate is installed in this pipeline, which, at ( 3 ), can be brought into the appropriate adjustment direction via ( 4 ), via ( 4 ), a gas velocity meter, which, seen extremely, parallel can stand to the walls and in the other extreme case absolutely perpendicular to the gas flow.

This inevitably results in a swirling of the gas flow depending on the gas velocity behind the displacement body ( 2 ). This can of course also be carried out by several plates, which are connected in series, depending on the diameter of the tube.

In the eddy current, the pollutant is e.g. B. HCl, HF, SO ₂ etc. faced with the finely atomized absorption medium hydrated lime, and a high separation performance arises with the slightest pressure loss.

There are no swirl bodies, turntables or other devices that induce the medium pressed in via the nozzles ( 6 ) to cake.

According to the gas velocity, the adjusting device ( 3 ), which is controlled by a gas velocity measuring device, has to adjust the gas impingement device, so that there is always an optimal swirl in the respective gas flow. Depending on the requirements, the arrangement can also be designed according to the invention in such a way that a plurality of displacement bodies which are correspondingly also arranged one behind the other, wherein spray nozzles can also be used behind the displacement bodies.

The pressed-in absorption medium is preferably in the area of blowing with a Steam atomization provided; this is set so that there is always a high relative humidity is set for the appropriate reaction of the injected medium.

Of course, the invention is not limited to that described in detail above and training forms shown are limited, but there are numerous changes possible without deviating from the basic idea, in one with pollutant contaminated gas stream one or more gas velocity dependent Install displacement devices that cause gas swirling and behind the Displacement device in the eddy current already formed or the absorbent be pushed in several times.

Claims (4)

1. A method for separating pollutants from exhaust systems, characterized in that a displacer ( 2 ) via an adjusting device ( 3 ) is arranged in a gas pipe ( 1 ) depending on the gas speed, and nozzles are arranged behind this displacer in the region of the air vortices that form Press the absorption medium into the gas flow. 2. The method according to claim 1, characterized in that one or more adjustable displacer ( 2 ) and one or more adjusting devices ( 3 ) are arranged one behind the other. 3. The method according to claim 1 and 2, characterized in that one or more spray nozzles ( 6 ) are arranged one behind the other. 4. The method according to claim 1 to 3, characterized in that depending on the relative humidity of the gas atomization preferably at the outlet of the Absorption medium for wetting the absorption medium and the gas made becomes.