DE4116348A1 - Exhaust gas treatment system to remove acidic components - has airflow controlled heat exchangers to condense out components and reheat gas for expulsion through chimney - Google Patents

Abstract

The exhaust gasses are passed through a first heat exchanger (3) through which fresh air is blown, to cool the gasses to below the dew point and thereby condense out acidic components and moisture. The treated gasses are then passed through a second heat exchanger (5) heated by the now warmed fresh air flow to raise the temperature to above the dew point. This enable the gasses to be treated through an electrostatic filter (1) before passing up the chimney stack (2). Some of the cooling of the gasses can be via another, third, heat exchanger (7) for space/water heating uses. The heat exchangers have glass/enamel surfaces. ADVANTAGE - Removes acidic components to prevent damage to electrostatic filters, energy saving heating.

Description

The invention relates to a plant for the treatment of a Flue gas flow, the water vapor and sulfur dioxide with leads and via an electrostatic precipitator or other corrosion-sensitive system parts in a flue gas fireplace is released. - Such flue gas flows fall into process engineering, especially behind Shaft furnace systems in which so-called calcium carbonate Quicklime is produced. In the electrostatic precipitator takes place in accordance with the legal regulations Separation of the fine-grained pollutants takes place.

In the system known from practice the input be written construction, from which the invention is based, zei in the electrostatic precipitator or in other cor sensitive to corrosion, acted upon before the flue gas flow Parts of the plant often show signs of corrosion Lifespan of the electrostatic precipitator or the relevant one Reduce system parts, make repairs necessary and thus affect the overall availability of the system The corrosion phenomena are based on the well-being knew acid condensation, if and as far as in the electrical filter system a cooling of the flue gas flow to below the acid dew point takes place. Sulfurous ones fall Acid and / or sulfuric acid.

The invention has for its object a system of training described above so that disturbing signs of corrosion in the electrostatic precipitator location or in other parts of the system that are sensitive to corrosion no longer occur.  

The object of the invention is to achieve this object Plant for the treatment of a flue gas stream, the What carries along steam and sulfur dioxide and via an electric filter system or other corrosion-sensitive systems parts are released into a flue gas fireplace, - with a upstream condensation heat exchanger, its smoke gas contact surfaces made of glass and / or glass ceramic and / or Enamel and / or acid-resistant plastic, an outflow side downstream in the flue gas flow Warming heat exchanger, a device for introduction of fresh air with ambient temperature as a coolant in the condensation heat exchanger and a device for Introduction of the in the condensation heat exchanger heated air as a warming agent in the warming heat exchanger, the flue gas flow with a temperature above its acid dew point in the condensation heat exchanger is introduced and in this on a tempe temperature can be cooled below the acid dew point, - and from the condensation heat exchanger sulphurous acid and / or Sulfuric acid is removable, and being the cooled Flue gas flow in the heating heat exchanger to one Temperature above the acid dew point can be heated before he into the electrostatic precipitator or other corrosion sensitive plant parts occurs. - Be without difficulty is within the scope of the invention, the possibility of feeling recover heat from the flue gas flow. Is to according to the invention in the flue gas stream before the condensation heat exchanger to a heat recovery heat exchanger ordered, the smoke gas contact surfaces also made of glass and / or glass ceramic and / or enamel and / or acid permanent plastic, in which the flue gas up to a temperature above the acid dew point can be cooled.

According to a preferred embodiment of the invention  Condensation heat exchanger and / or heat recovery heat exchanger with glass panes as heat exchange surfaces equipped. It is recommended to use between the heat recovery recovery heat exchanger and the condensation heat exchanger to arrange a flue gas duct, the flue gas contact surfaces made of glass and / or glass ceramic and / or Has enamel and / or plastic.

In the feature that in the condensation heat exchanger Flue gas flow to a temperature below the acid dew point can be cooled, there is an instruction according to the invention solution, the condensation heat exchanger taking into account supply of the flue gas volume flow and the fresh air volume electricity, which serves as a coolant, according to the rules of Inge to be dimensioned accordingly. That also applies to that Feature that single in the heat recovery heat exchanger Lich a limited cooling should take place so that the temperature in the flue gas stream is still above the Acid dew point. If nonetheless inventive according to the heat recovery heat exchanger flue gas tactile surfaces made of glass and / or glass ceramic and / or enamel and / or plastic, then because in normal Operation of such a system for a whole year with the corresponding climate fluctuations are not always excluded can be sen that also in the heat recovery heat an acid condensation takes place and consequently also deducted sulfurous acid and / or sulfuric acid Need to become. The sensible warmth recovered can for example in the heat recovery heat exchanger Industrial water are delivered. The air that the warming heat Exchanger can be used as service air, for example for heating purposes.  

The advantages achieved are summarized in that the system of the invention disruptive corrosion no longer appear in the electrostatic precipitator to step. Increasing the overall availability of the facility and their lifespan are significantly improved. in the the invention also makes a valuable contribution for environmental relief, because when operating a fiction appropriate plant with the acid condensation of the flue gas flow is also desulfurized.

In the following, the invention is based on only one Embodiment representing drawing in more detail explained. Show it

Fig. 1 shows the diagram of a plant according to the invention without Wär merückgewinnungs heat exchanger,

Fig. 2 shows the diagram of a heat recovery heat exchanger that can be connected upstream of the system according to FIG. 1.

The system shown in the figures is used for the treatment of a flue gas stream that carries water vapor and sulfur oxides and is released via an electrostatic filter system 1 into a flue gas fireplace 2 . In the schemes of Figs. 1 and 2 of the flue gas stream has been illustrated by wide cross-hatched arrows.

The basic structure of the system includes an inflow-side condensation heat exchanger 3 , the smoke gas contact surfaces 4 of which consist of glass and / or glass ceramic and / or enamel and / or acid-resistant plastic, a downstream heat exchanger 5 in the flue gas stream, a device 6 for on Management of fresh air with ambient temperature as a coolant in the condensation heat exchanger 3 and a device for introducing the air heated in the condensation heat exchanger 3 as a heating medium in the heating heat exchanger 5 . These air flows have been represented by narrower, non-hatched arrows.

The temperatures entered indicate that the flue gas stream is introduced into the condensation heat exchanger 3 at a temperature above its acid dew point. It is cooled to a temperature below the acid dew point. From the condensation heat exchanger 3 sulphurous acid and / or sulfuric acid can be removed due to the condensation. The cooled flue gas stream enters the heating heat exchanger 5 . It is warmed to a temperature above the acid dew point here before it enters the electrostatic precipitator system 1 .

Looking at FIG. 2, one can see a heat recovery heat exchanger 7 . The arrangement of the figures in the drawing sheet is such that it can be seen that this heat recovery heat exchanger 7 is arranged in the flue gas stream before the condensation heat exchanger 3 . The flue gas contact surfaces 8 also of the heat recovery heat exchanger 7 also consist of glass and / or glass ceramic and / or enamel and / or acid-resistant plastic. Here the flue gas flow can be cooled down to a temperature above the acid dew point. Sulphurous acid and / or sulfuric acid can be removed from the heat recovery heat exchanger 7 . The sensible heat may be given off to process water, which enters and exits the heat recovery heat exchanger 7 as illustrated by the hatched arrows. The condensation heat exchanger 3 and the heat recovery heat exchanger 7 are expediently equipped with glass panes as flue gas contact surfaces 4 and 8 and thus as heat exchange surfaces. Between the heat recovery heat exchanger 7 and the condensation heat exchanger 3 , a gas recirculation line 9 may be arranged, which has flue gas contact surfaces 10 made of glass and / or glass ceramic and / or plastic. - The temperatures shown correspond to a design of the system for flue gas drying behind a shaft furnace system for the production of quicklime, whereby the flue gas stream emerges from this shaft furnace system at a temperature of about 70 ° C.

Claims (5)

1. system for the treatment of a flue gas stream which carries water vapor and sulfur dioxide and is discharged into a flue gas chimney ( 2 ) via an electrostatic filter system ( 1 ) or other corrosion-sensitive system parts,

• - With
  an upstream condensation heat exchanger ( 3 ), the flue gas contact surfaces ( 4 ) of which are made of glass and / or glass ceramic and / or enamel and / or acid-resistant plastic,
  an outflow-side heating heat exchanger ( 5 ) connected downstream in the flue gas stream,
  a device ( 6 ) for introducing fresh air at ambient temperature as a coolant in the condensation heat exchanger ( 3 ) and
  a device for introducing the air heated in the condensation heat exchanger ( 3 ) as a heating means into the heating heat exchanger ( 5 ),
  the flue gas stream is introduced into the condensation heat exchanger ( 3 ) at a temperature above its acid dew point and can be cooled therein to a temperature below the acid dew point, and - sulphurous acid and / or sulfuric acid can be drawn off from the condensation heat exchanger ( 3 ), and wherein the cooled flue gas stream in the heating heat exchanger ( 5 ) can be heated to a temperature above the acid dew point before it enters the electrostatic filter system ( 1 ) or other corrosion-sensitive system parts.

2. Plant according to claim 1, wherein a heat recovery heat exchanger ( 7 ) is arranged in the flue gas stream before the condensation heat exchanger ( 3 ), the flue gas contact surfaces ( 8 ) also made of glass and / or glass ceramic and / or enamel and / or acid-resistant Plastic exist in which the flue gas can be cooled down to a temperature above the acid dew point. 3. Plant according to one of claims 1 or 2, wherein the condensation heat exchanger ( 3 ) and / or the heat recovery heat exchanger ( 7 ) with glass panes as heat exchange surfaces ( 4 , 8 ) are equipped. 4. Plant according to claim 2, wherein between the heat recovery heat exchanger ( 7 ) and the condensation heat exchanger ( 3 ) a flue gas conduit ( 9 ) is arranged, the flue gas contact surfaces ( 10 ) made of glass and / or glass ceramic and / or enamel and / or plastic. 5. Use of the system according to one of claims 1 to 4 for smoke gas drying behind a shaft furnace lay for the production of quicklime from which a smoke gas flow at a temperature of about 70 ° C is deductible.