DE4033353A1 - Waste air purifying system - using oxidn. catalyst to oxidise organic content - Google Patents

Abstract

Process and appts. for purifying air (A) contains organic substances (esp. solvents, binders or paint residues, esp. in particulate form). The novelty is that the air supply line (1) is connected to an oxidn. catalyst (2), pref. via a heater (5) and/or heat exchanger (6). Pref. the air (A) is pref. preheated e.g, to 250 deg. C by a heater (5) and/or a heat exchanger (6) in which it is heated by the purified air (6). Pref. the air (A) is precleaned by a filter (8). The oxidn. catalyst (2) oxidises the organic content of the air (A) to CO2 and H2O. ADVANTAGE - Process has high efficiency and produces little secondary waste, esp. residual solvent or lacquer sludge requiring disposal.

Description

The invention relates to a method for cleaning exhaust air, which is an organic substance, especially solvent, Contains binders or paint residues, especially particles. It it is especially exhaust air from coating systems or spray booths. It also affects an institution for cleaning such exhaust air.

So far, exhaust air with a wet scrubber from organic sub punch, such as solvents, binders or paint residues, exempt. Such wet washers are, for example, vortex washers, cascades scrubber or venturi scrubber. This creates secondary waste, that needs further treatment or disposal. For example remains in the known cleaning process paint sludge.

Dry deposition processes are also known. In doing so Activated carbon filter or filter mats used. With one Process is achieved only a low efficiency. Furthermore there remains a large amount of residues that must be removed.

With the known methods for purifying exhaust air Removal of organic substances, e.g. solution medium, binder or paint residues, only insufficiently guaranteed accomplishes. With low efficiency, residues remain, such as Paint sludges that need further treatment and disposal.

The invention was based on the object of a method for Purification of exhaust air that contains an organic substance specify that works with high efficiency and above Secondary waste largely does not arise. In particular in particular, there should be no solvents or solvents that cannot be removed  Lacquer sludge remain. The invention also had the object to specify a suitable facility with the exhaust air, that contains an organic substance that can be cleaned, without much secondary waste.

The first object is achieved according to the invention by the Solved using an oxidation catalyst.

With the use of such from the flue gas cleaning, e.g. B. from DE-OS 38 26 137, known oxidation catalyst, by oxidizing the substances that are fed to it, the advantage becomes achieved that all organic substances present in the exhaust air zen be converted into harmless and harmless substances. As a result, there is no secondary waste during cleaning back which is a subsequent second cleaning process or Disposal procedures required. All when using one Oxidation catalyst arising substances can be harmless be derived. In addition, the procedure follows the invention achieved the advantage that the exhaust air with a high efficiency can be cleaned. In the exhaust air even Pigments currently present, such as titanium dioxide, accelerate the process catalytic process even.

To carry out the method mentioned, the exhaust air is an example warmed up and then cleaned in the oxidation catalyst. Here the organic substance is oxidized, causing carbon dioxide and Water are formed. A cleaned gas is released.

With the use of the oxidation catalyst, the Advantage achieved that even high molecular weight organic sub punch are split up so far that only carbon dioxide and Water remains.

For example, the exhaust air before it is oxidized catalyst is fed, heated in a heater. There  This ensures that the exhaust air in the oxidation catalytic converter always has the required temperature.

According to another example, the exhaust air is in a heat exchanger heated by the already cleaned gas. It will then a heater is only required in start-up mode external fuel is operated. After the start-up phase is enough the temperature of those already cleaned in the oxidation catalytic converter Exhaust air out to the untreated air in the heat exchanger to preheat. With this method, external becomes advantageous Energy saved.

For example, the exhaust air is fed into the Pre-cleaned oxidation catalyst. This can be done using a filter serve mat. Through this pre-cleaning, rough stock parts of the exhaust air, such as dust, are retained. Damage to the oxidation catalytic converter as a result coarse components are therefore excluded.

For example, the concentration of organic matter measured in the exhaust air and / or in the purified gas. Thereby the effectiveness of the cleaning process can be monitored.

The second task, a facility for cleaning exhaust air specify is achieved according to the invention in that a Exhaust air supply line with an oxidation catalyst ver is bound.

This has the advantage that organic substances, in particular solvents, binders or paint residues, which in the exhaust air can be included, to the extent that can be degraded that no dangerous residues such as B. paint slurry, back stay. The device according to the invention only gives coals dioxide and water.  

For example, the exhaust air supply line is via a Heater connected to the oxidation catalyst. In this The heater, which is operated with external fuel, becomes the Exhaust air heated to a temperature necessary for the function of the Oxidation catalyst is required. A suitable tempe temperature is, for example, 250 ° C.

Another example is the exhaust air supply line via a secondary side of a heat exchanger with an input connected to the oxidation catalyst and the output of the Oxidation catalyst is the same with a primary side Heat exchanger connected. This has the advantage that the hot gas already cleaned in the oxidation catalytic converter can serve to heat the still unpurified exhaust air.

At least in the start-up mode is in addition to the heat exchanger Heater necessary, which is operated with external energy. If hot, purified exhaust air is present as the purified gas, is sufficient for preheating the exhaust air of the heat exchanger and the start-up heater can be switched off. So you come with little external energy.

For example, there is a blower in the exhaust air supply line arranged so that the throughput through the plant can be increased can. A filter can also be installed in the exhaust air supply line be ordered, the solid components, such as dust particles, that could hinder the operation of the oxidation catalyst, can hold back.

To monitor the functioning of the system according to the Invention, the exhaust air supply line and the outlet of the oxidation catalyst with concentration measuring devices be connected. This can advantageously be the concentration decrease for pollutants in the exhaust air be monitored. A concentration measuring device can also  only at the outlet of the oxidation catalyst or only in the Exhaust air supply line can be arranged.

With the method and with the device according to the invention In particular, the advantage is achieved that exhaust air, the one organic substance, especially solvent, binder or paint residues, contains, with high efficiency quickly and can be cleaned reliably without secondary waste, such as for example, paint sludge, which is treated further should be.

The method and the device according to the invention explained in more detail with reference to the drawing.

The drawing shows a device for cleaning exhaust air according to the invention.

An exhaust air supply line 1 for exhaust air A is connected to the input of an oxidation catalytic converter 2 . At the output of the oxidation catalyst 2 , a gas discharge line 3 for purified gas G is connected, which ends at a gas outlet 4 . From the air supply line 1 , the oxidation catalytic converter 2 is switched on, a heater 5 is present, which is operated with external fuel. With this heater 5 , the exhaust air A to be cleaned is heated to the operating temperature of the oxidation catalytic converter 2 . The primary side of a heat exchanger 6 is located in the gas discharge line 3 . The secondary side of this heat exchanger 6 is located in the exhaust air supply line 1 . After a time period sufficient to drive the temperature of the air flowing into the gas outlet 3 purified gas G, to heat the approximate line in the Abluftzufüh 1 flowing air A in the heat exchanger. 6 The heater 5 then only needs to serve as a start-up heater and can be switched off while the system is running. In the exhaust air supply line 1 , a fan 7 is arranged to increase the flow rate of the exhaust air A. To pre-clean the exhaust air A, in particular to remove solid dust particles, there is a filter 8 at the entrance to the exhaust air supply line 1 . In order to be able to monitor the cleaning effect of the system, a first device 9 is arranged in the gas discharge line 3 . A second concentration measuring device 10 can be arranged in the exhaust air supply line 1 . Both concentration measuring devices 9 and 10 are connected via control lines 11 and 12 to an evaluation device 13 . This evaluation device 13 can be connected to a control device, not shown.

To carry out the cleaning method according to the invention, the exhaust air A to be cleaned can first be cleaned in the filter 8 . It can also be accelerated by the blower 7 in the exhaust air guide line 1 . The second concentration measuring device 10 allows the concentrations of organic substances in the exhaust air A to be cleaned to be determined. The exhaust air A passes through the heat exchanger 6 and the heater 5 into the oxidation catalytic converter 2 . In the heater 5 , the exhaust air A is heated with external energy to the operating temperature of the oxidation catalyst 2 , which is for example 250 ° C. In the heat exchanger 6 , the exhaust air A is preheated after the start-up phase of the system by the hot, cleaned gas G, which leaves the oxidation catalyst 2 . For this purpose, the gas discharge line 3 of the oxidation catalytic converter 2 is routed via the primary space of the heat exchanger 6 . From the secondary space of the heat exchanger 6 from the air supply line 1 is guided.

To determine the concentration values of the organic substances in the exhaust air A and in particular in the purified gas G which leaves the oxidation catalyst 2 , the concentration of these substances in the exhaust air supply line 1 and in particular in the gas discharge line 3 is determined and evaluated by concentration measuring devices 9 , 10 .

With the method and with the device according to the invention exhaust air A containing organic substances is treated as far as possible nigt that the cleaned gas G can be released safely. For example, the cleaned gas G cannot yet do so shown dryer are supplied.

Claims (13)

1. A method for purifying exhaust air (A) which contains an organic substance, in particular solvents, binders or paint residues, in particular particles, characterized by the use of an oxidation catalyst ( 2 ). 2. The method according to claim 1, characterized in that the exhaust air (A) is heated and then cleaned in the oxidation catalyst ( 2 ), in which the organic substance is oxidized, whereby carbon dioxide and water is formed, and that the oxidation catalyst ( 2nd ) a cleaned gas (G) is released. 3. The method according to any one of claims 1 or 2, characterized in that the exhaust air (A) is heated in a heater ( 5 ). 4. The method according to any one of claims 1 to 3, characterized in that the exhaust air (A) in a heat exchanger ( 6 ) is heated by the already cleaned gas (G). 5. The method according to any one of claims 1 to 4, characterized in that the exhaust air (A) is pre-nosed prior to feeding into the oxidation catalyst ( 2 ). 6. The method according to any one of claims 1 to 5, characterized in that the conc tration of the organic substance in the purified gas (G) ge will measure.   7. The method according to any one of claims 1 to 6, characterized in that the conc tration of organic matter in the exhaust air (A) is measured. 8. Device for cleaning exhaust air (A), which contains an organic substance, in particular solvent, binder or paint residues, in particular particles, characterized in that an exhaust air supply line ( 1 ) is connected to an oxidation catalyst ( 2 ). 9. Device according to claim 8, characterized in that the exhaust air supply line ( 1 ) via a heater ( 5 ) with the oxidation catalyst ( 2 ) is connected. 10. Device according to one of claims 8 or 9, characterized in that the exhaust air supply line ( 1 ) via a secondary side of a heat exchanger ( 6 ) is connected to an input of the oxidation catalyst ( 2 ), and that an output of the oxidation catalyst ( 2 ) is connected to a primary side of the heat exchanger ( 6 ). 11. Device according to one of claims 8 to 10, characterized in that a fan ( 7 ) is arranged in the exhaust air supply line ( 1 ). 12. Device according to one of claims 8 to 11, characterized in that a filter ( 8 ) is arranged in the exhaust air supply line ( 1 ). 13. Device according to one of claims 8 to 12, characterized in that the Gasab line ( 3 ) and / or the exhaust air supply line ( 1 ) with a concentration measuring device ( 9 , 10 ) is / are.