DE2538187B2 - METHOD FOR WET DUST DUSTING OF GASES - Google Patents

Description

The invention relates to a method for wet dedusting gases, for example exhaust gases the drying oven of an asphalt factory. The efficiency of such dust extraction systems is now However, it becomes a problem because, for the sake of environmental protection, the provisions regarding the Dust removal are constantly tightened.

In the usual wet dedusting systems, washing water is sprayed into the exhaust gas, with the fine Water droplets condense on the dust particles in the exhaust gas and drip off with them. That emerges from it resulting muddy water is led into a sedimentation tank, in which the dust particles are can settle and be removed, using the water remaining in the container as washing water again is used.

With the conventional wet dedusting systems, it cannot be avoided that in the spray water contained dust particles are not completely in the sedimentation tank, at least after a few hours of operation collect, but partly remain in the wash water. As a result, there are also dust particles in the fine droplets of wash water sprayed from the nozzle, causing the Dust separation ability is decreased compared with the case in soft perfectly clean washing water is sprayed. When the temperature of the exhaust gas is high, the washing water is partly turned into steam transformed and emitted together with the exhaust gas into the air, with the dust particles in this vapor Increase the amount of dust emitted into the atmosphere.

In addition, the dust particles contained in the recycled washing water cause one Wear in the recirculation system pump and / or spray nozzle, or they remain inside the pump or the nozzle or hang in the washing water inflow line, whereby the flow cross-section reduced and the separation of dust is impaired with the result that it is released into the atmosphere the amount of dust emitted is increased.

The invention is based on the problem of the previously described disadvantages of conventional wet dedusting systems r.u and to create a wet dedusting process in which the amount of dust emitted into the atmosphere is reduced by being in the dust sludge water contained dust particles can settle effectively in the h.s sedimentation container, which prevents that dust particles remain in the recirculated water and the effectiveness and service life the pump and the nozzle.

This object is achieved according to the invention in that the sludge water containing the dust particles brought to a pH value between 6.0 and 8.0 and then mixed with a coagulation reagent

This causes the dust particles in the muddy water to coagulate and become practical completely settle in the sedimentation container, while the clean remaining in the sedimentation container Water is fed back through a recirculation system to the nozzle to return in as wash water to be injected into the gas stream.

Two embodiments of a device for performing the method according to the invention are described below with reference to the drawings. It shows

Fig. 1 is a schematic representation of a first device and

2 shows a schematic representation of a second device.

Reference is first made to FIG. 1, in which 1 denotes the wet dedusting system is, which has a chamber 4 into which a port 2 opens, through the dust-laden exhaust gas into the Chamber 4 is introduced. In the chamber 4 there are one or more nozzles 3 in one plane or in several Arranged levels through which the washing water is sprayed into the exhaust gas. From chamber 4 goes a chimney 5 through which the cleaned exhaust gas can escape into the atmosphere. Through a Outlet 6 can drain the sludge water into a sedimentation tank 7, which is through an overflow with a Reservoir 8 is connected, into which the washing water after the dust pariticles have settled in the container 7 can overflow. The washing water return system 9 has a line 10 for connecting the Reservoir 8 with the nozzle 3 and a pump 11 in the line 10. With 12 is a supply system for a coagulating reagent is designated, which has a container 13 for the reagent, which is fed to a nozzle 15 by a pump 14. The pump 14 is preferably capable of delivering a fixed amount of coagulating reagent. The nozzle 15 is preferably arranged so that it brings the coagulating reagent into the sludge water between the outlet 6 and sprayed into the settling tank 7, as shown in FIG. 1, or directly into the chamber 4 or else directly into the sedimentation tank 7.

Through the coagulation reagent that is sprayed into the sludge water loaded with the dust particles is achieved, in a manner to be described later, that the dust particles become larger Accumulate flakes, which sink to the bottom in the sedimentation tank 7 and are pumped out in a simple manner can be.

In Figure 2, however, there is a separate vessel 16 provided, in which coagulating reagent from the container 13 via the pump 14 through the nozzle 15 is sprayed in and which is arranged between a further mixing tank 17 and the settling vessel 7. In the tank 17 adjusts the pH of the sludge water according to the coagulation reagent used set, by supplying a corresponding reagent from the tank 18 via the nozzle 19. In the tank 17 and in the container 16 agitators 20 are provided. A sludge pump 21 in the settling tank 7 pumps the sludge out and transports it to the outside.

The in F i g. 2 works like

follows: The dust that is generated in a drying oven of an asphalt factory is introduced with the exhaust gas through the drying system of a cyclone and by means of an exhaust gas fan into the dust washing and collecting chamber 4. Within the chamber 4 Waschwas- is' ser sprayed from the nozzles 3, and the dust-laden exhaust gas is mixed with the fine water droplets, where the fine water droplets condense on the dust particles to drop or the dust particles and the water droplets zusammensto- "Ben and Form droplets which fall to the bottom of the chamber 4, while the dust-free exhaust gas can escape through the chimney 5 into the atmosphere. The sludge water collecting at the bottom of the chamber 4 is passed through the outlet 6 into the tank 17, where a sufficient amount of a neutralizing reagent from the tank 18 and the nozzle 19 is added and stirred with the aid of the stirrer 20, thereby increasing the pH value of the sludge water is brought to the desired value. This: neutralization process serves to improve the coagulation effect of the coagulation reagent and at the same time to prevent corrosion in the washing water recirculation system 9 and the entire dust washing and collecting system 1, since in many cases the exhaust gas caused by the combustion of heavy oil in the drying oven the asphalt factory was produced, contains large amounts, for example of sulfur oxides SO χ), which are mixed with the fine water droplets in the chamber 4 and cause an acidification of the muddy water. In other cases the mud water is basic, for example with limestone. The pH to be set varies according to the type of coagulation reagent used, but is between 6.0 and 8.0. After the pH has been adjusted, the sludge water is transferred, for example through an overflow, from the neutralization tank 17 to the coagulation mixing tank 16, into which a suitable amount of coagulation reagent is introduced from the tank 13 through the nozzle 15 by means of the pump 14 and into which this is Reagent is thoroughly mixed with the sludge water by the agitator 20.

Any useful coagulation reagent, such as inorganic in nature, can be used, but particularly effective effective results are obtained from high molecular weight coagulation reagents. The dust particles in the muddy water are charged with a minus ion, and they adhere to the surface of the H ₂ O molecules with a plus ion in the water. Without agglomerating to flakes through direct contact, these fine dust particles persist in the form of colloidal particles and do not completely settle out. By using the coagulation reagent, the negative ion of the dust particles is neutralized, whereby the dust particles come into direct contact with each other and can form flakes which settle very quickly. In the case of a high-molecular coagulation reagent, the additional effect is achieved that it bridges larger distances between dust particles and thereby causes the flakes to become larger. After uniform mixing with the coagulation reagent, the sludge water is transferred, for example through an overflow, from the mixing tank 16 into the settling tank 7, in which the dust particles begin to settle immediately. In the process, even the finest dust particles are deposited, the natural sedimentation of which was previously difficult. The deposited particles can coagulate to form larger structures.

The clean water generated due to the sedimentation of the dust particles flows into the storage tank 8 over and from there through the recirculation system 9 by means of the pump 11 again the nozzles 3 in the Dust washing and collecting chamber 4 supplied. The deposited dust particles in the form and flakes are removed from the settling tank 7 by the sludge pump 21.

By the invention, the dust particles in the muddy water are forced to coagulate and to settle, as described, so that not only the fine dust particles that have not so far been settle by themselves, but also settle all other dust particles in the muddy water, As a result, a very high level of efficiency in dust separation can be achieved, ι A particular advantage of the invention is that the washing water that is from the settling tank Nozzle is fed again, does not contain any dust particles, which is proven by the fact that none Dust particles can be found in the part of the wash water which, due to the high temperatures of the in the Chamber 4 introduced exhaust gas evaporates and together with the cleaned exhaust gas into the atmosphere is discharged.

Since no dust particles are contained in the washing water ο that is discharged from the sedimentation tank Spray nozzle is fed, the wear and tear in the circulation pump and the spray nozzle decreased. Due to the neutralization of the electrical potential of the dust particles, they will too prevented from laying on the inner surface of the pump, nozzle and pipeline, as opposed to usual dust separation systems, whereby the circulation pump work with high efficiency and the can maintain the best spray conditions for the wash water. At the same time, the cost of Replacement or repair of the spray nozzle, the pump and the pipeline can be reduced to a minimum.

Since the dust particles in the sedimentation tank due to the use of the coagulation reagent in In the form of flakes, the dust particles can very easily be pumped out using a sludge pump while the dust separation is taking place, while it is with the usual dust separation systems it was necessary to shut down the system, drain the water contained in the sedimentation tank and the To remove deposits of dust particles by means of a scoop and / or the like.

As previously mentioned, organic and inorganic coagulants can be used, and > Admittedly also non-ionizing and cation coagulants.

example

An exhaust gas with a dust content of 0.8 to 2.0 g / m ³ , ο composed of about 50% by weight of particles below 5 μm, about 30% by weight of particles between 5 and 10 μm and the remainder of particles above 10 μπι composed, was treated in a dedusting chamber with water, after which the exhaust gas with a residual dust content of 0.1 to a maximum of 0.2 g / m ³ (particle size consistently below 5 μηι) could escape, while the sludge water, which has a pH value from 2.5 to 3.5, initially by adding 1.5 to 3 l / m ^{3 of} water of a 4% ash lime dump

J ₅

solution was brought to a pH of 7. The mud water neutralized in this way was then absorbed Coagulation reagent in the form of a 500 ppm solution of polyacrylamide and an amount of 1.5 to 3 l / m ' added. The coagulation reagent caused the dust particles to clump together to form larger! " which settled immediately, so that the water could be reused after settling without Uniform wear or clogging of the pipes, pumps or nozzles cause too can.

Hicivii 1 HInIi drawings

Claims (1)

Claim: Process for wet dedusting of gases, whereby in a gas stream laden with dust particles Water is sprayed in and the water laden with dust particles is fed to a sedimentation tank from which the water is sprayed back into the gas flow in a recirculation system is characterized in that the sludge water containing the dust particles brought a pH between 6.0 and 8.0 and then added a coagulation reagent will.