DE3700608A1 - Method and apparatus for processing slag - Google Patents

Abstract

The slag which occurs in refuse incineration installations is for the most part passed on for commercial utilisation in that, after passing through the quenching bath, the pre-classification and the magnetic separation, the entire slag is first of all, dried and at the same time subjected to continuous loading, in order to be subsequently separated at preferably 0.8 mm. The coarse-grained fraction is used for highway engineering and road building purposes or the like, while the fine-grained fraction (approximately 25%) is landfilled and thereby deposited in an environmentally friendly manner, preferably by inclusion in environmentally friendly material. The largest fraction by far can thus be commercially utilised in an appropriate deposit and thus in a manner which protects the environment. The method is carried out on an apparatus which has a tube drier (6) which is arranged between a magnetic separator (2) and a conveyor belt (4) and which ensures, by means of appropriate fittings (16, 17, 19), an intensive blending of the slag (24) during the drying operation. <IMAGE>

Description

The invention relates to a method for processing of the slag generated in waste incineration plants, the in addition to and released during combustion filtered dust accumulates and separated in a water bath quenched and then stripped of metal parts and deposited is, due to the starting fuel contains the amount of pollutant that requires special deposition. The invention also relates to a device for Processing waste incineration slag and thus for Implementation of the procedure with classifying sieves and one Magnetic separator and a downstream conveyor belt.

Slag generated in waste incineration plants contains pollutants depending on the starting material Use in road construction or for similar purposes makes impossible. Because of the changes in the source material for example, in the state of Hesse, to allow deposition only on special landfills. Therefore substantial requirements are imposed, with others Federal states these special provisions for deposition want to take over from waste incineration slag. So that will the effort for the disposal of waste incineration plants significantly increased and the entire waste incineration process significantly burdened. The reason for this is that the in the Slag from the waste incinerators contained harmful Substances detached from the surface water and washed off can be so that they get into the groundwater where they pollute drinking water and process water production or make it impossible. To determine these replacements and Wash-offs are so-called eluate tests made in the case of waste incineration slag  have shown that, for example, the values for the Conductivity, for lead, antimony and the COD value be crossed, be exceeded, be passed. It must be assumed that in the future, the values considered to be permissible also for nitrate, Nitrite, sulfate, phosphate, chloride, calcium, magnesium, iron, Arsenic, cadmium, copper, nickel, chromium, zinc and the like a. continue be withdrawn.

The amount of incineration plants Slag is still increasing, but already the 5 million Has reached the annual ton limit, it is problematic for these huge quantities of special landfills alone To make available, quite apart from the fact that it is a would cause significant cost avalanche. When burning of the garbage, the resulting dust is suctioned off and in Filter or caught in a flue gas wash and then deposited. Because of the fine grain of this Dust is expedient, regardless of the slag to treat, transport and deposit.

The invention is based, in Waste incineration plants produce slag if possible supply economic recovery and only on The proportion of hazardous waste landfill that can be deposited should be as small as possible hold.

The object is achieved in that the slag dried after the magnetic separation and thereby continuously mixed and agitated, then at 0.5 to 1 mm, preferably classified 0.8 mm and then only the rough Component utility is fed while the fine Component is finally deposited.

With the help of such a method it is Surprisingly possible, a relatively large amount of the slag to be put to commercial use during the  proportion to be deposited in hazardous waste landfills is small. Approximately 3/4 of the slag can be used economically are fed and according to a practical training as an additive for road and path construction or for Ash concrete can be used. It is not an advantage only the discharge of the slag disposal or the whole Waste incineration, but also the fact that through the Use of the vast majority of the slag for Consolidation measures, road construction purposes, etc. natural Deposits can be spared, so that at the same time a significant contribution to environmental protection is made. This is possible because the proportion of slag from which the pollutants are washed out to a dangerous degree can be separated by the selected cut. All these components are separated in that through the targeted treatment of the material during drying a material to be classified accordingly Available. During the drying process, the Slag so stressed that even baked goods Fine material is removed so that after the subsequent Classification in the rough component really only such Material is available which is necessary for leaching Opposed resistance.

After further appropriate training, the Portion over 0.8 mm further at 2 to 3 mm, preferably 2.6 mm classified and the grain 0.8 to 2.6 mm packed in bags and used as a spreader in winter, while the Component over 2.6 mm for those already mentioned above Purposes is provided. This also represents one environmentally friendly use since the slag in winter Makes roads and paths safe as desired, on the other hand but recovered later and either again can be used or deposited while the Scattering agents causing the environment to remain and burden at least for a long time. Suitable as a grit  the component between 0.8 and 2.6 mm is also why especially good because it's a pretty sharp one Material that is in the snow and on the ice stipulates that the spreading agent even under the most unfavorable Circumstances can fully perform its function.

The fine-grained portion must still be in the Waste incineration plants Hazardous waste landfills to be deposited. To do this too avoid and instead deposit on normal Allowing landfills will, according to the present Invention provided that the fine-grained fraction 0 to 0.5 (1.0) mm with a detachment and washout material that aggravates or hinders harmful substances mixed and then permanently deposited. Suitable for this cement, but also other materials or even waste products that together with the fine-grained Slag form such an intimate connection that Washouts are not possible. This includes, for example so-called red mud. The advantage here is that a such mixture can be brought to normal landfills, therefore represents a much lower cost factor. The fine-grained portion is included in a separating cut 0.8 mm (1.0 mm) at 20 to 25% of the total amount in Waste incineration plants producing slag. Do it a corresponding cheaper deposit this Share also clearly noticeable.

To make the fine grain fraction as complete as possible from the coarse To be able to separate the portion is provided according to the invention, that the slag is dried to 1% residual moisture. A such drying makes it possible with the corresponding targeted treatment of the slag in the dryer or during of the drying process, all fine components of the Separate slag so that when classifying then incurred separately and then as mentioned  be treated while the rough component is used for economic purposes.

The fine-grained particles of the slag can advantageously separated if they continue to gently 100 ° C to be dried. Then already during transport the desired separation because the fine-grained Dry slag particles faster than the coarse particles. It is particularly advantageous to over the slag at 100 ° C. Dry for 0.5 to 2 hours, preferably 1 hour. It shows that at 1 hour drying a sufficiently clear classification is possible, even if the Drying process afterwards not necessarily 100% must be completed. But it is enough if and how already mentioned above, especially on the larger ones Particles adhering fine-grained particles in the frame dry the intended one-hour drying so far that they can then safely separate or win are.

A device is used to carry out the method, an active one between the magnetic separator and the conveyor belt Pipe dryer arranged with a downstream screening screen and a second conveyor belt at the screen overflow is subordinate, so that it is bunkered or equal to can be used during the Sieve passage to the special landfill or as above described after appropriate encapsulation to normal Landfills is brought. While so far with such Place the classifying screen in front of the magnetic separator in the has been used essentially, especially rough Enduring constituents will now be a magnetic separator Tube dryer and then an additional classifying sieve subordinate, about the targeted treatment of itself moist slag is possible. The targeted treatment takes place in the tube dryer insofar as the slag is here  is mixed intensively and possibly even shaken to in the case of the downstream classifying sieve, then really one to enable the most accurate separation possible. With the term exact cut is meant that the Sieve overflow a firm, no caking u. more containing grain should contain. Such a grain sets a possible leaching against the necessary resistance and can therefore be used for all possible economic purposes can be used without danger.

The necessary mixing of the in the tube dryer located slag material according to the invention ensured that the tube dryer is arranged at a distance, protruding from the inner wall in the direction of the axis Carrier plates or an open screw. over the drive plates or the screw becomes the material raised each time the tube dryer rotated and then falls on the inner wall or on the Slag layer so that during passage through the Tube dryer the complete drying of the material and the detachment of the fine grain is already achieved.

After a further appropriate training that Classifying sieve on an exchangeable sieve bottom, so that necessary in accordance with the inventive method adjustment just inserted a new sieve plate must be in order to raise or lower the classification limit. To reduce the drying time and the The overall classification process is to improve further training provided that the sieve trays of Classifying sieve are designed to be heated. This will the slag also during the classification process on one certain temperature and the formation of caking prevented so that the classification quickly and flawlessly can be carried out.  

The invention is characterized in particular by that with the help of the method according to the invention by far most of the waste generated in waste incineration plants Slag does not have to be sent to hazardous waste landfills, but rather a more or less economical one Can be used. Because of the high cost for the hazardous waste landfill, there is a lot broader range of uses for the correspondingly coarse Component of the slag. In addition, it is also possible the fine-grained and dangerous according to eluate tests To change or shape the part so that it is quite open normal landfills can be deposited, which also a significant reduction in costs is achieved. The The device according to the invention is characterized in that that they without great mechanical and control effort ensures a proper treatment of the slag.

Due to the special training of the dryer is above all a complete and accurate separation of the environment hazardous slag possible.

The present invention is described below with reference to Examples explained.

In addition, are for explanation the inventive device embodiments in included the figures.  

Example I

Example II

The slag coming from the waste incineration plant is fed in via the feed belt ( 1 ) and first passed through the magnetic separator ( 2 ). Here the metal parts are separated and fed to the metal collector ( 3 ).

The slag, which is then cleaned of metal parts, is loaded into containers ( 5 ) via the conveyor belt ( 4 ) and fed from there to the special landfills. As the figure shows, between the magnetic separator ( 2 ) and the conveyor belt ( 4 ) there is also a tube dryer ( 6 ) and a classifying sieve ( 7 ), through which special treatment of the MV ash is carried out. The sieve bottom ( 8 ) of the classifying sieve ( 7 ) can be replaced so that, depending on the circumstances, ie the efficiency of the combustion and the starting material, or taking both variables into account, the classification limit can be adjusted.

As before, the sieve passage ( 9 ) is loaded into the container ( 5 ) via the conveyor belt ( 4 ) and fed to this special landfill. A cover ( 14 ) ensures that the very fine-grained material cannot be blown away during removal.

The screen overflow ( 10 ) is transferred to the conveyor belt ( 11 ) and distributed by it into the bunkers ( 12, 13 ) in order to be used for different purposes. Here it is also possible to provide further screening stations, that is to say classifications, by means of which adaptation to the requirements of the respective use is possible without great effort.

Figs. 2 and 3 show specific configurations of the tube drier (6). According to Fig. 2, a continuous driving plate ( 16, 17 ) is provided on the inner wall ( 15 ), via which the slag ( 24 ) is continuously conveyed in the direction of discharge. Instead of the continuous driving plate ( 16, 17 ), it is also conceivable to provide driving plates consisting of individual pieces, with both designs ensuring that the slag is raised and then thrown back onto the inner wall in order to prevent the caking on the Detach slag and get a perfect grain over 0.8 mm.

Fig. 3 shows an embodiment in which a screw ( 19 ) is provided on a continuous axis ( 18 ), which takes care of the further transport and the corresponding mixing and stressing of the slag. Via the entry ( 20 ) in the area of the drive ( 21 ), the slag ( 24 ) is introduced into the tube dryer ( 6 ) and then conveyed as described above through the continuous screw ( 19 ) in the area of the final cover plate ( 23 ) and Discharge ( 22 ) to be transferred to the conveyor belt, not shown here. The closed configuration of FIG. 3 makes it possible to introduce hot air into the tube drier (6) and thereby, so that an advantageous additional mixing of the slag is possible advantageously opposite to the conveying direction of the slag by the warm air. Otherwise, both in the embodiment according to FIG. 3 and FIG. 2, indirect drying would be available, in which the heat is supplied either through the axis ( 18 ) and / or via the wall ( 25 ). For the sake of simplicity, however, the two figures shown do not show any further details.

Claims (11)

1. A process for the preparation of the resulting in waste incineration slag, which additionally obtained for released during the combustion and filtered out dust and quenched separated in a water bath and then freed from metal parts and deposited, wherein it comprises a special deposition requiring emission quantity due to the starting fuel material, characterized characterized in that the slag is dried after magnetic separation and continuously mixed and agitated, then classified at 0.5 to 1 mm, preferably 0.8 mm and then only the coarse component is used for purposes, while the fine component is finally deposited. 2. The method according to claim 1, characterized, that the proportion over 0.8 mm as aggregate for the road and paving or for ash concrete. 3. The method according to claim 1, characterized, that the portion above 0.8 mm continues at 2 to 3 mm, preferably classified 2.6 mm and the grain 0.8 to 2.6 mm packed in bags and used as a sprinkler in winter becomes. 4. The method according to claim 1, characterized, that the fine-grained portion 0 to 0.5 (1.0) mm with a the detachment and washing out of harmful substances aggravating or hindering material mixed and then permanent is deposited.   5. The method according to claim 1, characterized, that the slag is dried to 1% residual moisture. 6. The method according to claim 1, characterized, that the slag is gently dried at 100 ° C. 7. The method according to claim 1, characterized, that the slag at 100 ° C for 0.5 to 2 hours, is preferably dried for 1 hour. 8. Apparatus for processing waste incineration slag and thus for carrying out the method according to claims 1 or 2 to 7, with classifying sieves and a magnetic separator and a downstream conveyor belt, characterized in that between the magnetic separator ( 2 ) and conveyor belt ( 4 ) an active tube dryer ( 6 ) is arranged with a downstream screening screen ( 7 ) and that the screen overflow ( 10 ) is followed by a second conveyor belt ( 11 ). 9. The device according to claim 8, characterized in that the tubular dryer ( 6 ) arranged at a distance from the inner wall ( 15 ) in the direction of the axis ( 18 ) projecting driver plates ( 16, 17 ) or an open screw ( 19 ). 10. The device according to claim 8, characterized in that the classifying screen is equipped with a replaceable screen bottom ( 8 ). 11. The device according to claim 8, characterized in that the sieve bottoms ( 8 ) of the classifying sieve ( 7 ) are heatable.