DE4237161C2 - Device for processing aluminum-containing materials - Google Patents

Description

The invention relates to a device for processing of aluminum-containing materials according to the preamble of Main claim.

Materials coated with an aluminum foil are in today large scale in practice, e.g. B. as Ver packs or the like and are also in so-called Sorting centers sorted out from the garbage, whereby but their preparation because of the intimate connection between the aluminum foil and the laminated material Creates difficulties.

From the literature: Kollar, R: Recycling von Kunststoffab fall in the packaging industry in LWA materials No. 2190 Düsseldorf 1990, pages 103 to 138, it is known for recycling pyrolysis process put. Composite foils is the collective name for Materials made by combining different materials are preserved and their chemical and physical properties and surpass those of the individual components Under composite films, textile composites, nonwovens, etc. be understood. Treatment of aluminum-containing This literature does not teach residues and not suggested either.

A pyrolysis process is known from DE 24 32 504 B2 that has a sorting device in the smoldering coke is obtained, which is then turned into a fuel gas reactor  will wear. Again, the treatment of aluminum-containing Residues not explained.

Finally, in DE 27 07 698 B2 pyrolysis reactor Implementation of waste described. In this reference not on the treatment of aluminum-containing materials received.

The invention has for its object a suitable able to propose that relatively small in the range of Sorting systems can be set up so that in the area of Sorting points immediately prepare the aluminum-containing Waste can occur.

This object of the invention is achieved by Teaching of the main claim solved.

Advantageous embodiments are in the subclaims purifies.

In other words, one is suggested Rotary kiln plant use, which essentially consists of a gas-tight, indirectly heated  There is a rotary tube. The heating may be under in a nitrogen atmosphere. The indirect Heating has the advantage that a Vermi generation of the exhaust gases and combustion gases not done and that besides the fused gases no additional gas quantities like a direct one lighting must be disposed of. The heating can be electric or in a fuel heated Oven. The oven is at temperatures operated between 350 ° and 600 ° or 700 °. These Temperatures cause a swelling of the packaging-related cardboard and plastic materials as well as the mostly anor still adhering ganic components, but prevent one Melting the aluminum.

The feed material is appropriately previously in a Zer scaling system to the most uniform Brought grain size and then over a sluice that as cellular wheel sluice, double pendulum flap or the like can be formed, supplied to the rotary tube. The Rotary tube itself has an internal, preferred wise screw-shaped transport device, the at the same time fulfills the task of processing this Good to mix thoroughly, so that it is ensured that always unreacted on product reaches the reaction surface. There the temperatures are limited to a maximum of 700 °, it is achieved that dioxins and furans do not form can be detected.

At the end of the rotary tube, what arrives there Good mixture fed to a removal bunker from which it from interposed again one Lock of a sieve shaker is abandoned. The  Well leaves the actual rotary tube in the form of a Mixture of pure aluminum foil and an almost white ash and the separation of these components can be done with the help of the sieve shaker become. The resulting aluminum foil is used moderately before placing in a melting furnace Prevention of burn-off and discharge of the film cuts through the thermal packaged.

The separated ash and slag fraction can if necessary as fertilizer or as a supplement in Building materials sector to be used further.

The organic stock attached to the feed parts, especially fats and oils, can be combined in one intended capacitor deposited who and the hot exhaust gases are used for their Heat content and due to their halogen-containing Be components over a corrosion-resistant heat exchanger passed, the heat gained together with the waste heat of the rotary tube for the preheat combustion air can be used.

The halogen-containing that may be present Exhaust gases can be fed to a gas scrubber.

An embodiment of the invention will follow explained below with reference to the drawing.

In the drawing, a rotary kiln 1 is shown, in which a rotary tube 3, which is driven by a motor 14 and impellers 15 , is arranged. A conveying device 16 is provided within the rotary tube 3 .

The preferably shredded feed material is given up via a feed bunker 5 with the interposition of a lock 4 at the feed end of the rotary tube 3 and conveyed to a removal bunker 12 via a conveyor device 16 designed as a screw conveyor 2 . An oil condenser 8 is provided above the removal bunker 12 , which separates and recovers the fats and oils that accumulate, while a lock 6 is provided below half of the removal bunker. From the removal bunker 12 , the goods can be abandoned via the lock 6 of a sieve shaker 7 . Here, the material to be dispensed is separated into an ash fraction that is collected in an ash bunker 17 and into a film fraction that is packaged in a packaging device 18 and then removed.

The heat generated and the exhaust gases are fed to a heat exchanger 9, to which the fresh air to be heated is fed via a feed line 19 , which is then discharged via a line 20 , while the gases themselves are fed to a gas scrubber 10 via a line 21 .

Through this facility it is possible to be regional resulting packaging residues in the corresponding annex conditions without a large transport the packaging waste is required.

At the lower end of the feed bunker 5 , a transport device 22 is provided, which feeds the material emerging from the receiving bunker 5 to the feed end of the rotary tube 3 .

Claims (6)

1. Device for processing aluminum-containing materials, such as. B. with aluminum foil coated packaging or the like., Characterized by the use of a pyrolysis process with an indirectly heated th rotary kiln ( 1 ) with an inside of a gas-tight rotary tube ( 3 ) arranged conveyor ( 16 ), an interposed lock ( 4) on the rotary tube (3) adjoining the feed hopper (5) for the aluminum-containing material and an adjoining the rotational tube (3) by means of a lock (6) Siebrüttelanlage (7) for the separation of the aluminum foils of the ash. 2. Device according to claim 1, characterized by an activated oil condenser ( 8 ). 3. Apparatus according to claim 1 or 2, characterized by an activated gas heat exchanger ( 9 ) with gas scrubber ( 10 ). 4. Device according to one of the preceding claims, characterized by a foil pack animal device ( 18 ) at the discharge of the Siebrüttelanla ge ( 7 ). 5. Device according to one of the preceding claims, characterized in that in the region of the discharge end of the rotary tube ( 3 ) and in front of the sieve shaking system ( 7 ) upstream lock ( 6 ) switched-off bunker ( 12 ). 6. Device according to one of the preceding claims, characterized in that within the rotary tube ( 3 ) a circulating movement of the feed material causing screw conveyor ( 2 ) is provided.