DE4038896A1 - Method for using organic wastes contg. macromolecules - Google Patents

Abstract

(+21.9.90,6.12.90(2), 21.9.90,19.12.90, 6.3.91-DE-029880,038896/7, 029879,040672,107046). Macromolecules contg. organic -wastes are utilised by decomposing by warming to more than 150 deg.C, pref. under pressure or by shearing to liq. and gaseous components which can then be utilised. An appts. for carrying out the process comprises a melt vessel with a grate and a collecting vessel underneath for collecting the melt. It also has a pump and a means to treat the liq. and gaseous components further, pref. a mixing chamber.

Description

With the drying up of landfill capacities arises in everyone civilized countries are increasingly a bottleneck in disposal waste from household waste, shredder waste and others. As The way out will be increasingly garbage scorching for the future offer. However, such plastics are cases from consumer goods, such as packaging and technical Articles of daily use, when burning form toxic exhaust gas components, increasingly as a burden felt. The plastic polyvinyl chloride (PVC) is straight has become a synonym for this emergency as it is an extraordinarily widespread mass plastic that you can hardly do without can.

About the technical possibilities for recycling PVC Waste has published PALMS / 1 /.

The possibilities of recycling and Recovery of the HCl contained in PVC with approx. 50% (Hydrochloric acid) from the flue gases of waste incineration poses.

A process is operated by BASF / 2 / in which chlo hydrocarbons and the rest from PVC production with pure oxygen under high pressure at 2000 ° C be burned. This creates steam and hydrochloric acid recovered.

When it came to waste incineration, the Ver combustion downstream units - mainly in the Ab heat boilers - severe corrosion damage due to hydrochloric acid,  preferably from the PVC contained in household waste te. These difficulties are now significant technical effort has been overcome / 3 /.

However, the accusations of where have not yet been overcome after the dioxins contained in waste gases from waste incineration through the chlorine content of the waste that is incinerated is caused. PVC is proven to be 50% of that in the Incinerators involved in registered chlorine. In particular This is where the non-silent demands, PVC come from to disallow.

The present invention therefore has the task of Not only to dispose of waste from this plastic, son also to make it useful for further use. The This intention can very well make PVC a one for Plastics has a relatively large specific weight and thus by flotation, for example with a hydro cyclone, easily recognized by others as more valuable Plastic waste can be separated.

The new method avoids the previous difficulties based on the chlorine content of PVC. It does also suggestions on how the chlorine content or chlorine content of PVC can be used meaningfully by being cleaned or unpurified PVC waste or PVC in larger quantities containing plastic waste as a chlorine source, for example se used in metallurgy.

So z. B. used significant amounts of chlorine to to produce chlorine-containing chemicals. One of the best known this is the type of chlorine lime.

A number of processes exist in metallurgy, at which use chlorine for metal extraction or metal cleaning det. For example, here is the roasting of copper ores / 4 /, chlorination of magnesium oxide / 5 /, refurbishment  of aluminum / 6 /, production of titanium and the ent tinplate / 7 / and other thought.

In all of these processes, chlorine is assumed gene and works partly in a cycle, but itself used up, so that it has to be constantly updated.

It is known that PVC is already at a relatively low temperature temperatures of approx. 100 ° C begins to release chlorine and hydrogen split so that hydrochloric acid is formed in statu nascendi. Surprisingly, it has now been shown that despite the so stabilization of PVC above 200 ° C - and ins special 250 ° C - a very fast and complete ab cleavage of the chlorine takes place. This is useful for 300 ° C and usual residence times in the range of a few minutes completed. It also shows up when this heat treatment development with extensive exclusion of air takes place that only this cleavage takes place on the polymers, so that hydrochloric acid re represented practically alone in the gases being generated is. In addition, the cleavage increases above 200 ° C to 250 ° C greater speed so that there is no need for the Having to shred PVC waste to a greater extent; a lot they can be used uncrushed.

Dienes remain as residues, those at higher temperatures then can be completely decomposed or burned.

The new method is described as follows:

Plastic waste containing PVC waste are either unpurified or according to one of the be known methods, e.g. B. based on gravity, sorted be used. If necessary, the so obtained Adhesive dirt is removed from the product by washing will.  

Comminution only has to be carried out to the extent that it is necessary for the preparation for the process. The Treated PVC waste can now be used in the following way reactions to be carried out:

• 1. The PVC waste is in a suitable, known device, for. B. an extruder, granulated or pulverized by melting and atomizing.
  The PVC granulate and / or powder is now added to the substances containing metals and / or metal compounds in addition to the otherwise customary additives or else alone and reacted in the course of the usual processes.
  The chlorine released during the decomposition with increasing temperature reacts like the chlorine added in the form of other chlorine-containing substances or like gaseous Cl ₂ .
  The hydrocarbons of PVC serve as a reducing agent and can therefore replace all or part of the carbon that is usually added.
  The granules and / or the powder are added by simple admixing, or the mixture of PVC and substances containing metal and / or metal compounds is heated, and pellets or the like are produced by the early softening PVC.
• 2. PVC waste, e.g. B. have a suitable grain size by mechanical processing, the substances containing metals or their compounds can also be added without prior granulation or pulverization.
  The production of titanium tetrachloride may be mentioned as an example for case 1 or 2. Usually TiO ₂ or rutile is mixed with coke and tar, gasified and calcined. Then, for. B. in the shaft furnace or We bed, chlorinated at 800 ° C.
  Here, part of coke and tar is replaced by the hydrocarbons of PVC waste in the form of chips and / or granules and / or powder and the chlorination as usual - with all or part of the usual chlorine gas being eliminated - at elevated temperature carried out.
• 3. For refining liquid metals, PVC waste is pressed as chips and / or granules and / or powder into the liquid metal with the aid of lances or nozzles, certain metals preferably being bound by the released chlorine and removed as a salt from the metal melt can be.
  Tin removal from a lead melt is an example.
• 4. PVC waste can be shredded in without first a suitable device, e.g. B. a rotary kiln, be gassed in the manner recommended above, and the resulting gas is in a reaction space initiated where it with the metal or metal joint substances containing a reaction.
• 5. However, it is also possible to use this process use, plastic waste - which can also be mixed nen - for the further process of these disruptive Free chlorine. In this case, a Separation can be dispensed with entirely; one warms up single Lich the untreated or pretreated waste in the manner described above with sufficient Residence time, the evaporating chlorine then in one  Laundry or by passing the exhaust gases through a suitable agent is bound. In this case, the Heat treatment not necessarily in a particular whose atmosphere are carried out.

[1] Palmen, HJ, technical options for recycling and avoiding PVC waste, waste management journal 1 (1989); No. 3;
[2] NN, house announcements from BASF, 1989;
[3] Paczkowski, KV, boiler for waste incineration plants, recycling Berlin ′79, p. 420, in: E. Freitag, publishing house for environmental technology, Berlin;
[4] Winnacker, K., Küchler, L., Chemical Technology, Volume V - Metallurgy, C. Hanser Verlag, Munich 1961, pp. 326-328;
[5] Winnacker, K., Küchler, L., Chemical Technology, Volume 5 - Metallurgy, C. Hanser Verlag, Munich 1961, pp. 123-124;
[6] Winnacker, K., Küchler, L., Chemical Technology, Volume 5 - Metallurgy, C. Hanser Verlag, Munich 1961, p. 192;
[7] Winnacker, K., Küchler, L., Chemical Technology, Volume 5 - Metallurgy, C. Hanser Verlag, Munich 1961, p. 303.

Claims (9)

1. A process for recycling PVC waste, characterized in that the chlorine content of the PVC is used for metallurgical reactions. 2. Process for recycling PVC waste, characterized in that that the hydrocarbon content of PVC becomes metallurgical Reactions is used. 3. The method according to claim 1. and 2., characterized in that that PVC waste - sorted or mechanically processed - as Schnitzel and / or granulate and / or powder the metal and / or substances containing metal compounds for complete or partial replacement of carbon and chlorine Substances mixed in and then in the usual metallurgical Procedures are implemented. 4. The method according to claim 1 to 3, characterized in that the mixture of PVC waste, metal and / or metal substances containing compounds and other if necessary required additives is heated and by the Plasticization of PVC waste pellets or the like be fathered. 5. The method according to claim 1 to 3, characterized in that PVC waste into a liquid by means of nozzles or lances Metal bath introduced and there to remove impurities be used. 6. The method according to claim 1 to 3, characterized in that that PVC waste as chips and / or granules and / or Powder introduced into reaction rooms at elevated temperature to be there with metal or metal compounds React substances.   7. The method according to claim 1 to 3, characterized in that PVC waste gasified in a suitable device and as a gas with substances containing metal or metal compounds to be reacted. 8. Process for the treatment of PVC or other chlorine-containing Agents containing or only or almost exclusively containing PVC Plastic waste, particularly characterized in that it - crushed or uncrushed - in air or inert Atmosphere or in the absence of air - directly or indirectly heated - in a period of 10 seconds to 10 minutes at a temperature of 150 ° C to 300 ° C, preferably at 250 ° C to 300 ° C, treated to split off the chlorides will. 9. The method according to claim 8, characterized in that the hydrochloric acid split off by condensation or washing out of the gases generated during heat treatment or reacted with other substances.