DE1008001B - Process for removing titanium compounds from polyethylene - Google Patents

Description

Process: for the removal of titanium compounds from polyethylene Die Polymerization of olefins, especially the polymerization of ethylene, is after carried out a new process with catalysts, which consist of a mixture of organometallic compounds, especially aluminum alkyl compounds, with titanium compounds, e.g. titanium tetrachloride (see Belgian patents 533 362 and 534 792). The polymerization takes place at relatively low pressures and temperatures carried out at about 100 °. Usually one works in the presence of an auxiliary liquid. The task of the auxiliary liquid is to ensure that the reaction mixture moves sufficiently well to ensure the end of the synthesis. One uses as an auxiliary liquid aliphatic, hydroaromatic or aromatic hydrocarbons in gasoline or Diesel oil boiling range.

This is the case with the polymerization of ethylene under these conditions The reaction product taken from the reaction vessel consists of polyethylene, auxiliary liquid and catalyst residues. It has already been proposed to remove the after mechanical Separation of the bulk of the auxiliary liquid still adhering to the reaction mass Hydrocarbons as well as the Kataiysatorreste, which when using titanium compounds consist to a large extent of titanium, initially a treatment with steam to remove the hydrocarbons and then a treatment with mineral acid carry out to remove the catalyst residues. Another suggestion was the steam treatment in the presence of water or in the presence of dilute alkalis to undertake. It should be advantageous after further suggestions, the treatment to carry out the treatment with steam and mineral acid at the same time with steam and simultaneous treatment or subsequent treatment with Carry out water, aqueous alkali metal hydroxides or mineral acids under reduced pressure. After the acid or alkali treatment, the reaction product must then be washed neutral will.

The use of acidic detergents, especially sulfuric acid and Hydrochloric acid, due to the corrosive properties of these acids, often leads to too much procedural difficulties. For the reasons mentioned, they would be alkaline per se Detergent to be preferred. That through the catalyst substance into the raw polyethylene Introduced aluminum is dissolved just as well as when using acids, however, in the case of alkaline washes, the titanium precipitates as water-containing titanium dioxide.

It has been found that the crude polyethylene as obtained by Polymerization of ethylene at temperatures below about 100o and at pressures below about 100 atm. using catalysts composed of a mixture of organometallic Compounds, especially aluminum alkyl compounds, with titanium compounds, for example Titanium tetrachloride, with very favorable results from residual titanium compounds Can be freed when using alkaline washing solutions at temperatures below 50 °, preferably below 30 °, is treated, the inorganic peroxy compounds and optionally alkali or ammonium sulfates and optionally a wetting agent contain.

When using alkaline washes, the titanium falls as water-containing Titanium dioxide. By adding inorganic peroxy compounds to the Alkali solutions, however, can prevent this precipitation, as by H. Biltz, #> Experimental Introduction to inorganic chemistry, Berlin 1938, p. 170, and Treadwell, short Textbook of analytical chemistry ", Vienna 1943, p.154. Become peroxy compounds added, the water-soluble ones, which are pale yellow in color in the cold, are formed Pertitanates. Surprisingly, it was found that also under the conditions of the leaching of crude polyethylene with alkaline media already can convert precipitated, but not aged titanium dioxide into pertitanate.

Alkaline or ammoniacal washing solutions up to are expedient at concentrations of 30 percent by weight, preferably from 5 to 15 percent by weight, used.

The main peroxy compounds are hydrogen peroxide, alkali metal peroxides, Alkali or ammonium peroxydisulphates, alkali or ammonium peroxyborates or borate peroxyhydrates in concentrations of up to 10 mol percent, preferably from 0.1 to 0.4 mol percent, in question. The alkali or ammonium sulfates are advantageous in concentrations of up to 20 percent by weight, preferably 2 to 7 percent by weight, related.

The leaching must take place at temperatures below 50 °, preferably at Room temperature, as the pertitanium compounds formed are exposed to heat are not stable and also higher temperatures for the decomposition of the peroxy compounds by splitting off oxygen.

Example There were 50 g of a polyethylene powder with 250 ml Wash solution treated at room temperature. Because of the difficult wettability of the Polyethylene was added wetting agents in the amount of 0.2 percent by weight.

After washing, the polyethylene was filtered off and the titanium dissolved in the filtrate was determined colorimetrically. The table shows the results obtained depending on the type of detergent. Tabel Titanium im Detergent H, 0, = @ TazS0, & filtrate g / 100 g m1 / 1 g / 1 polyethylene 5% sulfuric acid 20-0.135 10% caustic soda ... 20 - 0.120 10 "/ o sodium hydroxide solution ... 20 40 0.130 10% sodium hydroxide solution ... - - 0.004 Water .............. 20 - 0.014 Water .............. 20 40 0.024 The table clearly shows that the washing effect of sodium hydroxide solution is equivalent to that of sulfuric acid with the additives. The effect of the sulfate ions is based on an acceleration of the washing process, so that 0.130 g titanium / 100 g polyethylene are immediately obtained in the filtrate with a single wash.

When using caustic soda; - H202 were used for a single wash 0.12 g titanium / 100 g polyethylene obtained in the filtrate, additional titanium could be obtained with repeated Washing can be removed in the specified manner.

Claims (4)

PATENT CLAIMS: 1. Process for removing titanium compounds made of polyethylene obtained by polymerizing ethylene at high temperatures below about 100 ° and pressures below about 100 atm. using catalysts, which consists of a mixture of organometallic compounds, especially aluminum alkyl compounds, with titanium compounds, characterized in that the raw polyethylene at temperatures below 50 °, preferably below 30 °, with alkaline washing solutions treated, which inorganic peroxy compounds and optionally alkali or ammonium sulfates and optionally a wetting agent were added. 2. Procedure according to claim 1, characterized in that with alkaline or ammoniacal Wash solutions in concentrations of up to 30 percent by weight, preferably 5 to 15 Weight percent, is worked. 3. The method according to claim 1 and 2, characterized in that that as peroxy compounds hydrogen peroxide, alkali peroxides, alkali or ammonium peroxydisulphates, Alkali or ammonium peroxyborates or borate peroxyhydrates in concentrations of up to at 10 mole percent, preferably from 0.1 to 0.4 mole percent. 4th Process according to claim 1, characterized in that alkali or ammonium sulphates in concentrations of up to 20 percent by weight, preferably from 2 to 7 percent by weight, be added ..