System and process for recycling contaminated polyolefins

The invention claimed is: 1. A method of recycling contaminated polyolefins, including removal of contaminants from a contaminated polyolefin material, comprising: swelling a contaminated polyolefin material with a solvent causing contaminants in the polyolefin material to dissolve in the solvent; and removing the solvent and the contaminants in the solvent from the polyolefin material, whereby removing the contaminants dissolved in the solvent from the polyolefin material includes a compression of the swollen polyolefin material, through which a majority of the solvent is pressed out of the swollen polyolefin material. 2. The method of claim 1 , wherein the polyolefin material consists essentially of polyethylene or polypropylene. 3. The method of claim 1 , further comprising drying the polyolefin in a drier after pressing the swollen polyolefin to vaporize solvent remaining in the polyolefin material. 4. The method of one of claim 1 , further comprising melting and extruding the polyolefin material to remove residual solvent from the polyolefin material, the polyolefin material then being granulated to form a polyolefin granulate. 5. The method of claim 4 , further comprising using an extruder having a degasification zone to extrude the polyolefin. 6. The method of claim 4 , further comprising heating the polyolefin granulate in a solid-state condensation reactor or in a vacuum. 7. The method of one claim 1 , further comprising comminuting the contaminated polyolefin material to flakes and foreign material and separating the foreign materials from the contaminated polyolefin material by one or more sorting methods comprising a dry sorting method or at least one washing step in water. 8. The method of claim 1 , wherein the swelling the contaminated polyolefin material is at a temperature of about 10° C. below a melting temperature of the polyolefin material, and at a pressure between 1 and 1000 bar, for at least 5 minutes, and moving the polyolefin in the solvent during the swelling. 9. The method of claim 1 , wherein the swelling the contaminated polyolefin material causes a volume of the contaminated polyolefin material to increase through the swelling by at least 1 percent. 10. The method of claim 1 , wherein the solvent has a lower polarity than water. 11. The method of claim 1 , wherein the solvent is an alkane comprising n-hexane or n-heptane. 12. A recycling system for recycling contaminated polyolefins, comprising: a swelling reactor containing a solvent, the solvent having a lower polarity than water, with the swelling reactor configured to swell a contaminated polyolefin material in the presence of the solvent and to dissolve contaminants present in the polyolefin material in the solvent; and a system component comprising a system to compress swollen polyolefin material placed downstream of the swelling reactor to remove the solvent and the contaminants dissolved in the solvent from the polyolefin material and to compress the swollen polyolefin material. 13. The recycling system of claim 12 , wherein the recycling system comprises an upgraded or converted PET recycling system. 14. The recycling system of claim 12 , further comprising separation and washing stages placed upstream of the swelling reactor for separating out foreign materials from the polyolefin material and a drier placed downstream of the swelling reactor. 15. The recycling system of claim 12 , wherein the system component placed downstream of the swelling reactor to remove the solvent from the polyolefin material further comprises a drier. 16. The recycling system of claim 12 , wherein the swelling reactor comprises a stirring vessel, a stirring vessel cascade or a tube reactor. 17. The recycling system of claim 12 , further comprising a granulator downstream of the swelling reactor for melting, extruding and granulating the polyolefin material. 18. The recycling system of claim 12 , further comprising a purification system downstream of the swelling reactor to purify the solvent. 19. The recycling system of claim 18 , wherein the purification system comprises a means of distillation or rectification and a means to recycle the purified solvent back into the swelling reactor. 20. The recycling system of claim 12 , wherein the swelling reactor is configured to swell the contaminated polyolefin material with the solvent at at least one of a temperature of about 10° C. below a melting temperature of particular polyolefin material or a pressure between 1 and 1000 bar. 21. A purified polyolefin material manufactured by a method of recycling contaminated polyolefins, including removal of contaminants from a contaminated polyolefin material, the method comprising: swelling a contaminated polyolefin material with a solvent causing contaminants in the polyolefin material to dissolve in the solvent; and removing the solvent and the contaminants in the solvent from the polyolefin material to produce the purified polyolefin material, whereby removing the contaminants in the solvent from the polyolefin material includes compressing the swollen polyolefin material, through which a majority of the solvent is pressed out of the swollen polyolefin material. 22. The purified polyolefin material of claim 21 , wherein the purified polyolefin material is manufactured by a method of recycling contaminated polyolefin using a recycling system for recycling contaminated polyolefins, the recycling system comprising: a swelling reactor containing a solvent, the solvent having a lower polarity than water, with the swelling reactor configured to swell a contaminated polyolefin material in the presence of the solvent and to dissolve contaminants present in the polyolefin material in the solvent; and a system component comprising a system to compress swollen polyolefin material to compress the swollen polyolefin material placed downstream of the swelling reactor to remove the solvent and the contaminants dissolved in the solvent from the polyolefin material producing the purified polyolefin material.