TH16876A - Process for inert gas purification - Google Patents

Abstract

A process for purifying inert gases containing organic impurities, in particular, gases (nitrogen) derived from the state polycenzoic reactor. Solid polyester resin This includes processing with oxygen in the amount Reactive (Or slightly higher) compared to the impurities contained At temperatures between 250 ° and 600 ° Lazias, a Pt or Pt / Pd catalyst is supported on the porous solid. And that gas is fed back directly into the polycondensation reactor. After removing the impurities produced during the oxidizing reaction

Claims (9)

1. Process for purification of inert gas From contaminants in the form of organic substances This inert gas stream is emitted from the solid-state polyconservative reactor of polysterresin composed of oxygen. Or gas with oxygen into the gas stream This causes the gas current to circulate on the catalytic layer containing Pt, or a mixture of Pt and Pd supported on the porous inert support. At temperatures from 250 degrees to 600 degrees Celsius, it is characterized by the amount of oxygen used in this reaction. Compared to Organic contaminants Or exist in excessive quantities So that the gas at the outlet of the oxidation reactor will have Oxygen is up to 10 parts per million And so that the gas flows from the oxidation reactor can be circulated back To new solid-state polyconsonant reactors After going through the drying process To remove existing water. 2. Process according to claim 1, where just the oxidation reaction is checked by connecting a suitable oxygen analyzer. At the outlet of the catalyst layer To check the ppm oxygen with an analysis response time of less than 5 seconds. 3. Process according to claim 1, where the gas stream comes from the solid-state polyconducting reaction of the selected polyester resin from a group containing Polyethylene terephthalate Poly Butylene Terephthalate And polyethylene terephthalate copolymer There are units of 20 percent bicarboxylic aromatic acid by mol. 4. Process according to claim 2, where the gas stream comes from the solid-state polyconducting reaction of the selective polyester resin between Polyethylene terephlate Poly Butylene Terephthalate And polyethylene-terephthalate copolymer Containing units of bicarboxylic aromatic acid in amounts of up to 20 percent by mol. 5. Process according to claim 3, in which this inert gas is nitrogen. Or including nitrogen. 6. Process according to claim 2, in which this catalyst is in the form of Pt and Pd, is supported on gamma-alumina with a porosity of 0.4 to 0.6 cubic cm / g. 7. Process according to claim 3, in which this catalyst is in the form of Pt and Pd, supported on gamma-alumina with a porosity of 0.4 to 0.6 cubic cm / g. 8. Process according to claim 5, in which this catalyst is in the form of Pt and Pd, supported on gamma-alumina with a porosity of 0.4 to 0.6 cubic cm / g. 9. The process according to claim 6, in which the temperature of the catalytic layer is maintained between 250 degrees and 350 degrees Celsius. 1 0. Process according to claim 5, in which this analytical instrument is a conce receptor for oxygen. 1 1. Process according to claim 6, in which this analytical instrument is a conia receptor for oxygen. 1 2. Process according to claim 9, in which this analytical instrument is a conia receptor for oxygen. 1 3. Process according to claim 2, in which air is used as an oxygenated gas. 1 4. Process according to claim 3 where air is used as an oxygenated gas. 1 5. Process according to claim 5, where air is used as an oxygenated gas. 1 6. Process according to claim 9, where air is used as an oxygenated gas.