SU312443A1 - - Google Patents

Description

A known method of purifying gases from oxygen by sorption of it using copper or nickel contacts or palladium contact mass. The degree of purification using these sorbents is from 1 to 0.1 h per 1 million parts.

In order to completely remove oxygen from gases, it is proposed to use electron exchangers containing coordinated bound hydrazine as a sorbent.

When passing the gas to be purified through this sorbent, oxygen interacts with coordination-bound hydrazine to release nitrogen.

If nitrogen is purified from oxygen, the gas is not contaminated with the reaction products.

If other gases, such as hydrogen, helium, argon, or carbon monoxide, are purified from oxygen, this method is applicable in cases where the admixture of nitrogen in the gas to be purified is permissible or subsequent purification of the gas from nitrogen is envisaged.

Gas purification can be carried out both at normal and at elevated and sub-zero temperatures.

Example 1. 10 volumes of an EO-11-I electron exchanger, which is a copper hydrazine form of the cation exchanger KU-2-12-P, are loaded into the ion-exchange filter. The height of the exchanger layer in the filter is 100 cm. Technical nitrogen to be cleaned, containing 1.2% oxygen, is passed through the filter from top to bottom with a specific load of 50 m / m - the electron exchanger per hour. At the beginning of the gas passing, the water in the filter is forced out and removed from its lower part. Before the breakthrough of 0.001% oxygen, 30,800 volumes of nitrogen are passed through the filter, which corresponds to the dynamic redox capacity under these conditions of 5,400 meq / l.

The electron exchanger is regenerated by passing a 2% aqueous solution of hydrazine hydrate through a filter until the concentrations are equalized with a specific load of 2 electron exchangers per hour followed by washing with an excess of hydrazine 50 volumes of desalted and deadened water, generated with a specific load of 5 M7 electrolytic exchanger.

Claims (1)

25 3 argon containing 0.2% oxygen is passed through the filter from top to bottom with a specific load of 40 exchangers per hour. At the beginning of the gas flow, the water in the filter is forced out and removed from the bottom of it. Before the breakthrough of 0.001% oxygen, 113100 argopa is passed through the filter, which corresponds to the dynamic redox intensity under these conditions of 4550 mEq / l. 4 Regeneration of the electron exchanger is carried out in the same manner as in Example 1. Formula of the invention. A method for purifying gases from oxygen by sorption, characterized in that, in order to increase the degree of purification, sorption is carried out by electron exchangers containing coordinated hydrazine.