SU1269814A1 - Method of cleaning gases from acid components - Google Patents

Abstract

The invention relates to methods used in cleaning ventilation emissions from acidic components, and allows to intensify the process by reducing the dynamic resistance of the layer while maintaining complete cleaning. Air containing impurities HC1, HF, HgSO-, HNOj or SO is passed through a layer of non-woven material based on polyacrylonitrile filled with fine ion-exchange resin AB-17 with its content of not less than 50 wt.% And preferably not more than 70 wt.%. The layer is periodically regenerated by washing with water. With a sorption layer thickness of 1 cm and a linear air velocity of 0.15-0.17 m / s, almost complete purification is provided with a dynamic resistance of a layer of 4-5 mm of water. CT.I zp f-ly. WITH S

Description

The invention relates to methods for cleaning gases from acidic components and may find application in the electronic and chemical industries in the purification of ventilation emissions. 5

The purpose of the invention is the intensification of the cleaning process by reducing the dynamic resistance of the layer while maintaining complete cleaning.

The method is as follows 10.

Example 1. Use a sorption material based on polyacrylonitrile (PAN), filled with finely dispersed ion-exchange resin 15

AB-17 in the ratio of 70 wt.% PAN:

.30 wt.% AB-17, in the form of a non-woven fabric. The thickness of the sorption material is 1 cm.

Air containing HCt 20 impurities with a concentration of 30 mg / m and humidity 60-65 rel.%, At 20-25 ° C with a speed of 0.13 m / s is fed through a cassette, in which the sorption material is fixed. The area of the sorption- ²⁵ layer is 0.0225 m ² , the resistance is 3 mm water column. 84 m ^{3 of} air mixture is passed through the filter. Before and after the sorption layer, the air is analyzed for NSE content, the accuracy of the analysis is 30 3 μg in the analyzed volume. The degree of purification is 98%, the shrinkage of the material is 5%. The material is regenerated by washing with water at a rate of 8 ml / h.

PRI me R 2. Use a sorption material similar to example, ru 1, but in the ratio of 50 wt.% PAN: 50 wt?% AB-17.

In the conditions of example 1, air is supplied through the cartridge at a speed of 40

0.15 m / s. The resistance of the layer is 4 mm water column, the degree of purification is 100%, the shrinkage of the material is 5%.

Example Z. A sorption material is used, similar to Example 45, but in the ratio on May 30.% PAN: 70 wt.% AB-17.

In the conditions of example 1, air is supplied through the cartridge at a speed of 0.17 m / s, the layer resistance is 5 mm water column. The degree of purification is 100%, the shrinkage of the material is 5%.

PRI me R 4. Use a sorption material similar to example 2.

Air containing HF impurities with a concentration of 28 mg / m ³ and humidity 63-68 rel.% J at 20-25 ° C at a speed of 0.15 m / s is fed through a cassette in which the sorption material is fixed. The area of the sorption layer of 0.0225 m ^{2 the} resistance of 4 mm of water, Art. 105 m ¹ air mixture is passed through the filter. The degree of purification is 100%, the shrinkage of the material is 5%, the resistance of the layer is 5 mm water column. The material is regenerated with water at a rate of 8 ml / h.

A decrease in the content of sorption material below 30 wt.% AB-17 leads to a sharp decrease in the degree of purification (90% and below), and an increase in the content of more than 70 wt.% AB-17 does not affect the degree of purification, which is 100%. When the resin content is 80%, the layer resistance increases by 30%.

In addition to the acid gases indicated in the examples, from H ₂ SO4, NHOj, S0 ₂ .

Claims (2)

Claim 1. The method of purification of gases from acidic components by passing through a layer of ion-exchange resin with periodic regeneration of the layer by washing with an aqueous medium, characterized in that, in order to intensify the cleaning process by reducing the dynamic resistance of the layer while maintaining complete cleaning, the ion-exchange resin is used in the form filler non-woven material made of polyacrylonitrile with a resin content of not less than 50 wt.%. 2. The method of pop. 1, characterized in that use the resin content of not more than 70 wt.%.