SU1664379A1 - Method of cleaning gases from ammonia - Google Patents

Abstract

The invention relates to a process for purifying waste gases from NH ₃ used in the chemical and metallurgical industries and allowing for an increase in the productivity of the process. Air with ammonia impurities was passed through an electric field of a positive corona at a voltage of the electric field of 3100 - 6900 V / cm. Subsequent absorption of impurities is carried out with water in bubbling mode. The productivity of the process is (5.0-5.2) ^. 10 ^-5 kg / s at a flow rate of water and air equal to 22.36 ^. 10 ^-5 and 3.21 ^. 10 ^-5 kmol / s, respectively. The concentration of NH ₃ decreases from 0.12% to 0.03% by volume. 1 tab.

Description

The invention relates to the process of ammonia absorption and can be used in the chemical, petrochemical, metallurgical and other sectors of the industry and in the purification of waste gases from various industries.

The purpose of the invention is to increase the productivity of the process.

PRI me R. In the upper part of the absorption column, water is supplied to the gas irrigation through a pipe with a distributor. The gas stream, before being supplied to the lower part of the absorption column, is directed to the discharge chamber, which is, for example, a tubular electrostatic precipitator element, where it is charged with excessive like positive charges in an electric field of 3000-7000 V / cm. A gas stream charged with similar charges is fed to the lower part of the absorption column through a spout with bubbling holes. To prevent charges from flowing off the gas stream to the metal, the branch pipe and wall of the column can be made of dielectric or electrically insulated or connected to the pole of the same sign as an excess gas charge.

A column with a diameter of 30 mm with a nozzle made of Raschig rings and a discharge chamber, which is a metal tube with a diameter of 25 mm and an axisymmetrically mounted on it with a wire with a diameter of 2 mm, are used. The length of the tube of the discharge chamber is 200 mm. The tube and the wire are electrically insulated from each other and provided with terminals for connection to a high voltage power source. An arrester consisting of a Rumkorf coil and a high-ampere rectifier is used as a high-voltage source. Power is supplied to the high-voltage distribution through an ac voltage regulator. Input voltage regulator

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the high voltage discharge allows the voltage at the output to vary up to a maximum of 20 kV.

The results of experimental studies are shown in the table. The flow of water and air was maintained constant in all experiments: water — 22.36–10 5 kmol / s, air –3, (G5 kmol / s.

A decrease in the electric field strength below the limiting value of 3000 V / cm does not allow a stable corona discharge to be created when the gas-ammonia mixture passes through an electric field.

An increase in the electric field strength above the limiting value of 7000 V / cm is impractical because of the additional costs of electricity, which are not repaid in the future by an insignificant increase in productivity during the absorption process.

With a negative excess charge of the gas stream, a decrease in performance is observed in the absorption of ammonia.

As follows from the table, the proposed method allows to increase the efficiency of the process of purifying gases from ammonia to (5.0-5.2) kg / s versus 1.1 kg / s in a known method.

Claims (1)

Claims The method of purifying gases from ammonia impurities, including passing them through an electric field of a corona discharge and subsequent absorption by water, is characterized in that, in order to increase the productivity of the process, a positive corona discharge is used with a voltage of the electric field of 3100-6900 V / cm and absorption is carried out in bubbling mode.