SU1670292A2 - Device for combustion of industrial waste gases - Google Patents

Abstract

The invention relates to devices for the destruction of gaseous wastes or harmful gases, and can be used in the chemical, paint and varnish, oil refining and other sectors of the industry. The aim of the invention is to increase the degree of purification of gaseous emissions and reduce the hydraulic resistance. The plant for industrial gas emissions contains a combustion chamber 1, a burner 3, a gas outlet 4 inlet, a radial radiation heat exchanger 5. Gas emissions come from the gas outlet 10 to the tubular convective heat exchanger 8 and through pipeline 9 to the combustion chamber 1, and the gas inlet 6 for entering the gas emissions 6 enters the heat exchanger 5 and through the outlet 7 to the burner 3. 1 sludge.

Description

one

(61) 1188454

(21) 4639500/33

(22) 01.20.89

(46) 08/15/91. Bulle # 30

(75) N.G.Kernauch

(53) 628.54 (088.8)

(56) USSR Copyright Certificate Mg 1188454, cl. F 23 G 7/06, 1984.

(54) INSTALLATION FOR BURNING GAS INDUSTRIAL EMISSIONS

(57) The invention relates to devices for the destruction of gaseous wastes or harmful gases and can be used in the chemical, paint and varnish, oil refining and other industries. The aim of the invention is to increase the degree of purification of gaseous emissions and reduce the hydraulic resistance. The plant for the combustion of industrial gas emissions contains a combustion chamber 1, a burner 3, a gas emission inlet nozzle 4 and a radial heat exchanger 5. The gas emissions come from the gas emission supply nozzle 10 to the tubular convective heat exchanger 8 and from pipe 6 for gas entry; emissions will be absorbed into the heat exchanger 5 and through the output pipe 7 to the burner 3. 1 sludge.

Yo

Gaseous emissions

five

about

go you go

I

I

;to

The invention relates to devices for the destruction of gaseous wastes or harmful gases, and can be used in the chemical, paint, oil refining and other industries.

The purpose of the invention is to increase the degree of purification of gas emissions and reduce the hydraulic resistance.

The drawing shows the proposed installation, a longitudinal section.

A plant for the combustion of industrial gas emissions (a thermal combustion unit) contains a combustion chamber 1, in the side wall of which a duct 2 is installed, in which the burner 3 is located, as well as a nozzle 4 for introducing gas emissions. A slit radiation heat exchanger 5 is placed above the combustion chamber, which is additionally equipped with a pipe 6 for introducing gas emissions and an air duct 7 connecting the outlet nozzle to channel 2. A tube convective heat exchanger 8 is placed above the slit radiation heat exchanger 8, which has from 2 to 5 strokes and additionally provided with a pipe 9 connecting the outlet of the convective heat exchanger with the nozzle 4 for introducing gas emissions into the combustion chamber 1. In the upper part of the installation, perpendicular to the axis of the installation, is located a branch pipe 10 for supplying gas emissions. A nozzle 11 for removing the cleaned gases is also located in the upper part of the installation coaxially with it.

In the case when gas emissions contain less than 17% of oxygen, atmospheric air is fed through the duct 12 into the inlet 6 of the slot-hole radiation heat exchanger.

The unit is equipped with instrumentation and instrumentation and automation (A). Instrumentation and automation equipment allows the unit to be operated without the constant attendance of service personnel.

The installation for the combustion of industrial gas emissions works as follows.

Gas emissions containing at least 17% oxygen simultaneously serve-

with two flows through the pipes 6 and 10. From the pipe 10, gas emissions enter the annular space of the tubular convective heat exchanger 8, in which they are preheated, and through pipe 9 are fed into the combustion chamber 1, and from the pipe 6 enter the slot-hole radiation heat exchanger 5, in which it is also heated, and through the duct 7 is fed into the channel 2 to the burner device 3, which serves as an oxidizing agent during their flare combustion. High-temperature combustion products are intensively mixed with heated gas emissions from the convection heat exchanger 8 through conduit 9 and heated to the oxidation temperature of toxic compounds 950-1000 ° C. As the resulting high-temperature gas stream moves upward from the combustion chamber 1 through the internal volume of the slit heat exchanger 5, the reaction of thermal oxidation of toxic gases at a temperature of 750-800 C is completed. At the same time, the gas emissions to the burner 3 are heated. Then, the purified gases enter Into the tube space of the tubular convective heat exchanger 8 and, giving off heat to the gas emissions coming back through the pipe 10, through the pipe 11 are emitted into the atmosphere or directed are on production needs. The use of the invention allows to increase the degree of purification of gas emissions by 2% and reduce the hydraulic resistance of the installation by 15%.

Claims (1)

Invention Formula Installation for the combustion of industrial gas emissions aut.st. No. 1188454, characterized in that, in order to increase the degree of purification of gaseous emissions and decrease the hydraulic resistance, it is equipped with a pipeline connecting the outlet of the convective heat exchanger with the combustion chamber, and the outlet of the radiation heat exchanger is connected to the burner.