SU1259079A1 - Arrangement for burning waste gases - Google Patents

Description

The invention relates to environmental protection and can be used for the disposal of waste gases in the chemical, petrochemical, construction and other industries.

The aim of the invention is to increase the efficiency of gas cleaning by preventing the catalyst from interacting with the contaminated gas.

The drawing / shows a device for the afterburning of waste gases.

The waste gas afterburner consists of a heat-insulated body 1, a combustion chamber 2 equipped with a burner device 3, regenerative chambers equipped with basic heat exchange nozzles 4 and additional 1 and nozzles 5 of the catalyst located on the perforated grids 6 and 7 of the gas-permeable roof 8, supplying 9 and 10 gas ducts and a flip-flop 11.

A device for the after-burning of waste gases works as follows.

Cold waste gas through the inlet duct 9 and percolation device t1 is supplied between the main heat exchange nozzle 4 and the gas permeable roof 8 and through the perforated grill 6 enters the main heat exchange nozzle 4, where it is heated by the heat accumulated in the nozzle and the previous period, after which the heated gas enters the combustion chamber 2. At the same time, fuel is fed into the combustion chamber through the burner 3.

Mixing with the hot combustion products of the fuel, the waste gas is heated to a predetermined disposal temperature. Further neutralized gas containing nitrogen oxides, which is the Editor J. Y. Shulla

Compiled by T. Lepahina Tehred I. Veres

5108/37

Circulation 514Subscribe

VNISTI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5

Production and printing assumption, Uzhgorod, st. Project, 4

five

They are formed during the decontamination process, enters the second, main heat exchanger nozzle 4, heats it and desorbs the toxic components adsorbed by the cold surface of the nozzle during the previous gas heating period, after which ra3f Pass the gas-permeable arch B, enters additional nozzle 5 from the catalyst where additional purification from toxic components and nitrogen oxides occurs, and through the exhaust gas duct 10 and the transfer device 11 is directed to the atmosphere. As the first one moves downstream of the nozzle and heats the second, the direction of gas movement changes to the opposite.

The proposed afterburner afterburner improves the gas cleaning efficiency by installing additional

catalyst nozzles to ensure additional cleaning of toxic components desorbed by hot combustion products that are adsorbed on

the cold surface of the main nozzle during the heating of the flue gases, and nitrogen oxides formed during the combustion of the fuel in the combustion chamber. At the same time to prevent

interaction of the catalyst with the gas valve, creating a constant temperature range of the catalyst and a uniform distribution of the gas flow over the cross section of the nozzles over the additional nozzles are installed gas permeable to the vaults, and between the main nozzle and the gas passageway the tail gas input pipes are made on average, it can double the catalyst life.

Proofreader M.Maksimishinets

Claims (1)

A device for afterburning exhaust gases, comprising a thermally insulated body, a combustion chamber with a burner, regenerative chambers with heat exchange nozzles with a catalyst layer, placed on perforated gratings, and nozzles for introducing waste gases and removing purified gases, which means that in order to increase the efficiency of gas purification by preventing the interaction of the catalyst with contaminated gas, it is equipped with additional nozzles) located at the bottom of the regenerative chambers oriented gratings, and above the additional nozzles gas permeable arches are installed, while the nozzles for introducing waste gases are located between the heat exchange nozzles and gas permeable arches, g SU, 1259079