SU1564471A1 - Device for reburning waste gas - Google Patents

Abstract

The invention relates to environmental protection and can be used in the petrochemical, chemical and engineering industries, as well as other sectors of the national economy for the disposal of waste gases containing combustible toxic components and excess oxygen for their combustion. The purpose of the invention is to increase the efficiency due to the intensity of mixing of the fuel and exhaust gases. The waste gas from the nozzles 3 enters the burners of the waste gas, made injection, in which the nozzle of the waste gas is installed tangentially confusor, which contributes to high-quality gas mixing. Well-mixed gases exit the burners and enter the combustion chamber, where they are mixed with the combustion products. By supplying a portion of the fuel gas to the exhaust gas, the fuel utilization rate increases. The neutralized gases through the exhaust channel 7 are removed to the atmosphere. 3 il.

Description

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The invention relates to the protection of the environment and can be used in the petrochemical, chemical, engineering industry and other national industries for the disposal of waste gases containing combustible toxic components and excess oxygen for their combustion.

The purpose of the invention is to increase efficiency due to the intensive mixing of fuel and exhaust gases.

FIG. 1 shows a device for the after-treatment of waste gases; in fig. 2 - waste gas burner; in FIG. 3, view A in FIG. 2

The device for the after-burning of waste gases comprises a heat-insulated housing J, burners 2 with a supply of part of the waste gases for using the excess oxygen contained in them as an oxidizer fuel, pipeline 3 and discharge gas nozzles 4, pipeline 5 and fuel gas nozzles 6, exhaust duct 7, waste gas burners 8, consisting of nozzles 9, convergers 10 and mixers 11 with regulating throttles J 2 and 13 on the gas pipeline of fuel gas and 14 on the gas pipeline of waste gas. The device for after-burning of waste gases works as follows. The burner 2 burns fuel gas, the oxidizing agent for which is excess oxygen of the waste gas and atmospheric air. Waste t zz from the nozzles 3 enters the burner 8 waste gas.

The execution of waste gas burners injection, in which the tail gas pipe is installed tangentially to the confuser, promotes high-quality gas mixing and the oxidation of natural gas with oxygen from the waste gas.

Under equal conditions, the use of an injector with a diffuser significantly increases the flow rate of the gas mixture, and the rate of gas escape from the injector is less than in a pressure-free injector. This is due to the fact that, at the end of the diFusor, the cross-sectional area is significantly increased, as a result of which the mixing of the gas mixture with the combustion products of the fuel in the device deteriorates. Consequently, free-flow injectors are more economical than with a diffuser, since they require less

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energy costs of gas at the same exhaust rate of the mixture.

To install an injector with a diffuser in the masonry, larger openings are needed than for non-pressure, which reduces the service life of the device, especially when the device is horizontal. In addition, the advantage of a free-flow injector is ease of manufacture. However, injectors with a diffuser, as compared with pressureless ones, create a greater pressure drop of the ejected gas and, due to greater speed in the mixer, promote intensive mixing of gases, which allows, along with pressureless injectors, to install injectors with diffusers.

In the confuser, the waste gases are compressed and, rotating, are advanced into the mixer where rotational-translational motion continues around the jet of fuel gas exiting the nozzle. The rotary movement of the waste gases creates an axial flow of the recirculation zone, due to which the waste gas enhances the expansion, shear and rotation of the jet of fuel gas. With this interaction of gas flows, an intensive mixing of a small amount of fuel gas with the oxygen of the waste gas occurs.

Well-mixed gases are released from the burners and are fed for combustion, where they are mixed with the combustion products of the fuel. The waste gas is heated, the fuel and toxic components of the waste gas are burned out, and the utilization rate of a part of the fuel gas to the waste gas increases, as the fuel utilization rate increases because air is not required for. Combustion of this part of the fuel. The neutralized gases through the discharge channel 7 are removed from the device.

Control throttles 12, 13, and 14 are installed on the fuel and waste gas pipelines to regulate the process of thermally deactivating waste gases.

Claims (1)

A device for the afterburning of waste gases makes it possible to increase the efficiency of afterburning and reduce the consumption of natural gas by oxidizing it with oxygen. Invention Formula Device for afterburning of waste gases containing heat insulated a housing, waste and fuel gas burners, fuel and waste gas supply pipes and a flue duct, characterized in that, in order to increase the efficacy due to the intensive mixing of fuel and waste gases, burners of waste gases are made injections, to the outlet of which the outlet gas nozzles are tangentially connected, and the nozzles of the fuel gas nozzles are placed in the center. (para. 2 Compiled by T.Lepakhina Editor M.N.Ledoluzhenko Tehred L.Oliynyk Order 1153 Circulation 452 VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR. 113035, Moscow, Zh-35, Raushsk nab. 4/5 Lid A THAT fig.d Proofreader N. Revska Subscription