SU1135969A2 - Arrangement for reburning waste gases - Google Patents

Abstract

DEVICE FOR THERMAL TREATMENT OF DISCHARGE GASES by author. St. No. 885713, characterized in that, in order to prevent clogging of gas permeable nozzles, it is provided with additional gas permeable nozzles and additional burners installed in front of the inlet pipes in the gas ducts between the inlet and outlet pipes. (L oo JV with O) with

Description

The invention relates to environmental protection and can be used for the disposal of waste gases from carbon monoxide and toxic hydrocarbons in the petrochemical industry, the production of non-ferrous metals, mechanical engineering and other public goods.

According to the main author. St. No. 885713, a device is known for thermally decontaminating waste gases containing its heat insulated casing, dividing partitions of the chamber with gas-permeable nozzles and nozzles for inlet and outlet of gases. Additional partitions separating the nozzles from the outer wall of the housing form heated mixing channels, and in the separation walls there are windows connecting the mixing channels of adjacent chambers. The gas flow is reversed by means of valves.

When operating the device, the cold gas to be cleaned is fed into one of the chambers, passes through the regenerative nozzle and enters the mixing channel, where it mixes with the combustion products of the fuel gas and increases its temperature. Then, through a window in the partition wall enters the mixing channel of the adjacent chamber, where it is again mixed with the combustion products of the fuel gas, heated to the auto-ignition temperature of harmful substances, which are completely burned, turning into harmless NgO and COD; In the adjacent chamber, the neutralized waste gas passes through the regenerative nozzle, heats it and then is led out of the device to the atmosphere. After the regenerative nozzle in the first chamber is cooled, the direction of the gases by switching the valves is reversed 1.

A disadvantage of the known device for thermal afterburning of waste gases is the clogging of regenerative nozzles by resinous and black substances.

The aim of the invention is to eliminate the clogging of gas permeable nozzles.

This goal is achieved by the fact that the device for thermal afterburning of waste gases is provided with additional gas-permeable nozzles placed in gas ducts between the inlet and outlet pipes and additional burners installed in front of the inlet pipes.

FIG. 1 shows a device for the thermal disposal of waste gases; in fig. 2 shows section A-A in FIG. one.

The device for the thermal disposal of waste gases consists of (from the insulated body 1, divided by partitions 2 into several chambers 3. In

each chamber 3 is made of gas-permeable nozzle 4 of refractory material. Adjacent chambers 3 are communicated by window 5, in each of. which has a burner 6 for burning fuel gas. A gas duct 8 is connected to the sub-nozzle space 7 of each chamber, in which an additional gas-permeable nozzle 11 is made between the supply and discharge nozzles 9 and 10. A burner 12 for burning fuel gas is installed in the duct 8 on the side of the supply nozzle. The waste gas is supplied to the device through the supply nozzle 9 and is withdrawn from it through the discharge nozzle 10 of the adjacent chamber. Inside the pipes 9 and 10 installed shut-off valves 13 of the switching device.

A device for the thermal disposal of waste gases works as follows.

The waste gas, containing resinous and black substances in the composition, is fed into the device through the inlet 9 of the first chamber, passes through an additional gas-permeable nozzle 11, in which the resinous and black substances are deposited and the gas passes through the gas duct 8 to chamber 3. Then purified, from resinous and black substances, the waste gas passes through the regenerative nozzle 4, in which it is heated, passes through the window 5, where it mixes with the combustion products of the fuel gas burned by the burner 6, increases its temperature The harmful combustible substances, which are not deposited on the additional gas-permeable nozzle 11, are completely burned, turning into harmless SOLs and. Next, the neutralized gases pass through the regenerative nozzle 4 of the adjacent chamber, heat it up and out through the discharge pipe 10 to the atmosphere. As the regenerative nozzle in the first chamber cools and is heated in the adjacent one, the direction of gas movement with the help of a switching device is reversed.

When additional gas permeable nozzles 11 are clogged, one of the chambers is turned off by shutting off the shut-off valves 13 at the inlet and outlet pipes, the burner 12 of this chamber is activated. Resinous and sooty deposits are burned out of an additional gas-permeable nozzle 11, and fuel gas is burned with burner 12 with excess air necessary to burn combustible sediments in an additional gas-permeable nozzle 11. The combustion products of sediments mixed with the products of combustion of the fuel gas through the flue 8 enter the subnasal space 7, pass through the regenerative nozzle 4, window 5, then a pair of adjacent cells are mixed with the gases, finally burn out and through their regenerators are the atmosphere. At the end of the burning process, burner 12 is turned off and this chamber is put into normal operation.

An additional gas-permeable nozzle 11, made in the duct 8 between the inlet and outlet nozzles, may have dimensions and structure different from the size and structure of the main regenerative nozzles 4. The purpose of the additional nozzle is the most complete sedimentation of resinous and sooty substances. This purpose is facilitated by the nature of the movement of gases through it, in one direction, and only cold gases pass through it, which also contributes to the deposition of these hazards. The additional attachment can be moved outside the limits of the main device, it can be provided with free access in case of need of inspection or measurements without disturbing the integrity of the main device. When the process of burning deposits is carried out on an additional nozzle, heat from their combustion enters the working chambers, due to which the consumption of fuel gas burned by the burners 6 is reduced.

The introduction of an additional gas-permeable packing into the design of the regenerative device significantly expands the scope of application of economical regenerative devices for thermal deactivation. In addition to the noted areas of application of the proposed device, it can be used to neutralize waste gases from fish smoke, test benches for diesel engines, in the production of electric carbon products, in electrode and paint and varnish production.

Claims (1)

DEVICE FOR THERMAL BURNING OF EMERGENCY GASES by ed. St. No. 885713, characterized in that, in order to prevent clogging of gas permeable nozzles, it is equipped with additional gas permeable nozzles located in the ducts between the inlet and outlet pipes and additional burners installed in front of the inlet pipes. >