RU2614281C1 - Complex with filter for dry cleaning of explosive gas mixtures - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: complex filter for dry cleaning of explosive gas mixtures comprises a bag filter 1 connected to the input flue 2, on which the inlet shut-off valve 3 and the pipe 18 with the shutoff valve 19 for connection to the atmosphere are mounted. The exhauster 5, the output shut-off valve 6, the pipe 20 with the shutoff valve 21 for connection to the atmosphere and to the gas sampler 22 are mounted on the outlet flue 4. Before the filter 1 downstream an explosion-localizing gas chamber 7 connected to the input flue 2 and to the filter 1 through the normally open self-closing in case of explosion valves 8 and 10 respectively. The explosion-localizing chamber 7 is provided with the igniter 11, the anti-explosion safety valve 12, the pipe 13 with the gate 14 for connecting to the atmosphere and to the explosion pressure sensor relay 15, which is electrically connected through the gas cleaning control system to the electric drives of the input shut-off valve 3, the output shut-off valve 6 and the exhauster 5. The filter housing 1 is made airtight. The explosion-localizing chamber 7 and the filter 1 are provided with airtight dust dumpers.

EFFECT: location of the explosion-localizing chamber prevents the explosion wave spread and the filter elements destruction while cleaning explosive gas mixtures.

2 cl, 1 dwg

Description

The invention relates to dry cleaning of gases and can be used in the treatment of explosive gas mixtures of combustible gases and dust, as well as vapors of flammable liquids in any combination with emergency mixed air, in particular gases from steel converters with a high content of carbon monoxide and hydrogen, operating on a system without afterburning, blast furnace gas, excess gas of dry quenching systems of coke, air with combustible dust and air with vapors of flammable liquids and dust.

The closest set of features to the claimed object is selected as a prototype complex with a filter for dry cleaning of explosive gas mixtures (patent CN 1896287 A, IPC B01D 29/27, B01D 46/02).

This complex contains a block of bag filters for dry cleaning with pulse regeneration, the casing of each of which is designed for the pressure developed during explosions, and is equipped with an anti-explosion valve. The bag filter unit is connected to the inlet duct, on which the inlet shut-off valve is installed, and connected to the outlet duct, on which the smoke exhauster and the outlet shut-off valve are mounted. A gas cooler is installed in front of the bag filter unit to a temperature corresponding to the working temperature of the filter, while the cooler can be made in the form of a boiler, steam boiler, or a complete evaporation scrubber.

The claimed object and prototype coincide with such essential features. Both devices contain a filter that is connected to the inlet duct, on which the inlet shut-off valve is installed, and which is connected to the outlet gas duct, on which the smoke exhauster and the outlet shut-off valve are mounted.

Analysis of the technical properties of the prototype, due to its features, shows that such reasons impede the receipt of the expected new technical result when using the prototype. In the event of a gas mixture explosion, the blast wave propagates both towards the converter with the release of toxic gases into the working area, and towards the smoke exhaust with the possibility of its destruction. In addition, after the explosion, it is necessary to replace the filter bags, which, due to the explosion and the temperature developed at the same time, are unsuitable for further use.

The claimed object is based on the task of creating such a complex with a filter for dry cleaning of explosive gas mixtures, in which improvements by introducing new elements will allow using the inventive object to achieve a technical result, which is to prevent destruction of the filter equipment and the complex when cleaning explosive gas mixtures.

The inventive complex with a filter for dry cleaning of explosive gas mixtures contains a filter that is connected to the inlet duct, on which the inlet shut-off valve is installed, and which is connected to the outlet gas duct, on which the smoke exhauster and the outlet shut-off valve are installed.

A distinctive feature of the claimed object is the following. The complex is equipped with an explosion-proofing chamber, which is located in front of the filter in the direction of gas flow and is connected to the inlet duct and to the filter through normally open self-closing valves during the explosion. At the same time, the explosion-proofing chamber is equipped with a pilot light, an anti-explosion safety valve, a nozzle with a valve for connecting to the atmosphere, an explosion pressure switch-sensor, which is electrically connected to the inlet shut-off valve, outlet shut-off valve, and smoke exhauster via the gas cleaning control system. In addition, the filter housing is sealed, and the explosion-proof chamber and filter are equipped with airtight dust unloaders.

In special cases of execution of the claimed object is characterized in that:

- on the inlet duct between the inlet shut-off valve and the normally open self-closing valve during the explosion, a nozzle with a shut-off valve for connecting to the atmosphere is installed, and in the outlet gas duct between the smoke exhaust and the outlet shut-off valve, a nozzle with a shut-off valve for connecting to the atmosphere and the gas sampler is installed.

When dry cleaning an explosive gas mixture in the inventive complex can be used bag or electrostatic filter.

If an explosive gas mixture, the temperature of which is higher than that allowed by the filter service conditions, is supplied for cleaning, then this gas mixture must be pre-cooled in the cooling devices installed in front of the complex of known design, for example, in full evaporation scrubbers, in boilers, in economizers, etc.

If gas purification is carried out periodically, for example, as in the case of converter gas purification of steel converters, the ignitor can be installed alone. In the case of continuous operation of the complex, two or more igniters are installed to increase its reliability.

As a pilot light, constantly working in the process of cleaning explosive gas mixtures, a small-capacity gas burner (2-3 kW) with automatic ignition or an electric igniter with a spiral of 0.5-1 kW can be installed.

Normally open self-closing valves during explosion used in the complex for connecting an explosion-proofing chamber are, for example, non-return valves in which a shut-off valve is pivotally mounted, which rotates under the action of the blast wave and blocks the gas duct. The outputs of these valves are oriented towards the explosion-proofing chamber.

When using the inventive object, the achievement of a technical result is achieved, which consists in preventing the destruction of the filter equipment and the complex when cleaning explosive gas mixtures.

Between the set of essential features of the claimed object and the achieved technical result there is such a causal relationship. The complex is supplied with an explosion-proofing chamber, which is located in front of the filter in the direction of gas flow and is connected to the inlet duct and with the filter through normally open self-closing valves during the explosion, while the explosion-proofing chamber is equipped with a constantly burning igniter, an anti-explosion safety valve, and a nozzle with a valve for connecting to the atmosphere, an explosion pressure switch-sensor, which is electrically connected to the input shut-off valve electric drives through the gas cleaning control system, the output a shut-off valve and a smoke exhauster, the filter housing is sealed, and the explosion-proof chamber and filter are equipped with sealed dust unloaders, the explosion is located in an explosive mixture of combustible gases and dust, as well as vapors of combustible liquids in any combination with emergency mixed air in an explosion-proof chamber with a burning ignitor and prevents the propagation of the blast wave outside this chamber while shutting off the flow of explosive gas mixture into the complex. Due to this, without complicating the design of the filter, the blast wave does not destroy the expensive elements of the filter and smoke exhaust and does not break out of the complex towards the inlet duct.

Installing a nozzle with a shut-off valve for connecting to the atmosphere at the inlet gas duct between the inlet shut-off valve and a normally open self-closing valve in the event of an explosion, as well as installing a nozzle with a shut-off valve for connecting to the atmosphere and the gas sampler at the outlet gas duct with a shut-off valve for connecting to the atmosphere the elements of the complex with air after the explosion before starting work and before access for repairmen to the inside of the complex’s devices when the complex stops for repair.

The essence of the claimed object is illustrated by the drawing, which schematically shows a General view of the complex with a filter for dry cleaning of explosive gas mixtures.

In the drawing, the following notation is used:

1 - bag filter;

2 - inlet flue;

3 - input electric actuating shut-off valve;

4 - outlet flue;

5 - smoke exhaust;

6 - output electric actuating shut-off valve;

7 - explosion-proofing chamber;

8 - normally open self-closing valve during explosion;

9 - connecting flue;

10 - normally open self-closing valve during explosion;

11 - ignitor;

12 - anti-explosion safety valve;

13 - pipe;

14 - valve;

15 - explosion pressure switch;

16 - dust unloader;

17 - dust unloader;

18 - pipe;

19 - shut-off valve;

20 - pipe;

21 - shutoff valve;

22 - gas sampler.

In a specific exemplary embodiment, the inventive complex comprises a bag filter 1, which is connected to an inlet gas duct 2, on which an inlet electric drive shut-off valve 3 is installed, and which is connected to an outlet gas duct 4, on which a smoke exhauster 5 and an outlet electric drive shut-off valve 6 are installed.

The complex is equipped with an explosion-proof chamber 7, which is located in front of the bag filter 1 in the direction of gas flow and is connected to the inlet duct 2 through a normally open self-closing valve 8. The explosion-proof chamber 7 is connected to the bag filter 1 through a gas duct 9 through a normally open self-closing valve 10 In this case, the explosion-proofing chamber 7 is equipped with an electric igniter 11 and an anti-explosion safety valve 12, which is installed on the roof of this chamber.

The explosion-proofing chamber 7 is equipped with a nozzle 13 with a valve 14 for connecting to the atmosphere and an explosion pressure switch 15. This sensor is electrically connected to the electric shut-off valve 3, outlet shut-off valve 6 and exhaust fan 5 through a gas cleaning control system. In addition, the bag filter housing 1 is sealed, and the explosion-proof chamber 7 and the bag filter 1 are equipped with sealed dust unloaders 16 and 17, respectively.

On the inlet duct 2 between the inlet shut-off valve 3 and the normally open closing valve 8 when the explosion is established, a pipe 18 with a shut-off valve 19 is installed for connection with the atmosphere. At the outlet gas duct 4 between the exhaust fan 5 and the outlet shut-off valve 6, a pipe 20 is installed with a shut-off valve 21 for connecting to the atmosphere and to the gas sampler 22.

In a specific embodiment, the inventive complex, for example, when used for gas purification from a steelmaking converter operating in a system without afterburning with a high content of carbon monoxide and hydrogen, works as follows. When the smoke exhauster 5 is operating, the explosive gas mixture from the steelmaking converter, pre-cooled to 130-150 ° C, enters the inlet duct 2 and, having passed the inlet electric actuating shut-off valve 3 and normally open self-closing valve 8 when it explodes, enters the explosion-proof chamber 7 with the electric ignitor 11 with a power of 0.5 kW. In the absence of explosive concentrations of combustible constituents and oxygen, the gas mixture through the connecting duct 9 and the normally open self-closing valve 10 when the explosion occurs is sent to the bag filter 1 for cleaning. Dust-free combustible gas is exhausted through the exhaust duct 4 and the electromagnetic shut-off valve 6 is sent to the consumer. Dust accumulated in the sealed dust unloader 16 mounted on the explosion-proof chamber 7 and the sealed dust unloader 17 mounted on the baghouse 1 is periodically removed.

When an explosive mixture of combustible gases and dust enters the explosion-proof chamber 7 with an accidentally mixed air electric igniter 11, this mixture is ignited and an explosion occurs in this chamber. In this case, the valves 8 and 10 are self-closing, preventing the propagation of the shock wave outside the complex towards the inlet duct 2 and towards the bag filter 1, and the anti-explosion safety valve 12 opens, providing a reduction in gas pressure from the explosion inside the explosion-proof chamber 7. At the same time, the explosion is detected by the sensor explosion pressure switch 15, the signal of which closes the input electric drive shut-off valve 3, the smoke exhauster 5 turns off and the output electric drive shut-off valve 6 closes - a set of It is isolated. After the explosion pressure is relieved through the anti-explosion safety valve 12, this valve closes. In this case, the residual pressure inside the explosion-proof chamber 7 holds the valves 8 and 10 closed during the explosion, which are in the closed position.

After eliminating the causes of the formation of an explosive mixture, the inlet duct 2 is freed from the explosive mixture by flushing with inert gas through the pipe 18 and the shut-off valve 19 with the open input electric actuating shut-off valve 3. Then, through the valve 14 and the pipe 13, the pressure in the explosion-proof chamber 7 decreases to the working one, valves 8 and 10 open, the smoke exhauster 5 is turned on, the input electric drive shut-off valve 3 and the output electric drive shut-off valve 6 are opened - the complex is ready for operation.

Before stopping for repairs, the complex with a filter for dry cleaning of explosive gas mixtures is blown with air, for which the inlet electric drive shut-off valve 3 and the outlet electric drive shut-off valve 6 are closed, the shut-off valve 19 on the pipe 18 on the inlet duct 2 is opened and the shut-off valve 21 on the pipe 20 is opened at the outlet gas duct 4. With the help of a smoke exhaust fan 5, the complex is blown with air until the content of harmful substances in the air taken through the gas sampler 22 is less than the sanitary norm (for example, I CO - is 20 mg / m ^3).

Claims (2)

1. Complex with a filter for dry cleaning of explosive gas mixtures, containing a filter that is connected to the inlet duct, on which the inlet shut-off valve is installed, and which is connected to the outlet gas duct, on which the smoke exhauster and the outlet shut-off valve are installed, characterized in that the complex is equipped with explosion-proofing chamber, which is located in front of the filter in the direction of gas flow and is connected to the inlet duct and to the filter through normally open self-closing valves during the explosion, while the explosion-proofing chambers equipped with a pilot light, anti-explosion safety valve, a nozzle with a valve for connecting to the atmosphere and an explosion pressure switch-sensor, which is electrically connected to the electric shut-off valve, exhaust shut-off valve and smoke exhauster through the gas cleaning control system, in addition, the filter housing is sealed and explosion-proof the chamber and filter are equipped with hermetic dust unloaders. 2. The complex according to claim 1, characterized in that a pipe with a shut-off valve for connecting to the atmosphere is installed on the inlet gas duct between the inlet shut-off valve and a normally open self-closing valve during the explosion, and a pipe with a shut-off valve is installed between the exhaust fan and the outlet shut-off valve in the outlet gas duct valve for connecting to the atmosphere and gas sampler.

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