UA80387C2 - Gas-discharge section of steel-smelting unit - Google Patents

Abstract

The invention relates to discharge and purification of technological gases going in particular from steel-smelting units. A gas-discharge section of steel smelting unit has a cowl, gas ducts with controlled valves, indicators of temperature and pressure, a cloth filter with tank for dust equipped with system of dust unloading with drive, smoke suction unit and chimney. It has safety valve as well. At that the tank for dust has a vibrator and indicators of upper and lower dust levels. A drive of system of dust unloading has consumed power indicator. Smoke suction unit has indicator of position. Vibrator is blocked with indicator of consumed power of drive of system of dust unloading. Drive of system of dust unloading is blocked with indicators of the upper and the lower dust levels and indicator of position of smoke suction unit. Safety valve can be installed on the body of cloth filter. The invention promotes increase of reliability and decrease of metal consumption of gas discharge section.

Description

Description of the invention

The claimed invention relates to the field of removal and purification of process gases leaving 2 from steel-smelting units during melting, and can be used in the metallurgical industry.

The well-known gas removal tract of a steelmaking electric furnace (Stark S.B. Gas purification apparatus! and installations in metallurgical production. - M.: Metallurgiya, 1990. - p. 308), which includes an umbrella, gas ducts with control valves, a sleeve filter with a hopper for of dust, equipped with a dust discharge system with a drive, a smoke extractor and a chimney. 70 Among the disadvantages of such a gas outlet tract is the impossibility of preventing the pressure from increasing to an emergency value and a complex system of regulating the technological regime, which cause a decrease in the reliability of operation and an increase in the metal consumption of the gas outlet tract structure as a whole.

The closest to the claimed invention, in terms of its technical essence and the result that can be obtained when using it, is the gas outlet tract of an arc steel furnace (US Pat. Mo4450569, then IPKZ E2707/00, publ. 22.05.84), which includes includes an umbrella, gas ducts with regulating valves, temperature and pressure sensors, a fabric filter with a dust hopper, equipped with a dust discharge system with a drive, a smoke extractor and a chimney.

Disadvantages of this type of exhaust waste are low operational reliability and unsatisfactory operating conditions.

The specified gas removal path can be used only in systems operating in vacuum mode, without increasing the pressure, and this limits the technological possibilities and areas of its application. In addition, due to the absence of a safety valve that regulates pressure, it is impossible to prevent the occurrence of emergency situations - explosions - in such a gas outlet tract. Uninterrupted operation of the equipment of the described structure in such situations is solved thanks to the performance of the elements of the tract of increased strength, which leads to a high metal density of the structure as a whole. high school

The basis of the claimed invention is the task of creating such a gas outlet tract (o) of a steel smelting unit, which, due to the improvement of the design by introducing new elements and new connections between elements, will allow to increase the reliability of work and improve the operating conditions of the gas outlet tract, expand technological capabilities and areas of its application, as well as reducing the metal content of the gas outlet structure as a whole.

The task is solved by the fact that the gas exhaust tract of the steelmaking unit, which (ee) includes an umbrella, gas ducts with control valves, temperature and pressure sensors, a fabric filter with a dust hopper, equipped with a dust discharge system with a drive, a smoke extractor and a chimney, according to with the invention, equipped with a safety valve, the dust hopper is equipped with a vibrator and sensors of the upper and lower (3 levels of dust, the drive of the dust discharge system is equipped with a power consumption sensor, the smoke extractor is equipped with a position sensor, the vibrator is locked with the power consumption sensor of the drive of the dust discharge system, and the drive of the dust discharge system is blocked with sensors of the upper and lower levels of dust and the sensor of the position of the fume hood. In a separate version of the execution of the gas exhaust path of the steel smelting unit, the safety valve is installed on the body of the fabric filter. In addition, the safety valve "du" is equipped with a damper with a sealing element, hinged and cargo clamping devices, while holes with hinged lids and sealing elements are made in the flap. c Equipping the gas outlet tract with a safety valve due to the prevention of emergency situations, which "c" lead to failures in the operation of the technological equipment of the gas outlet tract, allows to increase the reliability of work and improve the operating conditions of the gas outlet tract, expand the technological capabilities and the scope of its application. In addition, the equipment of the gas exhaust tract with a safety valve bo 35 allows to reduce the calculated safety margin of structural elements for guaranteed power loads, namely, it allows to perform the equipment of the gas exhaust tract from metal of minimum thickness, (ав) which, in turn, allows to reduce the metal consumption of the structure of the gas exhaust tract as a whole. c Dust hopper equipment with a vibrator and sensors of the upper and lower dust levels, dust discharge system drive equipment with a power consumption sensor, smoke vacuum equipment with a sensor (ee) 50 positions, vibrator blocking with a dust discharge system drive power consumption sensor, and -h also system drive blocking dust discharge with sensors of the upper and lower levels of dust and a sensor of the position of the smoke extractor allows to increase the reliability of work and improve the operating conditions of the gas exhaust tract, expand the technological capabilities and scope of its application, as well as reduce the metal consumption of the structure of the gas exhaust tract as a whole.

Installation of the safety valve on the fabric filter housing simplifies the measures for its installation,

GF) maintenance and repair, and this, in turn, allows to increase the reliability of work and

GF improvement of operating conditions of the gas outlet tract as a whole. In particular, the installation of the safety valve in this way does not require the organization of additional service areas, which allows to ensure a reduction in the metal consumption of the construction of the gas outlet tract as a whole. In addition, the installation of a safety valve on the body of the filter (due to the absence of chimney collectors to connect the working cavity of the filter with the cavity of the valve) makes the design of the filter more compact, which allows to reduce the time of the start of the valve operation. In turn, reducing the valve start-up time allows you to bring the filter to the working (safe) mode of operation with minimal loss of time, and this allows you to expand the technological possibilities and the scope of application of the gas exhaust tract as a whole. 65 Equipping the safety valve with a flap with a sealing element, hinged and cargo pressure devices, making holes in the flap with hinged covers and sealing elements ensures its two-way action. The design of the safety valve according to the invention allows the use of the gas discharge path according to the invention both in conditions of negative and positive pressure, as well as

During cleaning of explosive gases. All this ensures increased reliability of operation and improvement of operating conditions of the gas outlet tract, expansion of technological capabilities and scope of its application, as well as reduction of the metal consumption of the gas outlet tract structure as a whole.

In view of the above and taking into account the revealed cause-and-effect relationship between the set of features of the claimed invention and the technical result obtained with their help, it can be asserted that the task set as the basis for the creation of the gas discharge path of the steelmaking unit, is completely solved, because the use of the invention due to the improvement of the design by introducing new elements and new connections between elements allows to increase the reliability of work and improve the operating conditions of the gas outlet tract, expand the technological capabilities and scope of its application, as well as reduce the metal consumption of the gas outlet tract structure as a whole .

The design of the gas outlet tract is explained by the drawings, which show: Fig. 1 - general view of the gas outlet tract of the steelmaking unit; Fig. 2 - view A in Fig. 1 (safety valve); Fig. 3 - cross-section along B-B in Fig. 2; Fig. 4 - cross-section along B-B in Fig. 3.

The gas outlet tract of the steelmaking unit includes umbrella 1, gas duct 2, connected to umbrella 1, and gas duct 3, which departs from the steelmaking unit. A control valve 4 is installed on gas duct 2, and a control valve 5 is installed on gas duct Z. Gas ducts 2 and C are connected to each other and connected to a fabric filter 6, which is connected to a chimney 7, the exhaust pipe of which is inserted into a chimney 8.

The fabric filter 6 is connected to the dust hopper 9, which is equipped with a dust discharge system 10 with a drive 11. The dust hopper 9 is equipped with a vibrator 12, sensors for the upper 13 and lower 14 levels of dust.

The drive 11 of the dust discharge system 10 is equipped with a power consumption sensor 15, and the smoke extractor 7 (8) is equipped with a position sensor 16 (on/off). The drive 11 of the dust discharge system 10 is blocked (functionally connected) with the sensors of the upper 13 and lower 14 dust levels in the hopper 9 and the position sensor 16 of the smoke extractor 7. The vibrator 12 is blocked with the power consumption sensor 15 of the drive 11. M zo On the fabric filter housing 6 a safety valve 17 is mounted, which includes a flap 18 with a sealing element 19. A hinged device 20 and a cargo pressure device 21 are attached to the flap 18. Holes 22 are made in the flap 18, to which hinged covers 23 with sealing elements 24 fit. At the same time, the flap 18 is placed inside the body of the fabric filter 6, and the covers 23 are placed outside the body of the fabric filter 6. o

Pressure control sensors 25 and so temperature control sensors 26 are installed in the gas duct Z, which departs from the steel-smelting unit.

The gas outlet works as follows.

Simultaneously with the start of operation of the steel-smelting unit, the fume hood 7 is activated, which creates a vacuum in the entire gas outlet tract. As a result of this, the suction begins both through gas duct C of heated dusty gases (directly from the steel-smelting unit), and through umbrella 1 and gas duct 2 of gases that exit into the atmosphere through leaks and gaps of the steel-smelting unit. With the help of control valves 4 and 5, the appropriate technological mode of operation of the gas exhaust tract itself is set and ;" of the steel-smelting unit, the parameters of which are monitored using pressure sensors 25 and temperature 26. Contaminated gases pass through the fabric filter 6, where they are cleaned, and are sent to the chimney 8 through the smoke extractor 7.

Go! During the periodic regeneration of the filter fabric of the filter b, dust is poured into the hopper 9. Here the dust accumulates and when it reaches the level corresponding to the location of the sensor 13, the drive 11 of the dust discharge system 10 is turned on, and the dust is discharged into the container. When the dust level in the hopper reaches the level that 2) corresponds to the location of the sensor 14, the drive 11 is turned off and the dust discharge stops.

In the event that the dust level in the hopper 9 does not reach the level of the sensor 14 and the drive 11 starts working without a load (which indicates the formation of a dust pile as a result of its sticking together), the vibrator 12 blocked with the "M" drive 11 is turned on, which leads to the collapse of the pile dust and its loosening.As a result, dust discharge is restored.

During shutdowns of the smoke extractor 7, which may occur during major repairs of the equipment, when due to the long-term presence of dust in the hopper 9, its "slagging" occurs (the formation of a mass that is difficult to destroy), the position sensor 16 sends a command to the drive 11 to completely discharge the dust from the hopper 9, while the sensor 14 (F) of the lower dust level is blocked by the command from the position sensor 16 of the smoke extractor 7. ka During sharp fluctuations in the pressure in the gas discharge path, which may be the result of the combustion or transformation of the hydrocarbon that enters it from the steel smelting unit, the safety valve 17 is triggered. If the pressure rises above the regulated one, the hinged covers 23 with sealing elements 24 move away from the valve 18, and the excess gas escapes to the atmosphere through the holes 22. If the pressure falls below the regulated level, which may be caused by excessive clogging of the filter cloth, the valve 18 together with the sealing element 19 moves away from the wall of the filter housing 6, and air enters the filter 6 through the resulting gap. 65 When the pressure in the gas outlet path of the lid is normalized 23 with sealing elements 24 under the influence of gravity, and the valve 18 with the help of hinged 20 and cargo pressure 21 devices are returned to the original position.

Claims (2)

The formula of the invention 1. The gas exhaust tract of the steelmaking unit, which includes an umbrella, gas ducts with regulating valves, temperature and pressure sensors, a fabric filter with a dust hopper equipped with a dust discharge system with a drive, a smoke extractor and a chimney, which is distinguished by the fact that the gas exhaust tract has 70 safety valve, the dust hopper has a vibrator and sensors of the upper and lower dust levels, the drive of the dust discharge system has a power consumption sensor, the exhaust fan has a position sensor, while the vibrator is interlocked with the power consumption sensor of the dust discharge system drive, and the drive of the dust discharge system is interlocked with sensors of upper and lower levels of dust and a sensor of the position of the smoke extractor. 2. The tract according to claim 1, which differs in that the safety valve is installed on the body of the fabric filter. Q. Tract according to claim 1, which is characterized by the fact that the safety valve has a flap with a sealing element, hinged and cargo pressure devices, while openings with hinged covers and sealing elements are made in the flap. c schi 6) u (ee) (ze) "c) d) - and? (ee) («c) (95) (ee) what has) 60 b5