JP2595861B2 - Coke oven dust collector - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION This invention relates to a collection ChiriSo location of the dust-containing gas generated in the kiln out the course of the red-hot coke dry distillation end from the coke oven.

[0002]

2. Description of the Related Art Generally, in a kiln discharge operation in a coke oven, a red-hot coke which has been carbonized is removed from a furnace, extruded from a carbonization chamber by an extruder, and loaded on a fire extinguishing car or coke bucket via a coke guide car. Alternatively, red-hot coke loaded on a coke bucket is wet-fired by spraying water in a fire-extinguishing tower, or is put into a coke dry-fire extinguishing system to dry-fire by exchanging heat with circulating inert gas.

[0003] In the above coke oven kiln work,
When the furnace lid of the coking chamber is removed, gas containing dust is generated from the kiln openings on the coke side and the machine side. Also, when red hot coke is loaded from a carbonization chamber onto a fire extinguishing car or coke bucket via a coke guide car, a large amount of dust is generated due to the dust generated from the extruded red hot coke and the drop impact on the fire extinguishing car or coke bucket. , And fly into the suburbs due to high temperature updrafts. In addition, a furnace lid is installed in the coking chamber where the red hot coke is discharged, and when charging coal into the coking chamber through the charging port from a coal carrier running on the furnace, a gas containing a large amount of dust from the charging port. When the level of the coal charged into the carbonization chamber is leveled uniformly by the leveler of the extruder, a gas containing a large amount of dust is generated from the furnace lid leveling port.

[0004] Therefore, regarding the dust collection in the coke oven,
Conventionally, various dust collecting methods and dust collecting apparatuses have been proposed. For collecting dust-containing gas scattered from the coke side during the coke oven kiln work, a hood is installed on a well-known coke guide car, and the dust-containing gas is installed on a dust collection device such as a bag filter installed on the ground via a fixed duct. Is most effective, and almost satisfactory results have been obtained. However, as for the machine side of the coke oven, the amount of dust generated is smaller than that of the coke side, and at present, no large-scale equipment such as collecting dust-containing gas scattered from the coke side is installed. .

[0005] As the dust collecting device on the machine side of the coke oven, a dust collecting device installed on the ground is connected to a dust collecting duct having a connection port corresponding to each furnace lid disposed along the running rail of the extruder. A dust collecting hood fixed to the extruder that covers the top of the furnace lid corresponding to the tip of the extrusion rod of the extruder and the tip of the leveler, and a connection that connects each of the dust collecting hoods and a connection port of the dust collecting duct. A device comprising a duct having a device (Japanese Patent Publication No. 57-11352), a leveling position,
A dust collecting hood that covers all the dust generation positions such as the extrusion position, the furnace lid cleaning position, and the return coke collection position is mounted above the space between the front of the extruder and the carbonization chamber, and one dust collection hood is attached to the dust collection hood. Alternatively, a device in which a plurality of dust collection and suction pipes are provided and a connection device for connecting the fixed suction duct to the connection port is provided in the dust collection and suction pipe (Japanese Patent Publication No. 57-26629). The main dust collector and the main blower are connected to the dust collection duct of the building dust collection system that collects and absorbs dust-containing gas in the building hood covering the entire upper area of the building, and builds the dust collection duct of the extruder side dust collection system. A device connected to a dust collection duct of a house dust collection system and a booster blower provided in a dust collection duct of an extruder side dust collection system (Japanese Patent Publication No. 57-26711), an extrusion ram, a lid removing mechanism and Solid covering the top near the furnace lid cleaning A dust collecting hood comprising a hood and a movable hood capable of opening and closing a gap between the fixed hood and the coke oven is provided. The inside of the fixed hood is separated to clean a furnace lid of the dust collecting hood, an upper portion of an extrusion ram, a lid removing mechanism, and an extrusion mechanism. A device in which a suction duct of an on-machine dust collecting device is connected by a connection duct (Japanese Utility Model Publication No. 59-40424) has been proposed.

[0006]

The dust collecting hood in the dust collecting on the machine side of the coke oven is disclosed in Japanese Utility Model Publication No. 59-4.
It has a shape that covers the furnace-side front surface as disclosed in Japanese Patent No. 0424 and Japanese Patent Publication No. 57-26629. In addition, the mainstream of the dust collecting device on the machine side is a bag filter having a low cost and a high dust collecting efficiency. However, when collecting dust on the machine side, tar in the dust-containing gas is a disadvantage.
One is that high-temperature tar mist passes through the bag filter cloth, and the other is that the bag filter cloth is clogged by tar and the dust collecting ability is reduced.

When the high-temperature tar mist passes through the filter cloth of the bag filter, tar generated at the time of removing the furnace lid, cleaning the furnace lid, and leveling is sucked together with the hot gas at the time of extruding the red hot coke, and becomes a mist at about 200 ° C. Therefore, dust collection is impossible even if a filter cloth and a precoat layer having a large basis weight are applied. According to the results of tests conducted by the present inventors on a bag filter mounted on an extruder, the trapping rate of high-temperature tar mist was 30%, and 70% of the bag passed through the bag filter to generate white smoke. Further, clogging of the bag filter cloth with tar is a phenomenon that occurs inevitably because tar is a highly adherent substance, and the tar ratio calculated by the total tar amount / total dust amount (coke powder) is 3%. %
It is said that if it is less than 10, clogging of the bag filter cloth does not occur. However, in the case of dust collection on the machine side, the tar ratio is around 40% at the maximum.

[0008] The clogging of the filter cloth of the bag filter causes a reduction in dust collection capacity (a reduction in suction air volume), so that not only a predetermined dust collection effect cannot be obtained, but also a running cost for cleaning and replacement of the filter cloth increases. . Further, in the case of a felt-type bag filter of the pulse jet cleaning method, the inner cage supporting the filter cloth and the filter cloth are fixed by tar, so that the dust cannot be removed and the dust collecting function is significantly reduced.

Therefore, the above-mentioned Japanese Patent Publication No. 57-11352 is disclosed.
In the device disclosed in Japanese Patent Application Publication No. H06-27138, since there is a considerable distance between the dust-containing gas trapping unit and the dust collector, the temperature of the dust-containing gas decreases and the tar collection rate increases as compared with the extruder-mounted type. However, since the tar ratio does not change, clogging of the filter cloth occurs as in the case of the extruder-mounted type. For the clogging of the filter cloth due to this tar, a method of sucking the stored coke powder first through a bag filter to apply a precoat to the filter cloth, and then suctioning and removing the dust-containing gas having a high tar ratio has been implemented. However, there is a disadvantage that the management of the stored coke powder equipment and the transportation equipment is required, and the equipment cost and the running cost are increased. Moreover, it is difficult to reduce the tar ratio to 20% or less at the maximum because the amount of stored coke powder is limited. Japanese Patent Publication No. 57-26629 and Japanese Patent Publication No.
The device disclosed in Japanese Patent No. 26711 does not mention tar in dust-containing gas, and when a bag filter is used as a dust collecting device, clogging of a filter cloth cannot be avoided. Further, in the apparatus disclosed in Japanese Utility Model Publication No. 59-40424, the distance between the dust-containing gas trapping unit and the dust-collecting device is short because the dust-collecting device is mounted on an extruder, and the temperature of the dust-containing gas does not decrease. High-temperature tar mist blows through the bag filter, making it impossible to collect dust with high efficiency. In addition, the filter cloth is so clogged that it cannot maintain a predetermined dust collecting ability.

An object of the present invention is to stabilize dust-containing gas containing high-temperature tar mist on the machine side of a coke oven at a high yield without clogging the filter cloth of a bag filter and preventing blow-through of the high-temperature tar mist. It is to provide a coke oven collection ChiriSo location that can collect dust in.

[0011]

Means for Solving the Problems The present inventors have conducted intensive studies and studies to achieve the above object. As a result, tar ratio of free dust gas coke side of coke oven, very low in comparison to the tar ratio of machine side-containing dust gas and dust content of the free dust gas coke side,
Compared to the dust content of the free dust gas machine side focusing Quite often, if the introduced to the dust collector of the coke side-containing dust gas containing dust gas machine side, captured in extruder, it can satisfy the filter cloth clogging indicator and is the tar ratio below 3% conditions of a bag filter dust collector, also, the dust collecting apparatus including dust gas coke side-containing dust gas machine side, captured in extruder When introduced into, containing dust gas piping distance is long is cooled on the way, leads to the conclusion that can be eliminated decrease the dust collecting capacity by blow-by of the tar were problems of baghouse dust extruder equipped formula Reached the present invention.

[0012]

[0013] established a dust collecting hood to trap coke furnace total tar / total dust amount sought tar ratio lower coke side of the dust containing gas over coke guide car, fire fighting vehicles or Kokubake' bets car of the railway bar and disposed fixed duct having a connection port for each furnace chamber along a
A dust collecting hood that captures dust-containing gas on the machine side with a high tar ratio is installed on the extruder in the dust collector that connects the filter and the suction fan, and the connection corresponding to each furnace chamber is made along the extruder rail. Arrange a dust collection duct with a mouth,
A suction duct having a connection device capable of communicating with a connection port of the dust collection duct is connected to the dust collection hood, and a bag filter inlet connected to the dust collection duct and the fixed duct is connected to a furnace boundary.
They were connected by a communication duct passing through the lower part of the boundary .

[0014]

According to the present invention, the dust-containing gas on the machine side having a high tar ratio obtained by the total tar amount / total dust amount is introduced into the dust collecting device for the coke side dust-containing gas having a low tar ratio. Therefore, the maximum amount of coke dust in the dust-containing gas of the cokeside having a low tar ratio is as large as 5000 mg / Nm ^3, and the maximum tar amount of the machine side having a high tar ratio is 100 mg / Nm3.
^{Even if} the dust-containing gas of ³ is sucked, the total tar ratio is 2
%, The dust-containing gas on the machine side can be removed smoothly without clogging of the bag filter cloth.

Further, even if the dust-containing gas on the coke side and the dust-containing gas on the machine side are simultaneously sucked, the time difference is caused because the dust-containing gas generating section on the cork side is closer to the bag filter than the dust-containing gas generating section on the machine side. Then, a coke dust layer of the cokeside dust-containing gas is formed on the primary adhesion layer attached to the filter cloth of the bag filter, and then the machine-side dust gas is sucked in 3 to 4 seconds later, A dust layer having a high tar ratio on the machine side is formed on the coke dust layer. For this reason, the coke dust layer of the dust-containing gas in the coke side has a small amount of tar, and a machine-side dust layer with a large amount of tar is formed thereon, so that the tar is mostly captured by the coke dust layer and clogged. There is no penetration of tar into the primary adhesion layer attached to the filter cloth, which is a factor, preventing clogging of the filter cloth and removing dust together with the coke dust layer, ensuring stable dust collection efficiency Can be obtained.

Further, in the dust collecting apparatus of the present invention, a dust collecting hood for catching dust-containing gas on a machine side having a high tar ratio is provided on an extruder, and a connection corresponding to each furnace chamber is provided along a rail of the extruder. A bag filter provided with a dust collection duct having an opening, a suction duct having a connection device capable of communicating with a connection port of the dust collection duct connected to the dust collection hood, and connected to the dust collection duct and the fixed duct; The entry side passes through the lower part of the furnace
Since the connection is made by a communication duct, the bag filter and suction fan connected to the fixed duct on the existing corkside can be shared, eliminating the need for the cost of installing a bag filter and suction fan .

[0017] Further, the conventional cokeside dust collector is
It was installed before the early 1950s and is intended for wet fire extinguishing vehicles. For this reason, the dust collection hood covering the wet-type fire extinguishing vehicle receives coke while the wet-type fire extinguishing vehicle moves, so that the suction part area is large and the suction air volume is 3000 to 4000.
Nm ³ / min. Recently , however , many dry-type fire extinguishing systems have been introduced for the purpose of preventing dust during extinguishing coke and recovering sensible heat of red-hot coke. For this reason, red-hot coke extruded from a coke oven is supplied to a coke bucket.
Was stopped and stopped, so the suction area of the dust collection hood was modified to be smaller than that of a wet fire extinguishing vehicle, and the suction air volume was 10
It is reduced by about 00 Nm ³ / min. On the other hand, the suction air volume of the dust collecting hood for catching the dust-containing gas on the machine side is sufficient to be about 1000 Nm ³ / min. It can be used without increasing the capacity of suction fans .

[0018]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiment 1 FIGS.
3 will be described. Figure 1 is a whole side view of a collecting ChiriSo location of the present invention, Figure 2 is likewise a whole schematic plan view, FIG. 3 shows the dust adhesion state of the filter cloth, (a) drawing a partial enlarged sectional view, ( Fig. b) is an explanatory view of the state of tar adhesion to coke dust. In FIG. 1, 1 is a coke oven, 2 is an extruder, 3 is a charcoal truck, 4 is a coke guide truck, 5 is a fire extinguishing truck or bucket truck, and 6 is a coal tower. 7 is a dust collecting hood attached to the coke guide vehicle 4, 8 is a fixed duct 9 arranged along the rail of the dust collecting hood 7 and the fire extinguishing truck or the bucket truck 5.
A duct connection device for connecting a connection port corresponding to each of the coking chambers 10 of the coke oven 1 provided on the upper surface of the coke oven 1 and a kiln mouth dust collection duct 11 provided in the upper part of the kiln mouth of the coke side in the furnace group direction.

A guide duct 12 connects the center of the fixed duct 9 and the preduster 13, a guide duct 14 connects the center of the dust collection duct 11 and the preduster 13, and 15 denotes a guide duct that connects the preduster 13 to the center. A cooling pipe connected to the pre-duster 13, a bag filter 16 connected to the cooling pipe 15, 1
7 is a suction fan connected to the outlet side of the bag filter 16,
18 is a silencer. Reference numeral 19 denotes a hood that covers the extruder beam 20 provided on the extruder 2, the upper part of the furnace opening on the leveler beam 21 and the upper part of the furnace lid cleaner position, 22 denotes a duct on the extruder, 23 denotes a fan mounted on the extruder 2, 24 Is a duct connecting device, 25 is an extruder system dust collecting duct having a connection port corresponding to each carbonization chamber 10 of the coke oven 1 arranged along the rail of the extruder 2, and 26 is an extruder system dust collecting duct 25.
Of the coke oven 1
Extruder system connecting ducts connected through the lower part of the furnace group boundary.

In the kiln discharging operation of the coke oven 1, when the furnace lids on both sides of the carbonization chamber 10 are removed by the extruder 2 and the door lifter provided on the coke guide wheel 4, gas and dust are generated from the kiln opening. The side is introduced into the pre-duster 13 through the kiln dust collecting duct 11 and the guide kiln duct 14 connected to the hood covering the upper part of the kiln by the drive of the suction fan 17, and after the coarse dust is removed. After being cooled by the cooling pipe 15, the dust-containing gas is purified by the bag filter 16 and released from the silencer 18 into the atmosphere. On the other hand, the machine side is collected by a hood 19 provided on the extruder 2 by driving a mounting fan 23 on the extruder 2, and is collected via an extruder upper duct 22 and a duct connecting device 24. After reaching the duct 25, the dust-containing gas is introduced into the bag filter 16 through the extruder system communication duct 26, and is cleaned and released from the silencer 18 into the atmosphere.

Further, when red-hot coke is extruded from the carbonization chamber 10 by the extrusion beam 20 of the extruder 2 and is loaded on the fire extinguishing truck or bucket truck 5 via the coke guide truck 4, the drop impact to the fire extinguishing truck or bucket truck 5 is performed. A large amount of coke dust is generated by the suction fan 17 which is being driven.
Is collected by the dust collecting hood 7 provided in the coke guide wheel 4 and introduced into the pre-duster 13 through the duct connection device 8, the fixed duct 9, and the guide system duct 12, and after removing coarse dust, the cooling pipe After cooling at 15, the dust-containing gas is purified by the bag filter 16 and released from the silencer 18 to the atmosphere. On the other hand, the extrusion beam 20 of the extruder 2
When extruding red hot coke from the carbonization chamber 10 by
Gas and dust are generated from the kiln mouth of the machine side,
By the driving of the mounting fan 23 on the extruder 2, the dust is collected on the hood 19 provided on the extruder 2,
It reaches the extruder system dust collection duct 25 via the duct connecting device 24, and is introduced into the bag filter 16 via the extruder system communication duct 26, and the dust-containing gas is purified and released from the silencer 18 into the atmosphere. .

The carbonization chamber 10 from which red hot coke is extruded
After the furnace lid is mounted, coal is charged from the coal loading truck 3. At the end of charging, the leveler beam 21 of the extruder 2 is inserted into the carbonization chamber 10 from the leveling opening of the furnace lid and reciprocated. During leveling work for flattening the upper surface of the introduced coal to secure a gas path, dust is ejected together with coke oven gas generated from the coal charged from the leveling port. By driving, the dust is collected by a hood 19 provided on the extruder 2, reaches an extruder system dust collection duct 25 via an extruder upper duct 22, a duct connecting device 24, and a bug is formed via an extruder system communication duct 26. The dust-containing gas is introduced into the filter 16 and is cleaned and released from the silencer 18 into the atmosphere.

The gas and dust generated from the kiln mouth of the machine side and the coke side are almost simultaneously generated, but the coke dust in the dust-containing gas sucked by the fixed duct 9 and the dust collecting duct 11 is maximum. 500
0 mg / Nm ^{3, which} is very large and the hood 19 on the extruder 2
Even if a dust-containing gas having a maximum tar amount of 100 mg / Nm ³ sucked into the extruder system dust collection duct 25 and introduced into the bag filter 16, the total tar ratio is 2%.
Since the filter cloth of the bag filter 16 is not clogged, the extruder system and the guide system dust can be collected smoothly. In addition, the dust-containing gas collected by the hood 19 on the extruder 2 and sucked by the extruder system dust collection duct 25 has a long piping distance before being introduced into the bag filter 16, so that it is cooled in the middle. 40-50 ° C depending on the effect
, And the blow-through of the tar generated by the bag filter alone on the extruder 2 is prevented, and the tar component can be removed at a high collection rate.

The situation inside the bag filter 16 is shown in FIG.
As shown in FIGS. (A) and (b), dust collection and filtration are performed by the primary adhesion layer 28 attached to the filter cloth 27. Gas and dust generated from the kiln openings of the machine side and the cork side are: Although generated at almost the same time, the dust-containing gas of the cokeside sucked by the fixed duct 9 and the kiln dust collecting duct 11 is close to the bag filter 16, and therefore, the dust-containing gas sucked by the extruder system dust collecting duct 25 is different from the dust filter. The coke dust layer 29 is formed on the primary adhesion layer 28 by the dust-containing gas sucked by the fixed duct 9 having a large amount of coke dust and the kiln dust collecting duct 11, and then 3 to 4 seconds. Later, the tar ratio is high, and the dust-containing gas sucked by the extruder system dust collection duct 25 in which the tar mist 31 adheres around the coke particles 30 is introduced. For this reason, the extruder system dust 32 in which the tar mist 31 has adhered to the periphery of the coke particles 30 adheres to the upper surface of the coke dust layer 29 having a small amount of tar,
Most of the tar content is captured by the coke dust layer 29, and there is no tar permeation into the primary adhesion layer 28 which causes clogging of the filter cloth 27. The dust collection control of each dust collection system is performed by opening and closing control dampers 33, 34, 35 provided in the guide system duct 12, the guide system duct 14, and the extruder system communication duct 26, and the torque converter of the suction fan 17 and the like. Is performed by controlling the number of rotations.

[0025]

As described above, according to the dust collecting apparatus of the present invention, the tar component can be removed at a high collection rate without a large capital investment, and the filter cloth of the bag filter can be clogged. Prevention and stable collection of dust-containing gas from the machine side and cork side.

[Brief description of the drawings]

1 is an overall side sectional view of the collecting ChiriSo location of the present invention.

Figure 2 is an overall schematic plan view illustrating a current ChiriSo location of the present invention.

FIGS. 3A and 3B show the state of dust adhesion to a filter cloth. FIG. 3A is a partially enlarged cross-sectional view, and FIG. 3B is an explanatory view of the state of tar adhesion to coke dust.

[Description of Signs] 1 Coke oven 2 Extruder 3 Coal truck 4 Coke guide truck 5 Fire extinguishing truck or bucket truck 6 Coal tower 7 Dust collection hood 8 Duct connection device 9 Fixed duct 10 Carbonization room 11 Kiln opening dust collection duct 12 Guide system Duct 13 Pre-duster 14 Guide system duct 15 Cooling pipe 16 Bag filter 17 Suction fan 18 Silencer 19 Hood 20 Extrusion beam 21 Leveler beam 22 Duct on extruder 23 Mounting fan 24 Duct coupling device 25 Extruder system dust collection duct 26 Extrusion Machine system communication duct 27 Filter cloth 28 Primary adhesion layer 29 Coke dust layer 30 Coke particles 31 Tar mist 32 Extruder system dust 33, 34, 35 Control damper

Claims (1)

(57) [Claims] [Claim 1] established a dust collecting hood on coke guide car capturing the coke oven total tar / low tar ratio sought total amount of dust coke side of the dust-containing gas, the extinguishing vehicle or Kokubake' preparative vehicles Along with the rail, a fixed duct having a connection port corresponding to each furnace chamber is installed.
In a dust collector connected to a bag filter and a suction fan , a dust collecting hood that captures dust-containing gas on the machine side with a high tar ratio is installed on the extruder, and connections corresponding to each furnace chamber are made along the extruder rail. Arrange a dust collection duct with a mouth,
A suction duct having a connection device capable of communicating with a connection port of the dust collection duct is connected to the dust collection hood, and the dust collection duct and the fixed duct are connected by a communication duct passing through a lower part of a furnace section boundary. And coke oven dust collector.