KR200320156Y1 - Coal drying equipment in pulverized coal manufacturing equipment - Google Patents

Abstract

The present invention relates to a coal drying apparatus in a pulverized coal manufacturing facility which prevents the increase in differential pressure and the reduced amount of pulverized coal produced in a mill by heating and drying coal, directly or indirectly, and its technical configuration is a neutron moisture system ( 1) The screw conveyor is connected to the feeder (4) on the bottom of the hopper (2) is installed, the heating pipe (6) is installed on the feeder (4) and the rotating shaft (7) penetrated therein is connected to both sides. (8) to integrally couple the flow membrane (9) that is intertwined in the inside, and to combine the chute 10 is provided with a seal valve (3 ') in the lower side of the feeder (4) The lower end is connected to the mill 11, and both ends of the rotary shaft 7 are coupled to the swivel joints 15 and 16 to which the draft line 13 and the waste gas line 14 are connected, and the rotary shaft 7 To the motor 18 and the chain 19, and the draft line 13 is connected to the inside of the feeder 4 The first and second vent valves 20 and 21 are installed at the ends of the draft line 13 ′ connected to the pipe 6 and connected to the inside of the feeder 4 so that one end thereof is a draft vent line. It is a summary that it consists of the structure inserted in the inside of the pit 43 in which the 22 is provided.

Description

Coal Drying Equipment in Pulverized Coal Mill

The present invention relates to a coal drying apparatus input to the pulverized coal manufacturing process in the pulverized coal manufacturing equipment, and uses the exhaust gas of the blast furnace according to the moisture content of coal injected into the hopper to move the coal moved inside the feeder through the screw conveyor. Due to the excessive amount of moisture in the rainy season or the rainy season, which is heated by direct or indirect heating, the differential pressure rises in the milling device, the extraction duct, and the exit temperature of the bag filter chamber reduce the production of pulverized coal and thus the instability of the operation. The present invention relates to a coal drying apparatus in a pulverized coal production plant to prevent unburned.

In the conventionally known fine coal production facility, coal drying and gas for transporting the coal are required, and a constant temperature (about 220 ° C.) is maintained to maintain the outlet temperature of the extraction duct and the bag filter chamber at a manageable temperature. A part of the exhaust gas for the blast furnace is boosted using a booster to preheat the inside of the mill and the bag filter to keep the work process smooth.

Conventional pulverized coal manufacturing equipment related to such a technology, as shown in Figure 1, when the exit duct 102 temperature (80 ℃) of the mill 101 and the exit temperature (75 ℃) of the bag filter 103 or more The coal stored in the coal hopper 104 through the belt conveyor in the coal mill is dropped through the coal feeder 105 to the inside of the mill 101 so that the mill 101, which is a manufacturing facility of pulverized coal, is operated. The seal air fan 106 installed at one side of the seal unit sucks air from the atmosphere to seal the bearing unit installed inside the mill 101, and the fine powder ground with the west gas in the mill 101 is fed to the feeder 105. A seal air valve is installed on the top of the vertical chute 107 to prevent backflow of the furnace.

In addition, when the pulverized coal production facility is operated, the west gas 108 of the hot stove performs drying of coal and sends pulverized coal to the bag filter 103, wherein the fine powder collected in the bag filter 103 is stored in a storage tank through a valve. The pulverized coal is stored in 109, and the filling pulverized coal is loaded into the furnace through the discharge valve 112 by the nitrogen (N ₂ ) gas that is loaded and charged in the feed tank 111 while the filling valve 110 is opened. It is made of a blown configuration.

However, in the pulverized coal production equipment as described above, when the coal contains excessive moisture in rainy season or rainy weather, the outlet duct 102 temperature (80 ° C.) of the mill 101 and the heater of the bag filter 103 are managed temperature (75). It is lowered to less than (℃) to increase the differential pressure of the mill 101 and the production amount of pulverized coal to reduce the operation rate of the equipment, there is a disadvantage that the operation amount is reduced due to the decrease in the blowing amount of the pulverized coal, resulting in a cost increase.

In addition, when the heating equipment 113 for reducing moisture is operated, the risk of fire is high in the volatile pulverized coal manufacturing equipment, the equipment cost is increased and the workload is increased, and the vertical chute 107 is caused by the occurrence of coals attached to the vertical chute 107. There are many problems, such as clogging), requiring frequent maintenance of the manufacturing facilities.

The present invention is to improve the various problems as described above, the purpose is to control the temperature of the exit duct and the bag filter of the mill according to the moisture content of coal to properly dry the coal to prevent the differential pressure of the mill Of course, the production of pulverized coal is increased, the blowing of pulverized coal is performed stably, and a separate heater facility is not required, thereby reducing the equipment cost and preventing an increase in workload.

In addition, in the pulverized coal production equipment which prevents the increase of the work load by preventing the increase of the work load by preventing the clogging caused by the sticking of the inner wall of the chute due to excessive moisture of the coal by a drying device. To provide a coal drying apparatus.

1 is a process diagram showing a conventional pulverized coal production equipment

Figure 2 is an overall configuration diagram showing a pulverized coal manufacturing equipment according to the present invention

Figure 3 is a partial detailed view showing a coal drying apparatus according to the present invention

Figure 4A is a schematic cross-sectional view showing the swivel joint of the drying apparatus according to the present invention

B is a schematic cross-sectional view showing a pit according to the present invention.

Explanation of symbols on the main parts of the drawings

2 ... Hopper 4 ... Feeder

6 ... heating piping 7 ... rotation shaft

8 ... screw conveyor 9 ... flow screen

10.Suits 11 ... Mill

13 Draft Line 14 Waste Gas Line

15 ... Swivel Joint 23 ... Booster

25 ... heat exchanger 30 ... bag filter

32 ... Differential reservoir 34 ... Feed tank

43 ... ft

As a technical configuration for achieving the above object, the present invention, the feeder is installed on the lower side of the hopper and a seal air fan is coupled to the filter coupled to one side of the mill connected through the chute and connected to the pipe connected to the mill and chute respectively And a mill outlet duct coupled to the upper side of the mill to connect an end thereof to the bag filter, a valve is installed at the lower end of the bag filter, a differential storage tank is installed at the lower side thereof, and a filling valve is installed at the bottom of the differential storage tank. In the pulverized coal manufacturing equipment which connects and installs a feed tank at a lower side thereof,

A neutron moisture meter is installed on the upper side of the hopper, a seal air valve is installed on the upper side of the feeder connection part of the bottom surface, a heat insulating member is installed on the outer wall of the feeder, and a heating pipe is installed adjacent to the inside of the feeder, and a rotating shaft is provided inside the heating pipe. Install a screw conveyor connected to both sides to integrally combine a plurality of flow membranes are alternately coupled to the inside, a seal air valve is installed on one side of the chute coupled to the lower side of the feeder, the draft on both ends of the rotary shaft Coal drying unit for coupling the swivel joint is connected to the line and the waste gas line, respectively, the gear is installed on one side of the rotary shaft and connected to the gear of the motor installed on one side of the feeder; Wow,

The booster is connected to one side of the waste gas line to supply heat to the feeder, and branched into a mill and a feeder. The waste gas line connected to the feeder is branched, and one side passes through a heat exchanger through which a coolant line passes, and penetrates into one side of the feeder. A waste gas supply unit which connects the other end of the branched waste gas line and connects one end thereof to one side of the heating pipe and the other end to the inside of the swivel joint; And,

Branching the draft line is connected to the heating pipe inside the feeder, connects the draft line through the inside of one side of the feeder to branch the end and install the first and second vent valve, respectively, the secondary vent valve By providing a coal drying apparatus in the pulverized coal manufacturing equipment comprising a; waste gas discharge unit for inserting the branch line is installed into the inside of the pit where the draft vent line is installed on one side.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is an overall configuration diagram showing the pulverized coal production equipment according to the present invention, Figure 3 is a partial detailed view showing a coal drying apparatus according to the present invention, Figure 4 A, B is a swivel of the drying apparatus according to the present invention As a schematic cross-sectional view showing the joint and the pit, the present invention distributes the hot waste gas to the inside of the feeder, and supplies the coal drying unit 51 for drying coal and the hot waste gas generated in the hot blast furnace of the blast furnace to the coal drying unit. The waste gas supply unit 52 and the waste gas discharge unit 53 for removing pollutants generated during the drying of coal by the drying apparatus installed inside the feeder.

The coal drying unit 51 installs a seal air valve 3 on the bottom of the hopper 2 on which the neutron moisture meter 1 is installed on the upper side so as to detect the moisture, and connects the lower end to the upper side of the feeder 4. The heat insulating member 5 is installed on the outer wall of the feeder 4 so that the heating pipe 6 is installed adjacent to the inside thereof, and the rotating shaft 7 penetrating the inside of the heating pipe 6 is connected to both sides. A chute in which a cylindrical screw conveyor (8) is provided to integrally couple a plurality of flow membranes (9) coupled inwardly, and a seal air valve (3 ') is provided below the feeder (4). Combining the (10) and connecting the lower end to the mill (11), both sides of the rotating shaft (7) by the bearing 12 to support both ends of the draft line 13 and the waste gas line 14 is connected Couplings of swivel joints (15) and (16), gears (17 ') of the motor (18) installed on one side of the feeder (4) by installing the gear (17) on one side of the rotary shaft (7) To chain (19).

The waste gas supply unit 52 connects the booster 23 to one side of the waste gas line 14 so as to supply heat to the feeder 4 and branches to the mill 11 and the feeder 4, respectively, and the feeder ( 4) branching one side of the waste gas line 14 connected to the one side through the heat exchanger 25 through which the cooling water line 24 passes, and penetrating the inner side of the feeder 4, the one side waste gas line A flow control valve 45 is installed at one side of the valve 14, and the other side of the waste gas line 14 is branched from the upper end thereof, and the other side thereof is connected to one side of the heating pipe 6 of the swivel joint 16. It is connected to each inside, and the flow control valve 44 is installed on one side of the waste gas line 14 connected to the heating pipe (6).

The waste gas discharge unit 53 branches the draft line 13 to be connected to the heating pipe 6 inside the feeder 4, and is connected to the draft line 13 ′ through the inside of the feeder 4. ) And branched ends thereof to install the first and second vent valves 20 and 21, and to draw one end of the draft line 13 'on which the second vent valve 21 is installed. ) Is inserted into the pit 43 protruding from the upper one side.

In addition, a seal air fan 27 to which a filter 26 is coupled to one side of the mill 11 is installed to connect a pipe 28 connected thereto to the mill 11 and the chute 10, respectively. The mill outlet duct 29 is coupled to the upper side of the mill 11, and an end thereof is connected to the bag filter 30, and a valve 31 is installed at the lower end of the bag filter 30 to provide a differential storage tank ( 32) is installed, and the filling tank 33 is installed at the lower end of the differentiation storage tank 32 is made of a configuration for connecting the feed tank 34 is installed below.

At this time, reference numerals 46 and 47, which are not described, are thermometers installed above and below the feeder 4.

Referring to the operation of the present invention made of a configuration as described above are as follows.

As shown in Figures 2 to 4, the hot waste gas formed in the blast furnace is introduced through the exhaust gas line 14 and is pressured by the booster 23 installed on one side thereof, so that the temperature of the mill outlet duct 29 By preheating the outlet temperature of the bag filter 30, the mill 11 and the feeder 4 which are pulverized coal manufacturing facilities are operated.

At this time, the neutron moisture meter (1) of the hopper (2) connected to the upper side of the feeder (4) detects the moisture content of the coal and when the moisture reaches 7% or more, it is sucked into the booster 23 through the waste gas line 14 The waste gas to enter the heating pipe (6) outside the drum type screw conveyor (8) to heat the heating pipe (6), and to be discharged to the atmosphere through a draft line (13) connected to the other side of the heating pipe (6) By the heating of the heating pipe 6, the screw conveyed to the conveyor 8 through the hopper (2) to dry the moving coal, the volatile water generated during the drying of the coal penetrates inside the feeder (4) The primary vent valve 20 of the draft line 13 'to be connected is opened and discharged. At this time, the flow control valve 44 controls to close when the coal temperature of the lower part of the feeder 4 reaches 45 ° C or more.

In addition, the screw conveyor 8 installed inside the feeder 4 is connected to the through shaft 7 supported by the bearing 12 on both sides thereof to drive the gear 17 installed on one side thereof. The screw conveyor 8 which drives coal by connecting the motor 18 and the chain 19 to drive is driven, and the draft line 13 and the exhaust gas line 14 which are inserted into the rotary shaft 7 are the rotary shaft 7 It is connected by the swivel joints (15) and (16) installed on both sides of the) to be fixed in place even when the rotary shaft (7) rotates.

Subsequently, the coal injected into the feeder 4 through the hopper 2 by the rotation of the screw conveyor 8 by the above operation is dried by the heat of the heating pipe 6, and the rotary shaft of the screw conveyor 8 (7) Connect the flow-type swivel joint 16 with the screw conveyor 8 so that the gas moves inside, and the waste gas passes through the low-speed flow film 9 attached to the upper and lower parts of the screw conveyor 8 alternately. Maximize drying capacity by heating the bottom of coal.

On the other hand, when the neutron moisture meter 1 of the hopper 2 rises and detects that the moisture content is 10% or more, the waste gas line passing through the heat exchanger 25 to directly contact the waste gas with coal to improve the drying rate of coal. (14) through the inside of the feeder (4) by direct injection of the waste gas to the coal to perform the drying operation, wherein the heating operation through the heating pipe 6 and the inside of the screw conveyor (8) is performed in parallel, To prevent malfunction due to waste gas, the seal air valve 3 'on the top of the chute 10 is closed, and the seal air valve 3 installed below the hopper 2 is opened to prevent backflow of waste gas through the hopper 2. To seal.

Subsequently, in order to prevent a fire that occurs when the high temperature waste gas is in direct contact with coal, the waste gas is controlled through a heat exchanger 25 and a cooling water line 24 to control the waste gas at a temperature of 70 to 80 ° C. Directly sprayed to dry.

At this time, when the gas generated after drying of the coal inside the feeder 4 is vented to the primary vent line of the draft line 13 ', waste gas, volatile water, coal dust, etc. are released to the atmosphere, causing pollution. The primary vent valve 20 is closed and the secondary vent valve 21 is opened to inject waste gas into the water of the pit 43 which is a dust collecting facility. The waste gas enters into the water, and coal dust and volatile water are deposited in the water. Only waste gas that is dissolved and does not contain pollutants is discharged to the atmosphere through the draft vent line 22.

In addition, the waste gas flow control valve 45 is adjusted when the temperature of the thermometer 46 of the hopper 2 and the thermometer 47 which is the lower portion of the feeder 4 is 45 ° C. or more to reduce the waste gas flow rate to close.

Subsequently, a seal air valve is installed on the top of the vertical chute 107 so that the fine powder ground with the west gas in the mill 11 prevents the reverse flow to the feeder 105.

In addition, the waste gas introduced into the mill outlet duct 29 performs the drying of coal and the fine coal to be sent to the bag filter 30, wherein the fine powder collected in the bag filter 30 is finely divided through the valve 31. The pulverized coal is stored in the storage tank 32, and the filling pulverized coal is blown into the furnace by nitrogen (N ₂ ) gas which is loaded in the feed tank 34 and charged with the filling valve 33 open.

In the coal drying apparatus in the pulverized coal production equipment according to the present invention as described above, by controlling the temperature of the exit duct and the bag filter of the mill according to the moisture content of the coal to dry the coal appropriately to prevent the differential pressure increase of the mill, as well as Improved production of pulverized coal, stable injection of pulverized coal, no need for additional heater equipment, inexpensive equipment cost, and prevention of increase of work load caused by this, and excessive moisture in coal. The blockage caused by the drying device can be smoothly lowered to provide an excellent effect, such as preventing the increase of the work load and the reduction of the production amount in advance.

Claims (1)

Piping connected to the feeder (4) is installed on the lower side of the hopper 2 and the seal air fan 27 to which the filter 26 is coupled to one side of the mill (11) connected through the chute (10) 28 is connected to the mill 11 and chute 10, respectively, the mill outlet duct 29 is coupled to the upper side of the mill 11, the end is connected to the bag filter 30, the bag filter ( 30 is installed at the lower end of the valve 31 to install the differential storage tank 32 at the lower side, and the filling (33) filling valve (33) at the lower end of the differential storage tank 32 to the feed tank ( In the pulverized coal manufacturing facility which connects and installs 34), A neutron water meter 1 is installed above the hopper 2 to install a seal air valve 3 above the feeder 4 connection on the bottom, and a heat insulating member 5 is installed on the outer wall of the feeder 4. And a heating pipe 6 is installed adjacent to the inside thereof, and a screw conveyor 8 in which the rotating shaft 7 is connected to both sides is installed in the heating pipe 6 so as to be alternately coupled to the inside thereof. The flow membrane 9 is integrally coupled to each other, a seal air valve 3 'is provided at one side of the chute 10 coupled to the lower side of the feeder 4, and a draft line is provided at both ends of the rotary shaft 7. 13 and the swivel joints (15) and (16) to which the waste gas line (14) is connected, respectively, and a gear (17) is installed on one side of the rotary shaft (7) to be installed on one side of the feeder (4) A coal drying unit 51 connecting the gear 17 'of the 18 to the chain 19; Wow, The booster 23 is connected to one side of the waste gas line 14 so as to supply heat to the feeder 4, thereby branching into the mill 11 and the feeder 4, and the waste gas line 14 connected to the feeder 4. Branch) through one side of the feeder 4 through the heat exchanger 25 through which the cooling water line 24 passes, and branching the other side of the branched waste gas line 14. Waste gas supply unit 52 for connecting the other end to the inside of the swivel joint (16) on one side of the heating pipe (6); And, Branching the draft line 13 is connected to the heating pipe (6) inside the feeder (4), connected to the draft line (13 ') through the inside of one side of the feeder (4) to branch the end 1 The secondary vent valves 20 and 21 are installed, respectively, and the branch line in which the secondary vent valves 21 are installed is located inside the pit 43 in which the draft vent line 22 is installed on one side. Coal drying apparatus in the pulverized coal manufacturing equipment, characterized in that it comprises a;