KR101424904B1 - Method for repairing coke oven - Google Patents

Abstract

In order to provide a repair method of a coke furnace having a good workability when the length of the combustion chamber to be repaired by replacing the furnace wall bricks is long, the replacement maintenance area of the furnace wall bricks 7 is divided into the inside side and the front side, The carburizing chamber 21 inside the brick replacement and maintenance area 3 is insulated and the furnace wall bricks 7 of the combustion chamber 22 of the inner side furnace wall brick replacement area 3 are stacked in this state, When the furnace wall bricks 7 in the combustion chamber 22 of the brick replacement and maintenance area 3 are stacked, the carbonaceous chambers 21 of the inner side furnace wall brick replacement area 3 are insulated, and in this state, The furnace wall bricks 7 are replaced by replacing the furnace wall bricks 7 by stacking the furnace wall bricks 7 in the combustion chamber 22 of the front side furnace wall brick replacement / Even when the length of the furnace wall bricks 7 is longer than the length of the furnace wall bricks 7, Can shorten the length of consecutive, and the workability do narrowing the width of the carbonization chamber 21 is excellent.

Description

METHOD FOR REPAIRING COKE OVEN [0002]

The present invention relates to a method of repairing a coke oven by replacing a furnace wall brick of a combustion chamber including a furnace wall of a coke oven carburetor chamber in which a combustion chamber and a coking chamber are alternately arranged. for repairing a coke oven.

The coke oven is provided with a carbonization chamber and a combustion chamber for supplying heat to the carbonization chamber alternately arranged in a furnace width direction. The combustion chamber is divided into a carbonization chamber and a combustion chamber, The supply is executed. Further, the combustion chamber is divided at predetermined intervals along the furnace longitudinal direction, and a plurality of flues are formed. The coal charged into the carbonization chamber is heated to coke by being heated and then extruded from an oven opening on one side of the carbonization chamber. However, the furnace wall of the carbonization chamber is subjected to a severe heat cycle by repeating the operation. In addition, the coke oven is used continuously from the start of operation once to a high temperature state, to a sudden volume change in the brick when it is cooled to room temperature, and the like. For this reason, it is periodically checked whether there is damage such as cracks, corner cracks, etc., with respect to the old wall brick, and if necessary, maintenance by spraying or partial repair of the wall brick by hot- do.

In the partial repair method by the hot replacement, for example, the operation of the carbonization chamber for performing the hot replacement is stopped, the heat insulation treatment is performed for the range for performing the replacement operation, and then the replacement work of the furnace wall bricks in the repair part is executed . Replacement is generally carried out by dismantling the old wall bricks to be repaired and replacing the new old wall bricks with a brick so that they are the same as they were before dismantling, . In the following Patent Document 1, a joint (gap) penetrating upward and downward is formed at a boundary between a furnace wall portion that has been repaired and replaced with a furnace wall portion that has not been disassembled, and the temperature of the furnace is raised after replacement After the temperature is raised, the thermal spraying material is sprayed on the clearance between the clear wall of the part where the wall is remodeled and the wall part of the wall of the non-repairing part, so that the protrusion of the boundary due to the difference in the thermal expansion characteristics of the clear- . It goes without saying that the wall brick of the combustion chamber also serves as the furnace wall of the carbonization chamber.

Patent Document 1: Japanese Patent Application Laid-Open No. 2008-169315

However, when the furnace wall brick has a wide repair range, that is, because the combustion chamber is long in the furnace longitudinal direction, when the length of the combustion chamber to be repaired is long, conventionally, the furnace wall bricks are formed in a mesh- It is necessary to stack the bricks over the entire long maintenance range. In particular, there is a problem that workability is bad because the width of the working space, that is, the carbonization chamber, in which the bricks far from the entrance of the kiln are piled up is narrow.

It is an object of the present invention to provide a method of repairing a coke oven having good workability when the length of a combustion chamber to be repaired by replacing the wall brick is long.

In order to solve the above problems, a repair method of a coke oven according to the present invention is a repair method of repairing a coke oven by replacing a furnace wall brick of a combustion chamber including a furnace wall of a carbonization chamber of a coke oven in which a combustion chamber and a carbonization chamber are alternately arranged, When the vicinity of the inlet of the carburizing chamber is set as the front side and the opposite direction of the inlet of the kiln is set inward, the replacement maintenance area of the furnace wall brick is divided into the inside side and the front side, The furnace bricks in the combustion chamber in the inner furnace wall brick replacement and maintenance area are stacked while the furnace is thermally insulated and the furnace wall bricks in the combustion chamber in the inner furnace wall brick replacement maintenance area are stacked, The carburizing chamber is insulated, the inside-side furnace wall brick replacement maintenance area is heated in the heat-insulating state, and at the same time, the front side furnace wall brick Maintenance of the body region to the combustion chamber, characterized in that the furnace wall brick building.

Further, when the furnace wall bricks in the combustion chamber in the front furnace wall brick replacement maintenance area are stacked, the front furnace wall brick replacement maintenance area is heated.

The present invention is also characterized in that the cross section of the flue on the side of the front furnace wall brick replacement area of the combustion chamber in the inner furnace wall brick replacement maintenance area is flattened in the up and down direction and the furnace width direction. It is also preferable to apply a vertical joint (vertical joint) so as to overlap the partition bricks of the year.

According to the repairing method of coke furnace of the present invention, the replacement maintenance areas of the furnace wall bricks are divided into the inside side and the front side, the carbonized chambers inside the inside side furnace wall brick replacement maintenance area are insulated, and in this state, When the furnace bricks in the combustion chamber in the repair area are stacked and the furnace wall bricks in the combustion chamber in the inner side furnace wall brick replacement maintenance area are stacked, the carbonization chamber in the inner side furnace wall brick replacement maintenance area is insulated, Since the furnace wall brick in the combustion chamber of the front furnace wall brick replacement maintenance area is heated while the furnace wall brick is replaced with the furnace wall brick, the length of the furnace wall where the furnace wall bricks are actually stacked is shortened And the workability is excellent even if the width of the carbonization chamber is small.

Further, when the furnace wall bricks in the combustion chamber in the front furnace wall brick replacement maintenance area are stacked, the temperature in the furnace wall brick replacement maintenance area is improved by raising the temperature in the front side furnace wall brick replacement maintenance area.

Further, by making the cross section of the flue on the side of the front side furnace wall brick replacement area of the combustion chamber in the inner side furnace wall brick replacement maintenance area flat in the vertical direction and the furnace width direction, The difference in the thermal expansion characteristics of the furnace wall bricks of the combustion chamber in the furnace wall brick of the combustion chamber and the rear furnace wall brick replacement maintenance area heated later is absorbed.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an explanatory diagram of an operation procedure showing an embodiment of a coke oven repair method of the present invention; Fig.
Fig. 2 is an explanatory view of a method of stacking furnace wall bricks in a general combustion chamber. Fig.

Next, one embodiment of a coke oven repair method of the present invention will be described with reference to the drawings.

Since the construction of the coke oven itself is the same as that of the conventional coke oven, its detailed description is omitted. Fig. 1 is a plan view of a series of combustion chambers 22 and carbonization chambers 21 on both sides of the coke oven repair method of the present embodiment. In the drawing, for example, the combustion chamber on the left side of the combustion chamber 22 in the non-maintenance portion of Fig. 1 (a) is replaced with a furnace wall brick. 1 (a) shows a state after the furnace wall bricks of the combustion chamber 22 to be repaired are disassembled. In the drawings, the upper and lower ends of the carbonization chamber 21 indicate the furnace wall of the carbonization chamber 21, that is, the furnace wall of the adjacent combustion chamber.

The furnace wall bricks of the combustion chamber are disassembled by the following process.

(a) When the vicinity of the entrance of the kiln chamber of the carbonization chamber is set as the front side and the direction opposite to the entrance of the kiln is set inward, the dismantling area of the furnace wall brick is divided into the front side and the inside side,

(b) inspecting the carbonization chamber of the front furnace wall brick demolition region,

(c) dismantling the furnace wall bricks in the combustion chamber of the front furnace wall brick demolition zone in a state of being adiabated,

(d) if the furnace wall bricks in the combustion chamber of the front furnace wall brick demolition zone are completely disassembled, the carbonization chamber of the inner furnace wall wall demolition zone is insulated,

(e) The furnace wall bricks in the combustion chamber of the inner side furnace wall brick demolition region are disassembled in a state of being adiabatic.

In the coke furnace repairing method of the present embodiment, when the vicinity of the kiln inlet 1 is set to the front side and the opposite direction is set to the inside, the furnace wall brick replacement range of the combustion chamber 22 is changed to the front furnace wall brick replacement area 2) and the inside side wall brick replacement maintenance area (3). In the present embodiment, the furnace brick replacement / repair range of the combustion chamber 22 is divided into the front side furnace wall brick replacement region 2 and the inside side wall wall brick replacement / maintenance region 3, The inside side wall wall brick replacement maintenance area and the front side old wall wall brick replacement maintenance area. In other words, since the furnace wall bricks in the combustion chamber 22 are formed into a net shape by bricking, the maintenance area can be divided so that the length of the repair area in which the bricks are piled up in series becomes appropriate.

As described above, by dividing the replacement range of the furnace wall bricks in the combustion chamber 22, the inside of the carbonizing chamber 21 in the inner side wall wall brick replacement area 3, which is the non-maintenance area, is insulated by the heat insulating material 4. In this embodiment, the lattice bricks 5 are woven on the front side of the heat insulating material 4 of the carbonizing chamber 21 of the inner non-maintenance portion to prevent deformation of the combustion chamber 22 in the heat-treated portion. The lattice bricks 5 are formed by stacking, for example, a rectangular parallelepiped refractory brick. The lattice bricks 5 are characterized in that they easily tend to collapse the heat insulating material 4 from the front side, for example. The furnace walls of the carbonization chambers 21 on both sides of the furnace wall brick replacement / repair range also cover the sheet-shaped heat insulating material 6. [

1B, the furnace wall bricks 7 in the combustion chamber 22 of the inner furnace wall brick replacement repair area 3 are bricked. Building bricks of the furnace wall bricks 7 of the actual combustion chamber 22 is the construction of a plurality of flues. The flue is constructed by dividing the interior of the furnace wall of the combustion chamber 22 with a partition wall at predetermined intervals. As shown in Fig. 2, for example, the partition wall of the year may be formed by alternately inserting a projection portion called a dowel on the wall of the furnace, as shown in Fig. 1, or alternatively by using a furnace wall brick 7 for partition walls ) Are alternately squeezed, so that the whole is formed in a mesh shape, and bricks are piled up. In addition, in the furnace wall brick 7 for the furnace wall, for example, a downwardly oriented dowel 23 is protruded, and the dowel 23 is inserted into the groove 24 to build up a mesh-like brick. In this way, bricks are piled so as to mesh the old wall bricks 7 in a mesh shape, for example, so as not to collapse the combustion chamber 22 against the side pressure at the time of extrusion of the coke.

As shown in Fig. 1 (c), the furnace wall bricks 7 of the combustion chamber 22 are bricked so as to mesh with the inside of the furnace wall brick replacement repair area 3 in the inside. However, Side surface of the combustion chamber 22 of the furnace wall brick replacement maintenance area 3 is flattened in the vertical direction and the nap width direction. It is preferable to apply the vertical joint (vertical joint) to the partition brick of the year so as to overlap. By doing so, as described later, the furnace wall bricks 7 in the combustion chamber 22 of the inner furnace wall brick replacement region 3, which is heated first, and the furnace wall bricks 7 in the front furnace wall brick replacement region 2, The difference in the thermal expansion characteristics of the furnace wall bricks 7 of the combustion chamber 22 can be absorbed.

When the replacement of the furnace wall bricks 7 in the combustion chamber 22 of the inner furnace wall brick replacement area 3 is completed in this way, for example, the heat insulating material 4 is removed, , The sheet heat insulating material 6 covering the furnace walls of both carbonizing chambers 21 is shortened to the front furnace wall brick replacement repair area 2 side and the both sides of the inner furnace wall brick repairing area 3 After the end of the carbonation chamber 21 on the side of the front side of the furnace wall brick replacement area 2 is insulated by the heat insulating material 4 and the furnace wall bricks 7 of the combustion chamber 22 of the front side furnace wall brick replacement area 2 We build bricks. On the other hand, the grid bricks 5 are left to prevent deformation at the time of temperature rise after maintenance.

During the bricking of the furnace wall bricks 7 in the combustion chamber 22 of the front furnace wall brick replacement area 2, the temperature of the inner wall wall brick replacement repair area 3 is increased. At the time of increasing the temperature of the furnace wall bricks after the replacement, the most important is the process of raising the temperature to about 200 ° C to 300 ° C. This 200 ° C to 300 ° C temperature range is a temperature range where the linear expansion rate significantly increases. If the temperature increase rate in this temperature range is large, cracks or distortions occur in the replacement old wall brick, and in a significant case, the balance is broken and the old wall itself collapses . That is, a corresponding time is required for the heating process of the furnace wall bricks after replacement. Therefore, in this embodiment, while the brick of the furnace wall brick 7 of the combustion chamber 22 of the front furnace wall brick replacement area 2 is being bricked, the furnace wall brick 7 of the replaced inner furnace wall brick repair / Is heated to a temperature of 200 DEG C or lower, the time required for the temperature raising process can be shortened and the temperature raising efficiency can be improved.

1 (e), when replacement of the furnace wall bricks 7 in the combustion chamber 22 of the front furnace wall brick replacement region 2 is completed, all of the heat insulating material and the lattice bricks 5 And then the temperature of the replacement wall 2 of the front side furnace wall brick is again started and the temperature of the other side of the inside wall wall brick replacement area 3 is increased.

As described above, in the repairing method of the coke oven according to the present embodiment, the repair and maintenance areas of the furnace wall bricks 7 are divided into the inner side and the front side, and the carbonization chambers 21 inside the inner side wall repairing area 3 The furnace wall bricks 7 in the combustion chamber 22 of the inner side furnace wall brick replacement area 3 are stacked and the furnace wall bricks 7 of the combustion chamber 22 in the inside side furnace wall brick replacement area 3 7 is heated, the carbonizing chamber 21 of the inner side furnace wall brick replacement maintenance area 3 is insulated, and in this state, the inner side furnace wall brick replacement repair area 3 is heated, and at the same time, By stacking the furnace wall bricks 7 in the combustion chamber 22 of the region 2, even if the length of the combustion chamber 22 to be repaired by replacing the furnace wall bricks 7 is long, The length of the series of combustion chambers 22 can be shortened and even if the width of the carbonization chamber 21 is small, This is excellent.

When the furnace wall bricks 7 in the combustion chamber 22 of the front furnace wall brick replacement maintenance area 2 are stacked up, the temperature of the front furnace wall brick replacement repair area 2 is raised, The heating efficiency is good.

By flattening the cross section of the flue on the side of the front furnace wall brick replacement area 2 side of the combustion chamber 22 of the inside side furnace wall brick replacement repair area 3 in the vertical direction and the furnace width direction, Of the thermal expansion characteristics of the furnace wall bricks 7 in the combustion chamber 22 of the inner side furnace wall brick replacement and repair area 3 and the furnace wall bricks 7 in the combustion chamber 22 of the front side furnace wall brick replacement area 2, The car is absorbed.

One; Coke ro
2; Front side wall brick replacement area
3; Inner side wall brick replacement maintenance area
4; insulator
5; Lattice brick
6; Sheet-shaped insulation
7; Brickwork
21; Carbonization chamber
22; combustion chamber

Claims (3)

A method of repairing a coke furnace by replacing a furnace wall brick of a combustion chamber including a furnace wall of a carbonization chamber of a coke furnace in which a combustion chamber and a carbonization chamber are alternately arranged,
When the vicinity of the inlet of the carburizing chamber is set as the front side and the direction opposite to the entrance of the kiln is set inward, the replacement maintenance area of the furnace wall brick is divided into the inside side and the front side,
The carbonized chambers on the inner side of the inside-side old wall brick replacement maintenance area are insulated,
Walled bricks in the combustion chamber in the inside-side wall-mounted brick replacement maintenance area in a state of being insulated,
When the furnace wall bricks in the combustion chamber in the inner furnace wall brick replacement maintenance area are stacked, the carbonization chamber in the inner furnace wall brick replacement maintenance area is insulated,
Wherein the interior side wall brick replacement maintenance area is heated while the interior side wall brick is being insulated, and the wall brick in the combustion chamber of the front side old wall brick replacement maintenance area is stacked. The method according to claim 1,
Wherein the front side furnace wall brick replacement area is heated when the furnace wall bricks in the combustion chamber in the front furnace wall brick replacement maintenance area are stacked. 3. The method according to claim 1 or 2,
Wherein the cross-section of the flue on the side of the front side furnace wall brick replacement area of the combustion chamber in the inner side furnace wall brick replacement maintenance area is planarized in the vertical direction and the furnace width direction.

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