EP0589238A1 - Process for renewing the heating walls of a coke oven battery - Google Patents

Abstract

In this process, the vertical bricking-up of that part of the heating wall to be renewed on the protective wall panel (1) of said part is commenced in such a manner that the new masonrywork rests precisely on the protective wall panel (1) and, furthermore, a perpendicularly running welding joint (8) consisting of a ceramic material is arranged between the new and the old masonrywork. <IMAGE>

Description

In the renewal (repair) of the heating walls of a coke oven battery, a construction of the heating wall was previously provided in which the old and the new masonry were separated from one another by a vertical sliding joint. In addition, if the head heating cables had to be replaced, a vertical expansion joint was arranged between the heating wall head and the wall protection plate. The building of the part of the heating wall to be renewed started on the old masonry. In practice, however, it has been shown that problems repeatedly occurred in precisely determining the width of the expansion joint between the newly bricked, not yet heated heating wall head and the wall protection plate which was at a warm dimension.

This was particularly the case if several adjacent heating wall heads with different numbers of heating trains were to be replaced and / or if the position of the wall protection plate - chamber frame system was determined from the outset by adjacent heating wall heads that were not to be replaced. Here it was necessary to calculate the different expansion dimensions for the different repair depths in advance so precisely that after heating the heating wall head was exactly against the wall protection plate so that the anchoring forces could be transferred from the anchor stands to the heating wall. Practical experience in the past has shown, however, that in most cases it was not possible to measure the elongation with the required one Predict accuracy.

The invention is therefore based on the object of providing an improved method for renewing the heating walls, in particular the heating wall heads, of a coke oven battery which avoids the difficulties described above.

The method serving to solve this problem is characterized in that the vertical walling of the part of the heating wall to be renewed on the wall protection plate of this part is started in such a way that the new masonry lies exactly against the wall protection plate and that further between the new and a vertical weld joint made of ceramic material is arranged on the old masonry.

The weld joint is arranged either in the area of the binder head of the old masonry or in the area of the runner blocks of the last heating train to be renewed.

If a complete renewal of the heating wall is to take place, that is, if the heating wall is to be renewed over the entire length extending from the machine side to the coke side, according to the invention, the wall protection plate located on the machine side as well as on the coke side is also used the masonry started in the manner described above, wherein a weld joint is arranged on both the machine and the coke side in one of the head heating trains.

This means that in the method according to the invention the expansion joint previously provided between the heating wall head and the wall protection plate is dispensed with. The function of this expansion joint is taken over by the welding joint, which also replaces the previously used sliding joint between old and new masonry. In contrast to the expansion joint or the sliding joint, the width of the weld joint can be given a much greater tolerance, since this joint is welded anyway after the heating wall has been heated, which ensures sufficient tightness even with a larger width. The width of the weld joint therefore does not need to be calculated exactly in advance, but can be provided with such a large tolerance that problems when heating the renewed part of the heating wall cannot occur. The joint is welded with a refractory ceramic material, such as silica welding powder.

If the part of the heating wall to be renewed has a large length, it may be necessary to additionally arrange one or more vertical welding joints in the masonry to be renewed in order to be able to fully compensate for the expansion dimensions that occur.

• 1 . Das neue Mauerwerk liegt immer exakt an der Wandschutzplatte an. Sofern bei dem alten Mauerwerk die Dehnfuge zwischen dem Heizwandkopf und der Wandschutzplatte durch seitlich angebrachte Steinschutzleisten geschützt war, können diese Steinschutzleisten jetzt durch das neue Mauerwerk an der Wandschutzplatte arretiert werden. Lose Steinschutzleisten stellen daher kein Problem mehr dar.
• 2. Die während des Aufmauerns arretierte Verankerung kann nach dem Aufheizen gelöst werden, so daß die gewünschten Kräfte von den Ankerständern über die gesamte Höhe der Wandschutzplatte gleichmäßig auf die Heizwand übertragen werden können.
• 3. Das neue Mauerwerk stützt sich während des Aufheizens an der Wandschutzplatte ab und wächst in Richtung des alten Mauerwerks. Durch diesen Abstützeffekt ist die Fuge zwischen dem Heizwandkopf und der Wandschutzplatte so dicht, daß es zu keinen Rohgasübertritten von Koksofenkammer zu Koksofenkammer kommen kann.
• 4. Bei einer vollständigen Erneuerung einer kompletten Seite (Koks- oder Maschinenseite) einer Koksofenbatterie kann die Lage des Systems Wandschutzplatte - Kammerrahmen - Ankerständer von vornherein exakt bestimmt werden, ohne daß mit nicht ganz dicht schließenden Fugen zwischen dem Heizwandkopf und der Wandschutzplatte gerechnet werden muß.

The type of masonry according to the invention offers the following advantages:

• 1 . The new masonry always lies exactly against the wall protection plate. If the expansion joint between the heating wall head and the wall protection plate was protected by side-mounted stone protection strips in the old masonry, these stone protection strips can now be locked to the wall protection plate by the new masonry. Loose stone protection strips are no longer a problem.
• 2. The anchoring which is locked during bricking can be released after heating, so that the desired forces can be transferred uniformly from the anchor stands to the heating wall over the entire height of the wall protection plate.
• 3. The new masonry is supported on the wall protection plate during heating and grows in the direction of the old masonry. As a result of this support effect, the joint between the heating wall head and the wall protection plate is so tight that no crude gas can pass from the coke oven chamber to the coke oven chamber.
• 4. With a complete renewal of a complete side (coke or machine side) of a coke oven battery, the position of the system wall protection plate - chamber frame - anchor stand can be determined exactly from the outset, without having to count on joints that do not close completely tightly between the heating wall head and the wall protection plate .

Fig. 1

Einen Horizontalschnitt durch den Kopfteil einer Heizwand, bei der der Aufbau nach dem Stand der Technik erfolgt ist,

Fig. 2

den gleichen Schnitt wie in Fig. 1, wobei für den Aufbau der Heizwand das erfindungsgemäße Verfahren zur Anwendung gelangt
und

Fig. 3

den gleichen Schnitt wie in Fig. 1, wobei für den Aufbau der Heizwand eine andere Variante des erfindungsgemäßen Verfahrens zur Anwendung gelangt.

Further details of the invention will be explained below with reference to the figures. Here show:

Fig. 1

A horizontal section through the head part of a heating wall, in which the construction has been carried out according to the prior art,

Fig. 2

the same section as in Fig. 1, the method according to the invention being used for the construction of the heating wall
and

Fig. 3

the same section as in Fig. 1, wherein another variant of the method according to the invention is used for the construction of the heating wall.

In the heating wall shown in Fig. 1, the wall protection plate is designated 1. The expansion joint 3 is arranged between the wall protection plate 1 and the heating wall head 2. The arrows in the illustration should mark the position and width of the expansion joint. The heating wall shows the usual structure. That is, the heating cables 4 are formed by the binding stones 5 and the rotor stones 6. In the illustrated embodiment, the renewal of the heating wall should extend to the fifth heating train. Between the 4th and 5th heating train, the sliding joint 7 is therefore arranged, which separates the new from the old masonry. In the picture only the part of the heating wall is shown that extends to the beginning of the old masonry. It does not matter whether it is the part on the machine or the part on the coke side. The structure is the same in both cases.

The heating wall in Fig. 2 corresponds in principle to the heating wall in Fig. 1, which is why the same reference numerals have the same meaning. While the structure of the heating wall corresponds to the prior art in FIG. 1, the method according to the invention is used when building the heating wall according to FIG. 2. Therefore, the expansion joint 3 is omitted in this case, so that the heating wall head 2 rests directly on the wall protection plate 1. Instead of the sliding joint 7 provided in FIG. 1, there is the welding joint 8 which connects the new to the old masonry. As can be seen from the figure, the weld joint 8 can be made much wider than the sliding joint 7, so that the required tolerances for the different expansion behavior of new and old masonry can be specified without difficulty. The welding also guarantees a higher tightness of the joint than is the case with a normal sliding joint. The weld joint 8 is arranged in this case in the area of the binder head 9 of the old masonry.

3 finally shows an embodiment in which the weld joint 8 has been moved forward into the area of the rotor stones of the last (4th) heating train to be renewed. With this arrangement, cutting and thus weakening of the binder head 9 of the old masonry can be avoided, while this is necessary in the embodiment according to FIG. 2.

As has already been said above, the method according to the invention can also be used to completely renew or build a heating wall. The structure of the heating wall corresponds in principle to the representations in FIGS. 2 and 3, the respective binder head 2 then being in direct contact with the wall protection plate 1 both on the machine and on the coke side. The weld joint 8 is in each case in one of the head heating trains, for example in the 3rd or 4th heating train.

In order to reduce the forces acting on the wall protection plate during heating, the friction on the horizontal sliding joint located between the furnace sole and the first heating wall layer can be reduced by applying a lubricant, e.g. Graphite paste, can be reduced.

Claims (4)

Process for the renewal of the heating walls, in particular the Heinz wall heads, a coke oven battery, characterized in that the vertical walling of the part of the heating wall to be renewed on the wall protection plate of this part is started in such a way that the new masonry lies exactly against the wall protection plate and that further a vertical weld joint made of ceramic material is arranged between the new and the old masonry. A method according to claim 1, characterized in that the weld joint is arranged either in the area of the binder head of the old masonry or in the area of the rotor stones of the last heating train to be renewed. A method according to claim 1, characterized in that when the heating wall is completely renewed, masonry begins on both the machine side and the wall protection plate on the coke side, with a weld joint on both the machine and the coke side one of the head heating cables is arranged. Method according to claims 1 to 3, characterized in that, in the case of a large length of the part of the heating wall to be renewed, one or more perpendicular welding joints are additionally arranged in the masonry to be renewed.

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