DE3111436A1 - COOLER FOR KOKS DRY COOLING - Google Patents

Description

·· ·· EsVenj'änen March 17, 1981 N 4841/6 Dr. Haha

KRUPP-KOPPERS GMBH, Moltkestrasse 29, 4300 Essen 1

Cooler for dry coke cooling

The invention relates to a cooler for dry coke cooling ^; with an antechamber arranged in its upper part and extending into the area below the discharge line for the gaseous cooling medium, with webs attached to the outside of the antechamber evenly distributed over the entire circumference, which connect the antechamber to the cooler jacket.

A cooler of the type mentioned is described in the German patent application P 30 09 818.1 described. When such a cooler is in operation, the hot coke introduced into the cooler from above forms when Leaking out of the antechamber is an embankment through which a closed annular space between the inside of the cooler and the outside the antechamber is created. Since the connection of the exhaust line for the cooling gases is also located in this area, the can be switched off the hot cooling gases escaping from the coke to be cooled pass through the annular space into the discharge line and the following units. The cold cooling gases are normally released at the lower end or in the middle area of the cooler. At the In practical operation of the cooler, particular importance is attached to an even discharge of the over the entire circumference of the annulus to put hot cooling gases. In the case of a cooler of the type mentioned, the existing webs already provide a certain level of uniformity the hot cooling gas stream rising from the coke is achieved.

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It has been shown, however, that the influence or the controllability of the hot cooling gas flow is not yet in the The scope required for practice is guaranteed.

The invention is therefore based on the object, the cooler of the type mentioned with regard to the equalization as well the ability to influence and regulate the rising from the coke hot cooling gas stream to further improve, in particular an influence on the flow ratio se should be ensured during practical operation of the cooler. At the same time, attention should be paid to a construction that is as simple, inexpensive and safe as possible.

The cooler serving to solve this problem is according to the invention characterized in that the webs have support surface η on both sides, on each of which between two webs Support stones are arranged, their introduction and positioning by means of peephole closures arranged in the upper part of the cooler he follows.

Further details can be found in the following description, in which the construction according to the invention on the basis of the figures is explained. These show only those parts of the cooler that are necessary for explaining the design features that are essential to the invention required are. In contrast, the upper end of the cooler with the feed device for is not shown trim the coke to be cooled and the lower end of the cooler with the extraction device for the cooled coke and the gas inlet. However, it is assumed that it is a cooler in which, in a manner known per se, the one given from above coke to be cooled with a countercurrent from below

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the gaseous cooling medium rising up is treated «Of course there are different design options with regard to the parts of the cooler that are not shown in the figure. However, the invention is not restricted to any specific embodiment.

The figures show the following in detail:

1 shows a longitudinal section through the central part of the cooler; Fig. 2 is a part of the plan view of the annular space between the antechamber and the upper part of the cooler with the webs arranged there

and
3 shows two webs lying next to one another with the associated support.

In the middle part of the cooler shown in FIG. 1, the Denoted by 1 antechamber. This is arranged within the upper part 8 of the cooler in such a way that it is connected to the upper part 8 on the same center axis lies. Between the antechamber 1 and the upper part 8 there is the annular space 3 with the trigger 2, through which the rising from the lower part 4 of the cooler hot cooling gases get into the vent line, not shown, for the gaseous cooling medium. The jacket 5 of the antechamber 1 is made of refractory material and has on its outside in the lower part of the webs 6, which are also made of refractory material. These are uniform over the entire circumference the prechamber 1 and connect the prechamber 1 / with the cooler jacket 7.

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The webs 6 here have a double function: On the one hand they serve it is intended to support the antechamber 1 and, on the other hand, to make the flow of the from the lower part 4 of the cooler rising hot gases can be reached, so that they are better over the entire cross-section of the annulus 3 distribute. So that the flow ratios are actually better adapted to the respective conditions of practical operation can be, the webs 6 also have the support surfaces 9 on both sides, on each of which between two webs 6 support blocks 10 can be arranged. By the number and the position of these support blocks 10, the free cross-section the gas passages 13 varies between the webs 6 and thus influence can be exerted on the tension and pressure conditions in the cooler. The introduction of the support stones 10 into the cooler takes place here through the peephole closures 11, which are in the upper part 8 of the Cooler are arranged above the annular space 3. The support blocks 10 are preferably made of a suitable refractory Material and are provided with a hole 12 for receiving the insertion tool, e.g. hook. With the help of this insertion tool the support side 10 is lowered into the cooler through the peephole closures 1 1 opened for this purpose and on the support surfaces 9 in the desired position placed or removed from the cooler in the opposite way. Of course, the support stones 10 can also be used during during operation of the cooler can be inserted or removed.

It goes without saying, of course, that the dimensions of the support blocks 10 are adapted to the distances between the webs 6 must be.

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Fig. 2 shows a part of the plan view of the annular space 3 between the Antechamber 1 and the upper part 8 of the cooler and reveals how the free cross-sections are determined by the number and position of the support stones 10 the gas passages 13 are varied between the webs 6 and thus can be adapted to the actual circumstances.

Fig. 3 finally shows two adjacent webs 6 with the Support surfaces 9 on both sides and the support stones 10 located thereon. It can be seen from FIG. 3 that the support surface η 9 in this case have bevels on the underside, by means of which the flow conditions in the gas outlets 13 are improved. In addition, the holes 12 in the support stones 10 in this Trap easy to recognize.

The solution according to the invention solves the problem at hand in solved extremely simply and inexpensively. A high technical one Effort, such as when using so-called. Regulator flaps would be required for the same purpose, is omitted here. /

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Claims (2)

. 311U36 '. 17.03.1981 N 4841/6 Patent claims: 1.) Cooler for dry coke cooling with one inside Upper part arranged, extending into the area below the discharge line for the gaseous cooling medium Antechamber, whereby on the outside of the antechamber evenly over the entire circumference distributed webs are attached which connect the antechamber to the cooler jacket, characterized in that that the webs (6) have support surfaces (9) on both sides, on each of which between two webs (6) support stones (10) are arranged, their introduction and positioning by arranged in the upper part (8) of the cooler Inspection hole closures (11) takes place. 2.) cooler according to claim 1, characterized in that the Support stones (10) are provided with a bore (12) for receiving an insertion tool. ■ / ·