DE2432025C3 - Device for dry extinguishing of coke and other lump fuels - Google Patents

Description

The invention relates to thermal systems in which the cooling of heated materials is made, especially on devices for dry-extinguishing coke and other lumpy Fuels.

The invention is based on a device for dry extinguishing of coke and other lumpy Fuels, consisting of a vertical round chamber made of a refractory material with loading and discharge openings arranged accordingly in their upper and lower part, through openings for discharge made on the periphery approximately in the middle height of the chamber of the cooling gas is divided into two zones, the upper zone being an antechamber and the lower zone being the represents the actual extinguishing chamber, in the lower part of which slots are arranged for the supply of the cooling gas are and in the vertical axis of a flow divider is provided for the material to be treated with channels for the supply of the cooling gas into the extinguishing chamber is provided. Such a device is e.g. B. in DE-AS 14 71 589.

Tests carried out on the known device have shown that the material to be treated has different speeds as it descends in the vertical chamber; it shows some deceleration on the walls of the vertical chamber, and also in its center, is moving but faster in the area between the center of the vertical chamber and its walls. The gas flow due to the cross-section of the vertical chamber is also uneven: the gas flow has a higher Speed on the walls of the vertical chamber, and a lower one - in its center. This one As a result, the material to be treated is cooled more quickly on the walls of the vertical chamber, in the middle, however, and especially in the upper part of the extinguishing chamber - slower, which is the case for the extinguishing the time required for the material to be treated and the performance of the dry extinguishing device degrades.

In such devices, the isotherm (600 °) points over the longitudinal section of the vertical Chamber the shape of a Paiabel with the axis of the vertical chamber after the apex lowered. Of the Resistance of the coke layer against the gases flowing through it reached in the in use Devices 25 mm WS / running. m or 200 to 225 mm WS per chamber. The further increase in Performance of the device by supplying cooling gas in larger quantities brings as a result of an increase in the specific throughput of the gas flowing through the extinguishing chamber in the circuit and corresponding to the Energy consumption for driving the fan causing this circulation is not profitable. But will proportionally to the increase in performance, the cross-section of the vertical chamber increases, so increases inevitably the unevenness of the downward movement of the material to be treated and also the Uneven distribution of the cooling gas over the cross-section of the vertical chamber.

The invention is based on the object, a device for dry extinguishing of coke and to create other lumpy fuels, in the extinguishing chamber a smooth movement of the to goods to be treated and a uniform distribution of the cooling gas over the total cross-section of the Extinguishing chamber is guaranteed, so that the devices for dry extinguishing with large dimensions and high performance can be developed.

This object is achieved in that the flow divider along the entire height of the arcing chamber is arranged and that the channels for the supply of the cooling gas in the upper part of the flow divider are arranged.

It is known (DE-PS 3 90 438), in a device of a similar type, the flow divider carrying the cooling gas extend towards the central axis of the chamber. The above task is however, it can only be released if the cooling gas is also in the central area of the upper quenching chamber zone is supplied, but the flow divider must be made as long as the quenching chamber is high.

The subject of the application is based on the inventive knowledge that it is of special The advantage is that the goods in the cooling chamber can be cooled in two successive phases: firstly, in the upper part of the extinguishing chamber, where the cooling of the hot extinguishing material is particularly slow takes place and reduces the performance of the device and, secondly, in the lower part where the cooling gas is over Slits distributed around the periphery of the chamber enter the chamber. By this measure according to the invention and from it inferred novel structural features of the device it has only become possible To build arcing chambers for a throughput that is significantly higher than in the prior art, up to 1 to 1.5 million tons per year and the throughput time and the energy requirement for the promotion of the extinguishing gas through the chamber within low limits.

The invention is further illustrated by the description of an exemplary embodiment with reference to FIG the drawings explained in which

F i g. 1 the cross section through the device for dry extinguishing of coke and other lumpy Shows fuels according to the invention,

F i g. FIG. 2 shows a variant of the design of the channels in the divider of the flow of the material to be treated according to FIG

of the invention.

The device for dry extinguishing of coke and other lump fuels is available as a vertical one Chamber (F i g. 1) formed, the walls 2 of which are made of a refractory building material. In the upper part of the A feed opening 3 is provided in the vertical chamber 1, and a discharge opening 4 is provided in the lower one. At the The periphery of the vertical chamber approximately in the height towards the middle chamber part are openings 5 for d: e Discharge of the cooling gas provided, the gas-dissipating diagonal pulls 6 in the walls 2 with a Collecting ring channel 7 are in communication.

The openings 5 divide the vertical chamber 1 vertically into two zones: the upper one forms one Pre-chamber 8 and the lower one represents the actual extinguishing chamber 9. In the lower conical part of the Quenching chamber 9 are slots 10 attached to the periphery of the quenching chamber 9 for the supply of the Cooling gas arranged. The slits 10 are connected to a ring distribution channel 11.

In the vertical axis of the quenching chamber 9 along its entire height is a divider 12 of the flow of the to items to be treated arranged so that the quenching chamber 9 is given an annular cross-section.

The divider 12 of the flow of the material to be treated is made of refractory bricks. Its lower part rests on supports 13 which are arranged in the conical part of the arcing chamber 9. In the upper part of the Divider 12 of the flow of the material to be treated are channels 14 for the supply of the cooling gas to the fire-fighting chimney 9 provided, via a central channel 15 in the divider 12 of the flow of the goods to be treated and a Pipe 16 with the ring distribution channel 11 in connection stand.

Additional openings for the supply of the cooling gas to the lower part of the extinguishing chamber can be made in the tube 16 9 (not shown in the drawing).

It is useful to have output sections 17 (Fig. 2) the channels 14 in the divider 12 of the flow of the material to be treated inclined in such a way that penetration of the material to be treated from the extinguishing chamber 9 (Fig. 1) into this is excluded.

The channels in the divider 12 of the flow of the material to be treated can have protective screens 18 (FIG. 2) which are arranged over the exits into the extinguishing chamber, as is the channel 14 ¹ .

The protective screen 18 also prevents the material to be treated from penetrating from the extinguishing chamber 9 ^{(FIG. 1) into the channel 14 1} (FIG. 2).

The conical part of the extinguishing chamber 9 (Fig. 1) is clad with abrasion-resistant basalt plates 19. In the lower te ^; 1 of the divider 12 of the flow of the material to be treated, slots 21 for the supply of the cooling gas to the extinguishing chamber 9 can be made.

The function of the device for dry extinguishing of coke and other lump fuels is like follows

The heated items to be treated z. B. Coke is periodically in the antechamber 8 via the feed opening 3 abandoned, while the cooled material to be treated in small portions from the quenching chamber 9 is discharged via the discharge opening 4 in such a way that the abandoned material to be treated is gradually discharged the antechamber 8 enters the quenching chamber 9. In the operating state, the amount of coke or other Be treated in the vertical chamber 1 so large that the openings 5 for the discharge of the Cooling gas are blocked by the material to be treated. The heated goods are cooled in the Quenching chamber 9 with the aid of the cooling gas, which is in the lower part of the quenching chamber 9 via the slots 10,21 and the openings in the pipe 16, and in the upper part of the quenching chamber 9 via the channels 14 in the divider 12 of the Stream of the goods to be treated flows in. Such a supply of the cooling gas ensures his uniform distribution in the space of the quenching chamber 9 and consequently uniform cooling of the material to be treated over the entire cross section of the arcing chamber 9.

The heated gases emerge from the extinguishing chamber 9 via the openings 5 and the gas-evacuating diagonal pulls 6 out into the collecting ring channel 7, from where they are in the boiler system (not shown in the drawing) for the purpose Utilization of their heat can be passed on. Furthermore, the cooled gases are through facilities for their cleaning (not shown in the drawing) and then through the fan into the ring distribution duct 11 promoted.

The cost 12 of the flow of the goods to be treated ensures one over the entire cross-section of the Quenching chamber 9 uniform supply of the material to be treated of the quenching chamber from the antechamber 8, while the annular design of the quenching chamber 9 a uniform movement of coke over its cross section regardless of the dimensions of the extinguishing chamber

1 sheet of drawings

Claims (1)

Claim: Device for dry extinguishing of coke and other lump fuels, consisting of a A vertical, round chamber made of a refractory material with a corresponding in their upper and lower part arranged feed and discharge openings through to Openings for discharge are made on the periphery at about the middle level of the chamber of the cooling gas is divided into two zones, the upper zone being an antechamber and the lower zone represents the actual extinguishing chamber, in the lower part of which there are slots for the supply of the cooling gas are arranged and in the vertical axis of which a flow divider is provided for the items to be treated, which is provided with channels for the supply of the cooling gas into the extinguishing chamber, characterized in that, that the flow divider (12) is arranged along the entire height of the quenching chamber (9), and that the channels (14) for the supply of the Cooling gas are arranged in the upper part of the flow divider (12).