DE488597C - Device on dry coke cooling systems - Google Patents

Description

Device on dry coke cooling systems The invention relates to a Device on dry coke cooling systems to achieve uniform steam development by means of heat storage. The essence of the invention is that the heat storage in the case of hot coke are prevented from radiating heat, in the case of constantly decreasing Coke temperature are exposed more and more and therefore emit more and more heat. This can be done, for example, that the heat storage initially in one connected channel consisting of a bad heat conductor, then always more can be moved into another channel that allows the heat to escape freely. at the previously known devices with heat storage, these are always exposed, so that with the continuously decreasing temperature of the cooling gases they are not continuously increasing Can give off heat.

In the drawing, an embodiment of the invention is illustrated, namely Fig. i shows a longitudinal section through the device, Fig. z a horizontal one Section along the line A-B of Fig. I, Fig. 3 is a cross section along the line C-D of Fig. 2 and Fig. q. a minor modification of the device on a larger scale.

Between the coke cooling tower a and the exchange device b, a channel c is made of poorly heat-conducting material and consists of a front, narrower part and a rear, wider part. In the narrower channel part cl are z. B. in two rows one behind the other, separate, but interconnected at the ends heat storage d made of suitable materials, eg. B. made of cast iron. The two rows are united with one another by rods e or the like in such a way that a passage f is created between them and the individual heat accumulators d are close to the corresponding wall of the channel cl with one side. A rod g is attached to the overall heat accumulator, which is initially round, then square and has teeth h here. A gear i engages in the teeth lt. By means of the rack and pinion mechanism h, i , the entire heat accumulator can be partially or completely moved forwards into the further channel C and partially or completely back again into the narrower channel cl. It runs the total heat storage with rollers k on the rails l and is limited by stops m and projections in its movements. The rod g is passed through rollers o and the stuffing box P.

The cooling gases pass through the channel f past the heat accumulators d and give off some of their heat to them. The heat accumulation is very large because, because of the channel cl, which is located close to the accumulators and consists of a poor heat conductor, no significant heat radiation can occur. With the constantly decreasing temperature of the cooling gases, the heat accumulators d are drawn more and more out of the narrow channel cl into the wide channel c2 by a control device, a force and the rack and pinion gears h, i, where the heat can radiate freely. With the size of the radiating surface of a heated body, its radiating power increases. The more the heat accumulators d are exposed, the more heat they radiate, which combines with that of the cooling gases, as a result of which their temperature remains constant to a high degree. A good match between steam demand and steam delivery is thus achieved. However, this requires that the heat accumulators are sufficiently large and available in sufficient numbers. After each new charging of the coke cooling tower, the heat accumulators are pushed back into channel c '.

The heat accumulators d can also stand vertically in the channel cl. The channels ci and c2 can also be directed from top to bottom and the heat accumulator can be moved up and down. The gradual exposure of the heat storage d can can also be done in other ways, e.g. B. by the fact that these are sweeping the But channel walls are moved.

If the heat accumulators warp due to the heat, so are these in. a square frame y with a U-shaped cross-section loosely and resiliently to be attached as shown in Fig. q. shows. The frames are kept full at the points q. The upper flange yi of the frame is narrower than the lower flange in order to store the heat easy to insert. If necessary, the frame sides can also yield be composed and resiliently allied to one another.

Claims (1)

PATENT CLAIMS: i. Devices on coke dry cooling systems for achieving a uniform vapor development by means of heat storage, characterized in that, that the arranged in the exhaust duct of the hot cooling gases heat storage at high Temperature of the cooling gases are prevented from radiating heat and at which constantly decreasing heat of the cooling gases are more and more exposed in such a way that they radiate more and more heat evenly. . a. Device on dry coke cooling systems according to claim i, characterized in that the heat accumulator consists of a narrow, canals close to them are moved more and more into a much wider canal, where the stored heat can radiate freely.