DE3229842A1 - Sealing device between a pressure vessel and a lock vessel - Google Patents

Abstract

The sealing device is located between a pressure vessel for hot ash from a Winkler pressurised gasification unit and a lock vessel which can be pressurised and depressurised. The seal has a conical seating face and a closing body with a conical sealing face, which can be lifted off from the seating face by means of a lifting rod and clears an annular orifice as a result of lifting. A pipe valve, coaxially surrounding the lifting rod, is displaceably guided between a closed position and an open position in which, respectively, it blocks or releases the ash inflow to the conical seal. The pipe valve is displaceable in one position of the closing body in the lower lifting range in the closing position and, in the upper lifting range, by the lifting rod or the closing body via a carrier device between the closing and open positions. In addition, at least one nozzle pointing towards the seating face is located close to the seating face. In this seal, forcing-in of ash particles between the sealing surfaces during closing is avoided, and the service life of the seal is extended.

Description

The invention relates to a locking device between

a pressure vessel for hot ash from a Winkler pressure gasification plant and a loadable and relaxable lock container, with a cone lock conical seat and a closing body with conical sealing surface, which can be lifted off the seat surface via a lifting rod by a piston / cylinder unit and releases a ring opening through the hub. The invention also relates to a Method for closing the locking device according to the invention.

In the fluidized bed gasification of carbonaceous material in a pressurized Winkler generator is from the bottom of the fluidized bed fine-grained ash continuously withdrawn, the temperature of which is, for example, in the range can be from 500 to 700 0c. The ash becomes continuous with a screw conveyed from the bottom of the fluidized bed into a container that is like the generator below the gasification pressure of 8 bar, for example. From this pressure vessel must the hot ashes are transferred to a lock container in which they are heated to atmospheric pressure can be relaxed, so that their delivery from the system is possible. Between the Pressure vessel and the lock container arranged below it is a closure provided that in the open position the ash flow from the pressure vessel to the then allows lock container pressurized with a tension gas and in the closed position a gas-tight closure of the relaxed lock chamber supplies against the pressure chamber.

Serves as a seal between the pressure vessel and the lock container usually a cone or bell lock with a positively inclined cone surface as a sealing surface, with the closing body or bell body via a linkage raised and lowered by e.g. a hydraulically operated piston / cylinder unit can be, wherein the shutter opens or closes.

With the known closures of this type there is the possibility of that during the closing still ashes through the annular gap opening or over the seat runs because the discharge screw continuously feeds ash into the pressure vessel and / or it has not been completely emptied. In particular, it is also possible that ash particles adhere or remain on the seat. In all of these As a result of the closing of the cases, ash particles are pressed in between the sealing surfaces, so that the seal is impaired. In addition, the sealing surfaces are subject to as a result, also due to the high temperatures, increased wear.

The invention is based on the object of a locking device between a pressure vessel for hot ash from a Winkler pressure gasification plant and to create a lock container that can be pressurized, in which the indicated Defects are avoided. In particular, ash particles should be injected when closing between the sealing surfaces of the closure can be avoided, even then, if the ash is continuously fed into the pressure vessel and / or that Ash material because of the inclination of the seat and / or the size and shape of the Ash particles tend to stick to the sealing surfaces of the closure.

According to the invention, this object is achieved in the case of the locking device mentioned at the beginning solved in that a pipe slide surrounding the lifting rod between a closed position and an open position, in which it blocks or releases, is displaceably guided, the tubular slide in one position of the closing body is in the closed position in a lower portion of the stroke and in the upper Part of the stroke from the lifting rod or the closing body via a driver device is displaceable between the closed and open position, and that near the seat at least one nozzle directed towards the seat surface is arranged. In the inventive By raising and lowering the lifting rod, the locking device is not just the actual one Shutter open or closed, but the ash feed through the pipe slide released for closure or blocked. The driver device ensures that that the pipe slide only releases the ash inlet to the closure when the closure is already open, and that the pipe slide blocks the ash feed when the closing movement of the closing body has already started, but the closure is still open. The ash feed to the still open shutter is interrupted in such a way that although the pressure vessel still contains ash or ash is continuously fed to it will. The pipe slide ensures that the ash supply is shut off on all sides. Gas, in particular inert gas such as nitrogen, can then pass through the nozzle over the sealing surfaces be blown in order to blow away ash particles attached or adhering there. After this in this way the sealing surfaces, in particular the seat surface, of ash particles has been cleaned, the closing body is lowered further until it is with his Conical surface rests. Now that clean metal surfaces are lying on top of one another, results gas-tight under the effect of the pressure on the closing body Barrier against the lock container when it is relaxed. Also will the wear on the sealing surfaces is significantly reduced. After releasing the lock container the hot ash can be discharged through a second shutter, whereupon the lock container is opened for renewed loading after being filled with gas is, whereby first the closing body and only then the pipe slide opens.

According to the preferred embodiment of the invention, there is the driver device from a bottom inserted into the pipe slide with a central opening for passage the lifting rod and one on the lifting rod between the floor and the closing body attached ring, the diameter of which is larger than that of the bottom opening. At the Initially, only the closing body of the cone lock is actuated by the lifting rod raised. The tube slide remains in the closed position until the ring hits the tube sheet strikes and then takes the pipe slide in the upward direction, so that the annular Ash flow is released. During the downward movement of the lifting rod, first Closing body and pipe slide lowered together until the pipe slide hits the Wall or a form ring connected to it strikes and thereby the ash inflow is blocked. With the further downward movement of the lifting rod, the ring gives the Ground free again. The ring can be adjustable on the lifting rod, so that the The height of the lower partial stroke during which the pipe slide remains closed varies can be.

Preferably, the pipe slide is by a acting on the ground Helical compression spring held in the closed position.

The helical compression spring also ensures that in the upper part the stroke of the slide bottom is held in contact with the ring and the movement the lifting rod joins in. The pipe slide is preferably in a stationary one Guide tube guided. According to the preferred embodiment of the invention is a Bottom with central opening for the lifting rod to pass into the guide tube inserted and arranged the helical compression spring between the floors. At the top Part of the stroke during the upward movement is the helical compression spring between the slide bottom and the bottom of the guide tube compressed.

The compressed spring ensures that the tubular slide moves downwards the lifting rod follows and not, for example, due to dust accumulation in the guide tube Keeps hanging.

According to the preferred embodiment of the invention, the nozzle is a Annular gap whose beam over the conical. Seat is directed. Through this this ensures that the seat surface is evenly coated with the cleaning gas and an optimal cleaning effect is achieved.

The method for closing the device according to the invention is correct thereby yekennLeichrret that the closing body of the cone lock together lowers the upper part of the stroke with the pipe slide and thus the ash feed to the Cone lock blocks, the seat of the cone lock is cleared by a gas and further lowers the closing body by the lower partial stroke. The lifting movement will together automatically when the nozzle is charged with blowing gas controlled.

The lowering movement of the closing body is expediently during purging the seat is interrupted.

The invention is described in more detail below with reference to the drawing. FIG. 1 shows a schematic representation of a system for discharging hotter Ash from a pressurized fluidized bed generator; and FIG. 2 a Axial section of an embodiment of the locking device according to the invention.

According to FIG. 1, a Winkler generator operated under pressure is located on the bottom 1 By means of screw 2, hot ash about 600 "C is continuously withdrawn and placed in the pressure vessel 3 funded. The ashes are removed from the pressure vessel 3 by the locking device according to the invention 4 transferred into a lock container 5, which also closes with a cone at the bottom (not shown) and pressurized with an inert gas can be.

Figure 2 shows the locking device according to the invention.

The housing consists of a double-walled jacket 10 through which Nozzle 11, ring line 12 and bores 13 cooling steam can be supplied. By Stub 14, exhaust steam and condensate are diverted from the cooling jacket 10. At the bottom The end of the cooling jacket is between the flanges 15 and 16 an annular one Seat body 17 firmly clamped, which has a conical seat surface 17a. Of the Body 17 also has an annular recess through which on the seat body 17 attached form ring 18 is covered to form an annular channel 17b so that that between the conical surface 17a and the form ring 18 an annular gap 19 remains free. From the annular channel 17b a bore 17c leads through the seat body radially outwards, so that a gaseous medium can be fed to the annular channel 17b.

A guide tube 21 is rigidly attached to the ceiling 20 of the housing, which is also equipped with a double jacket and exposed to cooling steam can. The cooling steam is from the annular channel 12 through holes 22 in the jacket of the guide tube 21 initiated. Exhaust steam flows through the exhaust pipe 23 from the Coat off.

A lifting rod 24 protrudes through the ceiling 20, coaxially to the guide tube down to the lower part of the housing. The lifting rod can be through an external Piston / cylinder unit (not shown) can be raised and lowered. The lifting rod At the lower end 24 carries the closing body 25, which corresponds to one of the seat surface 17a having conical sealing surface 25a. In the cooled guide tube 21 is a Pipe slide 26 guided vertically displaceably. In the pipe slide 26 is a base 27 is used, through the central opening 27 of which the lifting rod 24 is guided. Further a base 28 is firmly inserted into the guide tube 21 through its central opening 28a, the lifting rod 24 is also movably guided through it. Between the floors 27.28 a helical compression spring 29 is arranged, which the pipe slide 26 pushes downwards and holds it in contact with the mold ring 18. Finally is on the Lifting rod 24 between the closing body 25 and the base 27, an adjusting ring 30 adjustable appropriate.

The hot ash initially only runs through the guide funnel 31 into the annular space 32, since the pipe slide 26 is the inlet in the position shown to lock 17.25 locks. Should the lock container flanged at 33 (not shown) are loaded, the lifting rod 24 with the closing body 25 is through the external piston / cylinder unit is raised, the tubular slide 26 initially remains in the illustrated closed position. If in the course of the lifting movement the Ring 30 meets the hub 27b, which is firmly inserted into the bottom 27, is also the Pipe slide 26 lifted and thereby the inlet of the ash to the ring opening between the seat surface 17a and the sealing surface 25a released. When the desired amount Ash has entered the lock container, the lifting rod 24 is lowered again.

The compressed spring 29 ensures that with the lifting rod 24 the pipe slide 26 is also lowered until it rests on the form ring 18 again and blocks the ash feed to the shutter. The closing body 25 is then located still in the raised position above the seat surface 17a, so that the inside of the tubular slide 26 ashes can still run off. Then the seat surface 17a is through the annular gap 19 was blown free of ash with nitrogen. Then the lowering movement of the closing body 25 continued until this with its sealing surface 25a on the Seat 17a rests and seals the pressure vessel against the lock container. With the relaxation of the lock container the gas pressure acts inside the closing device, which corresponds to the gasification pressure, as the closing pressure, while the piston / cylinder unit only raises and lowers the closing body 25 and of the pipe slide 26 causes.

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Claims (8)

Closing device between a pressure vessel and a lock container Claims 1. Closing device between a pressure vessel for hot ash from a Winkler pressure gasification system and a lock container that can be loaded and released, with a cone lock with a conical seat and a closing body with conical sealing surface that can be lifted off the seat surface via a lifting rod and releases a ring opening through the hub, characterized in that a die Lifting rod (24) coaxially surrounding tubular slide (26) between a closed position and an open position in which the ash feed to the cone lock (17.25) locks or releases, is displaceably guided, the pipe slide in one position of the closing body (25) is in the closed position in a lower stroke range and in the upper stroke area of the lifting rod (24) or the closing body (25) a driver device can be moved between the closed and open positions, and that near the seat surface (17a) at least one nozzle directed towards the seat surface (19) is arranged. 2. Apparatus according to claim 1, characterized in that the driver device from a base (27) with a central opening inserted in the pipe slide (26) (27a) for the passage of the lifting rod (24) and one on the lifting rod (24) between the bottom (2 and the closing body (25) attached ring (30) consists. 3. Apparatus according to claim 2, characterized in that the pipe slide (26) by a helical compression spring (29) acting on the base (27) in the closed position is held. 4. Device according to one of claims 1 to 3, characterized in that that the pipe slide (26) is guided in a stationary guide tube (21). 5. Apparatus according to claim 4, characterized in that a bottom (28) with a central opening (28a) for the lifting rod (24) to pass into the guide tube (21) is inserted and a helical compression spring (29) between the bases (27,28) is arranged. 6. Device according to one of claims 1 to 5, characterized in that that the nozzle (19) is an annular gap, the jet of which is directed over the seat surface (17a) is. 7. A method for closing the device according to any one of the claims 1 to 6, characterized in that the closing body (25) of the cone lock (17,25) together with the pipe slide (26) by the upper partial stroke and thus the ash feed locks to the cone lock, the seat (17a) the cone closure is blown free by a gas and the closing body (25) continues lowered by the lower partial stroke. 8. The method according to claim 7, characterized in that the The lowering movement of the closing body (25) is interrupted during the purging process.