DE1262494B - Device for the continuous transfer of a finely divided solid material from a room with normal pressure into a room under increased pressure - Google Patents

Description

Device for the continuous transfer of a finely divided solid material from a room of ordinary pressure to a room under increased pressure The invention relates to a device for the continuous transfer of a finely divided solid substance, in particular a fuel, from a room of normal pressure in one under increased pressure, the further treatment, especially the Gasification of the fuel ili the suspension with oxygen or oxygen-enriched Ventilating space.

It is known to differentiate between the rooms in a canal-like corridor Pressure by compressing the finely divided solid material by means of a ram to form a sealing plug that, if it is a gasifier acts, a back migration of the oxygen required for the gasification or the Production gas from the gasifier into the dust feed system mounted on the press should prevent. This sealing plug consists of a large number of small ones tablet-shaped pressed bodies, which are reshaped with each stroke of the press ram, at the same time the plug is pushed further against in the channel-like passage a friction body that finely grinds the individual pellets again before using them Oxygen or oxygen-enriched air and optionally also an endothermic one reactive gasifying agents, such as hydrogen, in those under high pressure, for example 30 atmospheres, standing gassing room.

The friction bodies used in these known devices are usually cylindrical, conical or pear-shaped. It falls the coal dust at the end of the friction body is released from the gasification media, which flow out of suitable blowing nozzles, for example an annular nozzle, detected and promoted.

The device according to the invention consists in the fact that the friction body on both sides with perpendicular to its axis or slightly to the perpendicular inclined friction surfaces is provided, the ribs of which on the circumference in blades run out, one or more blowing nozzles being provided in the area of the blades are, and that the friction surfaces outside the axis of the friction body two each other opposite and simultaneously working press cylinders are assigned.

The advantage of the proposed device over the known consists in a more even and quicker removal of the regrind Good. This is achieved on the one hand by arranging the press cylinder outside the axis of the friction body, on the other hand through the design of the friction body itself, which already as a result of the occurring centrifugal forces a quick delivery of the Good effect on the circumference of the friction body. Here on the circumference again the shovels take care of it for the fact that the or the blowing nozzles constantly a dosed amount of the finely divided Good is fed.

The invention thus creates the prerequisite that in the preferred application, the gasification of suspended coal dust with oxygen, the gasifier a constant amount of the pulverized coal to be gasified in the unit of time is supplied, which ensures trouble-free operation and a consistent composition of the generated gas is absolutely necessary. This effect can be used if necessary can be improved by having several nozzles with respect to their position arranged offset to the blades and then the nozzle outlet lines united. In this context it should also be noted that the friction body is also due to its relatively large groove volume and thus its large coal dust reserve contributes to the continuity of the blowing capacity.

The blades attached to the circumference of the friction body can be of various types be designed. A flow-favorable profile is particularly important to put in order to the directed against them and exiting from the blow nozzle or nozzles gaseous medium, in the case of pulverized coal gasification, oxygen or oxygen-enriched Air to offer as little resistance as possible.

The effect of the device according to the invention is increased even more, when several alternately working pairs of press cylinders are assigned to the friction body are. But also in this case they work forming a couple, d. H. those arranged opposite one another on the two friction surfaces of the friction body Press cylinder at the same time, whereby the forces acting on the friction body shaft practically cancel each other out.

In the drawing is an embodiment of the device according to the invention shown, namely shows F i g. 1 shows a horizontal section and FIG. 2 as a detail a view of the blades.

1 with the friction body is referred to, which sits on the shaft 2 and is enclosed by the housing 3. The press cylinders 4 are attached to the housing, in which the coal dust filled by the metering devices (not shown here) compressed by means of the ram 5 in a known manner to form gas-impermeable plugs 6 will. In each press cylinder, a ball valve 7 is also provided, which only then opens when the plug reaches such a compressive stress through the ram has that it guarantees a seal for the short period of time when it is inserted into the tap, and which closes again immediately when the ram reaches its end position is. As can be seen from the drawing, two opposed to each other work Press ram at the same time. So the top two are just pushing the carbon plug through the open ball valves against the friction body, while the lower ram returned to their original position for the purpose of filling in new quantities of coal dust and the ball valves assigned to them are closed.

The carbon plug pressed against the friction body 1 is held by the ribs finely ground again, and the coal dust arrives, supported by the rotation of the friction body, in the area of the blades 8. These blades transport the coal dust in front of the blowing nozzle 9, which is drawn here offset by 90 ° and in which the dust is captured by the gasification oxygen. That so educated Coal dust-oxygen mixture then flows through line 10 into the not shown gassing room.

From Fig. 2 it can be seen how the blades 8 on the circumference of the friction body 1 are set. The cross section of these blades is preferably lens-shaped designed to keep the flow resistance as low as possible.

It should also be noted that the speed of the friction body shaft 2 can be regulated is. This allows the peripheral speed of the friction body of the feed speed Adjust the carbon plug insofar as a back pressure effect is achieved, the is important for the formation of a tight plug end.

Claims (2)

Claims: 1. Device for the continuous transfer of a finely divided solid substance, in particular a fuel, from a room of normal pressure in one under increased pressure, the further treatment, especially the Gasification of the fuel in suspension with oxygen, serving space in the different in a channel-like corridor (press cylinder) between the rooms Pressure by compressing the solid material by means of a ram a gas-impermeable Sealing plug is formed, which is regrinded by a friction body is pushed into the room under increased pressure, which is marked by, that the friction body on both sides with perpendicular to its axis or to the perpendicular slightly inclined friction surfaces is provided, the ribs of which on the circumference in The blades run out, with one or more blowing nozzles in the area of the blades are provided, and that the friction surfaces outside the axis of the friction body two opposing and simultaneously operating press cylinders are assigned. 2. Device according to claim 1, characterized in that several alternately working pairs of press cylinders are provided. Considered publications: German Patent Specifications No. 878 253, 972 895.