DE19742333C1 - Equipment for wetting free-flowing bulk material especially power station filter ash - Google Patents

Abstract

Equipment for wetting free-flowing bulk material has an annular nozzle supplied with water from a surrounding split water chamber, the two parts of which can be moved relative to one another along a bulk material drop tube and are fixed to upper and lower parts of the annular nozzle. In equipment for wetting free-flowing bulk materials, having a bulk material drop tube and an annular nozzle supplied with water from a surrounding water chamber, the novelty is that (a) the outer wall (2) of the water chamber (1) is divided into two parts which are connected together by a flexible compensator (3); (b) the water chamber (1) has an adjusting mechanism (4) for moving the two parts relative to one another in the direction of the longitudinal axis of the bulk material drop tube (9); and (c) the annular nozzle (12) has separate upper and lower parts (13, 14), the upper part (13) being fixed to the upper part of the water chamber (1) and the lower part (14) being fixed to the lower part of the water chamber (1).

Description

The invention relates to a device for moistening free flowing bulk goods, especially from power plants filter ash, with a bulk material downpipe.

It is already a device for moistening power factory filter ash with an ash fall pipe, one that Ash fall pipe surrounding water chamber and one itself closing mixing section, which ge on a transfer point leads is known (DE 41 27 447). It is on the floor the water chamber one with its jet direction inwards directed ring nozzle formed, which is an annular gap upper part and has an annular gap lower part. By the from the Annular cone-shaped water jet veil the filter ash emerging from the ash fall pipe moistened. When using dampening water that with coarser solid ingredients is enriched, it comes to clog the ring nozzle. This leads to one at first Increasing the water speed in the annular gap area. A further clogging of the annular gap finally has Consequence that the amount of water preselected for humidification cannot be enforced. So that is all damp process disrupted and must be adjusted. Only after elaborate cleaning work to release the ring paltes can continue to moisten the power plant filter ash be set.

A device for moistening is also from DD 216 390 Ten of power plant filter ash known with a Ring nozzle system is provided in an ash fall pipe installed and the gap width is adjustable. Below The ring nozzle is an elastic, according to the flow technical paradox of contracting hose of min at least 3 m long made of a plastic material. To prevent caking of ash on the inside wall of the Remove ash fall pipe in the area of the ring nozzle, this known device has a rotating, moto  rically driven scraper knife. A disadvantage here is that blockages in the slit nozzle are not clear can be done.

The invention has for its object a device for moistening free flowing bulk goods, especially those of power plant filter ash with a bulk material drop tube, a water chamber surrounding the bulk material downpipe with one in it from an annular gap upper part and one Annular gap lower part formed and one itself closing elastic mixing section so that Blockages in the ring nozzle caused by the mixing water led solid ingredients to remain easily manageable and so that interruptions in the moistening process do not occur ten.

This is achieved in that the outside according to the invention wall of the water chamber is divided into two parts by a flexible compensator are connected to each other, and the water chamber an adjustment device for the Ver pushing the two parts of the water chamber against each other in the direction of the longitudinal axis of the bulk material downpipe points, the upper part and the lower part of the ring nozzle are made separately and the top over the bulk drop pipe with the upper part of the water chamber and the lower part with the lower part of the water chamber is firmly connected.

The invention will be explained in more detail using an exemplary embodiment. Here, FIG. 1 shows the apparatus in section.

The moistening of free-flowing bulk goods, in particular of power plant filter ash, is carried out in a bulk pipe 9 , which is surrounded by a water chamber 1 .

The outer wall 2 of the water chamber 1 is divided transversely to the longitudinal axis of the bulk material drop pipe 9 into two parts which are connected to one another by a flexible compensator 3 . A Verstelleinrich device 4 is arranged on the side of the water chamber 1 . The ring nozzle 12 is divided into an upper part 13 and a lower part 14 . Here, the upper part 13 is what serkammer 1 and the lower part 14 of the bulk material down pipe 9 is connected via the bulk downpipe 9 to the upper part of the lower part of the water chamber 1 fixed. The adjusting device 4 preferably has stops 5 , tension springs 6 and actuating cylinders 7 distributed uniformly over the circumference of the water chamber 1 . The Zugfe 6 and actuating cylinder 7 are rigidly connected via an outer collar 8 fastened to the upper part of the water chamber 1 to the upper part 13 of the ring nozzle 12 and via a corresponding outer collar fastened to the lower part of the water chamber 1 to the lower part 14 of the ring nozzle 12 , while the stops 5 are only attached to the upper outer collar 8 . The lower part 14 of the ring nozzle 12 and the lower region of the water chamber 1 are held via the tension springs 6 and the actuating cylinders 7 . The inwardly directed annular nozzle 12 with its jet direction is formed by the bottom of the lower region of the water chamber 1 and the lower end of the bulk material drop pipe 9 . A supply line 10 for the mixing water is integrated from above into the upper part of the water chamber 1 , the supply line 10 being provided with a pressure measuring device 11 . In a development of the invention, the area of the annular gap surface of the upper part 13 and the lower part 14 of the ring nozzle 12 is made of abrasion-resistant and corrosion-resistant material, which can be ceramic, plastic or special steel. The feed line 10 opens before preferably tangentially into the water chamber 1 in order to reduce the risk of clogging at the ring nozzle 12 .

The water-contacting surfaces of the water chamber 1 and the bulk material drop pipe 9 are expediently provided with a corrosion-resistant coating which, for. B. consists of egg ner lower nickel layer and an upper hard chrome layer.

The free flowing bulk material, e.g. B. power station filter ash, passes from a funnel-shaped container through the bulk material drop pipe 9 into the exit from the ring nozzle 12, the conical water jet curtain and is moistened evenly. Due to the mixing water entrained solid ingredients that can not pass the gap of the ring nozzle 12 , there is occasionally clogging of the ring gap. This causes a pressure increase in the supply line 10 for the mixing water, which is shown on the pressure measuring device 11 , compared to the pressure during normal operation. When a limit value is reached, the actuating cylinders 7 are actuated briefly, as a result of which the lower part 14 of the ring nozzle 12 is moved downward with the lower region of the water chamber 1 . The annular gap of the annular nozzle 12 is enlarged and flushed out. After relieving the actuating cylinder 7 , the tension springs 6 pull the lower part 14 of the ring nozzle 12 with the lower region of the water chamber 1 again until the lower outer collar rests against the stops 5 , thus restoring the starting position. If after a single enlargement of the annular gap of the ring nozzle 12 the blockage has not yet been removed, this must be repeated until the ring nozzle 12 is free again. By the ela stischen compensator 3 is ensured that no mixing water from the water chamber 1 from leaking to the outside during the displacement of the lower region of the water chamber. 1

The following advantages are achieved by the invention:

• 1. No longer lasting blockage of the ring nozzle solid ingredients carried by the mixing water.
• 2. No interruption of the moistening process during the Flushing.
• 3. No effort for cleaning the ring nozzle.
• 4. The use of heavily soiled mixing water is possible.

Reference list

1

Water chamber

2nd

Outer wall

3rd

Compensator

4th

Adjustment device

5

attack

6

Tension spring

7

Actuating cylinder

8th

(upper) outer collar

9

Bulk waste pipe

10th

Supply line

11

Pressure gauge

12th

Ring nozzle

13

Top

14

Lower part

Claims (9)

1. Apparatus for moistening free-flowing bulk goods, in particular from power plant filter ash, with a bulk material downpipe, with an annular nozzle formed therein from an upper part and a lower part for the mixing water of a water pipe surrounding the bulk material downpipe and a supply line and a flexible mixing section that follows , which is led to a transfer point, characterized in that the outer wall ( 2 ) of the water chamber ( 1 ) is divided into two parts which are connected to one another by a flexible compensator ( 3 ), and the water chamber ( 1 ) has an adjusting device ( 4 ) for the displacement of the two parts of the water chamber ( 1 ) against each other in the direction of the longitudinal axis of the bulk material drop pipe ( 9 ), the upper part ( 13 ) and the lower part ( 14 ) of the ring nozzle ( 12 ) are designed separately from one another and the upper part ( 13 ) over the bulk material drop pipe ( 9 ) with the upper part the water chamber ( 1 ) and the lower part ( 14 ) are firmly connected to the lower part of the water chamber ( 1 ). 2. Device according to claim 1, characterized in that the adjusting device ( 4 ) evenly distributed over the order stops ( 5 ), tension springs ( 6 ) and Stellzylin the ( 7 ). 3. Apparatus according to claim 1 and 2, characterized in that the stops ( 5 ) are arranged only on the upper part ( 8 ). 4. Apparatus according to claim 1 to 3, characterized in that a pressure measuring device ( 11 ) is integrated in the feed line ( 10 ). 5. Apparatus according to claim 1 to 4, characterized in that the area of the annular gap surface of the upper part ( 13 ) and the lower part ( 14 ) of the ring nozzle ( 12 ) is made of abrasion-resistant and corrosion-resistant material. 6. The device according to claim 5, characterized in that that the abrasion-resistant and corrosion-resistant material ne ceramic, a plastic or a special steel. 7. The device according to claim 1 to 6, characterized in that the feed line ( 10 ) on the water chamber ( 1 ) is arranged tangentially. 8. The device according to claim 1 to 7, characterized in that the water-contacting surfaces of the water chamber ( 1 ) and the bulk material drop pipe ( 9 ) are provided with a corrosion-resistant coating. 9. The device according to claim 8, characterized in that that the corrosion-resistant coating from a bottom ren nickel layer and an upper hard chrome layer stands.