PL192486B1 - Apparatus for humidifying particulate materials in their free-flow stream in particular for use in handling ashes from power plant filters - Google Patents

Abstract

In the present invention, there is disclosed an apparatus for moistening freely flowing bulk solids especially ash dust removed by filters from power station gases. The dust descends through a gravity pipe (6) which has an upper ring section (2) and a lower ring section (3), linked by an annular jet (1) gap through which water is introduced. The descending pipe (6) is surrounded by a water jacket (5) discharging to the annular jet (1). The ring sections (2, 3) forming the annular jet (1) gap are separate sections whose axial distance from each other is varied as required, forming a gap (7) between the two. The rims of the ring sections (2, 3) adjacent to the gap (7) have castellated edges with notched passages (4). The surrounding water tank (5) comprises two separate mantles (8, 9) which move axially back and forth in the direction of the descending pipe (6) and coming together. Each part of the water tank mantle is joined to one of the ring sections (2, 3). Ash descends through the pipe (6) in free fall passing the annular jet (1) through which water is sprayed to form a veil, uniformly wetting the dust. Additional water, taken from e.g. the sulfur dioxide gas washer, is mixed with a granular additive and introduced to the pipe (1) through the castellated passages (4) in the annular gap (7).

Description

The subject of the invention is a device for wetting free-flowing loose materials, in particular ashes from power plant filters.

From DE 41 27 247, a device for wetting power plant filter ashes is known, comprising a water chamber surrounding a discharge pipe for ash and an associated mixing section which is led to the transfer point. In this case, an annular nozzle is formed at the bottom of the water chamber, from which the outgoing water stream is directed radially inwards and has a slotted upper part and a lower part.

The ash from the filters is moistened through the water mist in the form of a cone, flowing from the annular nozzle, which is supplied through a drain pipe. Since water contains a lot of solids, the annular nozzle becomes blocked, which first leads to an increase in the water velocity in the area of the annular gap. Further fouling of the annular gap means that the amounts of water determined for humidification cannot flow through it, which means that the entire humidification process is disturbed and has to be adjusted again after the extensive cleaning work of the annular gap.

The object of the invention is to design the moistening device in such a way that the annular nozzle is not blocked by solid substances in the water and thus the moistening process is not interrupted.

This task is solved thanks to the fact that the two slit parts forming the annular nozzle are arranged at an adjustable distance from each other, and in the area of the slit surface there are locally made through-holes which increase the flow area and that the water chamber surrounding from the outside the drain pipe in the area of the nozzle It has an outer shell consisting of two shell parts separated from each other, the two shell parts being displaceable towards each other in the axial direction of the downpipe and mutually sealed and connected to one of the two slot parts.

Preferably, the upper slit portion of the ring nozzle is connected to the upper jacket portion of the water chamber and the lower slit portion of the ring nozzle to the lower jacket portion, the jacket parts being threaded together.

According to the invention, the recesses have the same shape and are uniformly distributed around the circumference of the slit surface, which in the area of the upper slit portion and the lower slit portion are made of an abrasion- and corrosion-resistant material, preferably ceramics, plastic, special steel.

According to the invention, a feed line is connected to the water chamber and the inner surfaces of the water chamber and the downpipe are provided with a corrosion resistant coating.

The advantage of the invention is the trouble-free continuous and uninterrupted wetting of the bulk material. The design of the annular nozzle according to the invention avoids fouling of the annular nozzle.

The subject matter of the invention is shown in an exemplary embodiment in the schematic drawing.

The moistening of the free-flowing bulk material, in particular the power plant filter ash, is carried out in the downpipe 6, which is divided into an upper part 12 and a lower part 13.

An upper slit portion 2 is provided in the upper portion 12 and a lower slit portion 3 in the lower portion 13. The upper slit portion 2 and the lower slit portion 3 form an annular nozzle 1 and are spaced variable apart from each other.

In the upper and / or lower region of the slots 7, there are locally provided water flow surfaces in the form of enlarged, uniformly spaced through-holes 4, preferably of the same shape, so that ribs 14 are formed between the openings 4.

The water chamber 5 in the area of the annular nozzle 1 surrounds the drain pipe 6 from the outside. The water chamber 5 has an outer jacket consisting of two jacket parts 8,9, connected to each other by means of a thread 11, so that the lower jacket part 9 is screwed onto the upper one. shell part 8. The two shell parts 8, 9 are sealed in the axial direction of the downpipe 6 and slid against each other. An actuating rod 15 is used for screwing in and is fixed to the shell part 9.

The upper shell part 8 of the water chamber 5 is bolted to the upper part 1 of the downpipe 6 attached to the upper part of the slit 2 of the annular nozzle 1,

The lower mantle part 9 of the water chamber 5 is connected to the lower slit part 3 of the annular nozzle 1 in the lower part 13 of the downpipe 6. Thus, by simply turning the lower mantle part 9 towards the upper mantle part 8, the distance between the two parts is changed. 2,3, which allows easy adjustment of the ring nozzle 1 to the respective working conditions. The slit surface 7 of the annular nozzle 1 in the region of the upper slit portion 2 and lower slit portion 3 is made of an abrasion- and corrosion-resistant material, such as ceramics or plastic, or special steel, or another material with similar properties. A water supply line 10, for example from a flue gas desulphurization plant, is arranged tangentially to the water chamber 5, which reduces the risk of clogging of the water chamber 5. The inner surfaces of the water chamber 5 and the drain pipe 6 are provided with a corrosion-resistant coating consisting of a lower layer of nickel and hard chrome top layer.

The method of operation of the device is as follows: The free-flowing bulk material, for example power plant filter ash, reaches the water mist dispersed by the annular nozzle 1 in free fall from the funnel-shaped tank through the drain pipe 6 and is evenly wetted. Water, for example water from a flue gas desulphurization plant, with granular components is fed through the recesses 4 and the ribs 14 of the fracture surface 7 uniformly distributed over the circumference into the free-falling ash. Depending on whether the inwardly cut lower slit portion 3 is screwed in or out by means of the actuating rod 15, the size of the annular gap is reduced or enlarged. The upper slit portion 2 remains stationary. Solid substances contained in the water flow through the recesses 4 without any problems. Due to the possibility of changing the size of the annular gap of the annular nozzle 1, they are not deposited. The moistening of the bulk material is continuous and uninterrupted. Overlapping cleaning work on the annular nozzle 1 is not required as it is not fouled.

Claims (8)

1. Apparatus for humidifying free-flowing bulk materials, in particular power plant filter ash, comprising a downpipe, an annular nozzle formed by an upper slotted portion and a lower slotted portion for incoming water, a water chamber surrounding the downpipe and having a supply conduit and a flexible mixing section which is brought to the transfer site, characterized in that the two slit parts (2, 3) spaced apart to form the annular nozzle (1) are arranged at an adjustable distance from each other and are in the area of the slit surface (7). locally made through-holes (4) increasing the passage area and that the water chamber (5), which surrounds the drain pipe (6) from the outside in the area of the annular nozzle (1), has an outer shell consisting of two shell parts (8, 9) , the two shell parts (8, 9) being displaceable towards each other in the axial direction of the fall pipe (6) and being mutually not sealed and connected to one of the two slotted parts (2, 3). 2. The device according to claim The method of claim 1, characterized in that the upper slotted part (2) of the annular nozzle (1) is connected to the upper mantle part (8) of the water chamber (5) and the lower slotted part (3) of the annular nozzle (1) to the lower mantle part (9). ). 3. The device according to claim 1 A method as claimed in claim 1 or 2, characterized in that the shell parts (8, 9) are connected to each other by a thread (11). 4. The device according to claim 1 3. The device as claimed in claim 1, characterized in that the recesses (4) have the same shape and are distributed evenly around the circumference of the slit surface (7). 5. The device according to claim 1 A device according to claim 1, characterized in that the slit surface (7) of the annular nozzle (1) in the area of the upper slit portion (2) and the lower slit portion (3) is made of an abrasion- and corrosion-resistant material. 6. The device according to claim 1 5. A method according to claim 5, characterized in that the slit surface (7) is made of ceramics, plastic, special steel. 7. The device according to claim 1 A feed line (10) as claimed in claim 2, characterized in that a supply line (10) is connected to the water chamber (5). 8. The device according to claim 1 The method of claim 1, characterized in that the internal surfaces of the water chamber (5) and the downpipe (6) are provided with a corrosion-resistant coating.