CZ294669B6 - Apparatus for moistening freely flowing loose materials, particularly fly ash 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

Technical field

BACKGROUND OF THE INVENTION The invention relates to a device for wetting free-flowing bulk materials, in particular ash from power plant filters, with a downflow pipe for bulk material, with an annular nozzle for admixed water comprising an upper annular gap and a lower annular gap. bulk material provided with a feed, and with a follow-up elastic mixing line, which is led to the transfer point.

BACKGROUND OF THE INVENTION

There is already known a device for wetting fly ash from power plant filters with a fly ash pipe, with a water chamber surrounding the fly ash pipe and with a downstream mixing path leading to a transfer point (DE 41 27 447). An annular nozzle is formed at the bottom of the water chamber, the spraying of which is directed radially inwards, which has an upper part of the annular gap and a lower part of the annular gap. By means of a conical water veil emerging from the nozzle, the fly ash from the filter emerging from the downcomer is wetted. The use of dampening water, which is enriched with coarse solids, clogs the annular nozzle. Further fouling of the annular gap eventually results in the amount of water to be moistened cannot be enforced. This disrupts the entire dampening process and must stop. Only after expensive cleaning to release the annular gap can the wetting of the fly ash from the power filter continue.

SUMMARY OF THE INVENTION

SUMMARY OF THE INVENTION It is an object of the present invention to provide a device for wetting free-flowing bulk materials, in particular fly ash from power plant filters, so as not to clog the annular nozzle with solids contained in admixed water and thereby interrupt the wetting process.

This object is achieved by a device for wetting free-flowing bulk materials, in particular fly ash from power generating filters, with a downflow pipe for bulk material, with an annular nozzle for admixed water consisting of an upper part of an annular gap and a lower part of an annular gap. a bulk material provided with an inlet and with a subsequent elastic mixing path leading to a delivery point according to the invention, which is characterized in that the upper part of the annular gap and the lower part of the annular gap have variable spacing; and locally extending the flow area, and the water chamber that surrounds the downcomer for the bulk material in the region of the annular nozzle externally has an outer shell consisting of two separate parts, the two outer parts it coats are mutually displaceable in the axial direction of the downpipe the bulk material and are sealingly guided therein, and wherein the outside wall is connected with the upper part of the annular gap and the lower portion of the outer casing is connected to the lower part of the annular gap.

According to a preferred embodiment, the upper portion of the annular gap of the annular nozzle is rigidly connected to the upper portion of the outer shell of the water chamber and the lower portion of the annular gap of the annular nozzle is rigidly connected.

The outer shell portions are preferably threaded relative to one another.

-1 CZ 294669 B6

The recesses preferably have the same shape and are equally spaced around the periphery of the annular gap surface.

The annular gap surface of the annular nozzle is preferably made of abrasion-resistant and corrosion-resistant material in the region of the upper portion of the annular gap and the lower portion of the annular gap.

The abrasion-resistant and corrosion-resistant material is preferably ceramic, plastic or special steel.

The inlet to the water chamber is preferably arranged tangentially.

Preferably, the surfaces of the water chamber and the downcomer for bulk material in contact with water are provided with a corrosion-resistant coating.

The corrosion-resistant coating preferably consists of a bottom layer of nickel and a top layer of hard chrome.

Overview of the figure in the drawing

The invention is explained in more detail below by way of example. The figure represents a schematic representation of a downcomer for bulk material with a water chamber.

DETAILED DESCRIPTION OF THE INVENTION

The wetting of the free-flowing bulk materials, in particular fly ash from the power plant filter, is carried out in the downcomer 6 for the bulk material, which is divided into an upper part 12 and a lower part 12.

An upper portion 2 of the annular gap is provided on the upper portion 12 of the downcomer 6 for the bulk material, and a lower portion 3 of the annular gap is provided on the lower portion 13 of the downcomer 6. The upper part 2 of the annular gap and the lower part 3 of the annular gap form an annular nozzle 1 and are variable in their spacing. In the upper and / or lower part of the surface 7 of the annular gap, a through recess 4 is provided, locally increasing the flow surfaces for the admixed water.

The water chamber 5 surrounds the downflow tube 6 for bulk material outside the area of the annular nozzle

The water chamber 5 has an outer shell consisting of two mutually separated portions 8; 9. In this connection, the upper outer casing part 8 is outside and the lower outer casing part 9 is threaded internally 11. The lower outer casing part 9 is screwed onto the upper outer casing part 8, both parts 8; 9 of the outer shell are displaceable in the axial direction of the downcomer 6 for the bulk goods and are guided to one another. The upper part 8 of the outer casing of the water chamber 5 is firmly connected to the upper part 2 of the annular gap of the annular nozzle 1 of the upper part 12 of the downcomer 6 for bulk material, and the lower part 9 of the outer casing of the water chamber 5 with the lower part of the downcomer 6 for the bulk material. In this way, the distance between the two parts 2 is; 3 can be changed simply by rotating the outer casing lower part 9 against the outer casing upper part 8 and thus easily adaptable to the respective operating conditions. The annular gap surface 7 of the annular nozzle 1 is made of abrasion-resistant and corrosion-resistant material in the region of the upper part 2 of the annular gap and the lower part 3 of the annular gap, the material being ceramic or plastic or special steel or a material of the same properties. The mixing water supply 10, e.g. from the flue gas desulfurization plant, is arranged tangentially on the water chamber 5. The rotation of the flow in the water chamber thus caused contributes to reducing the risk of blockage. Advantageously, the surfaces of the water chamber 5 which are in the water chamber 5 are at least 5 mm

They are provided with a corrosion-resistant coating consisting of a lower nickel layer and an upper hard chrome layer.

The function is as follows:

The free-flowing bulk material, eg fly ash from the power filter, is discharged from the funnel-shaped container through the bulk material downcomer 6 into the water void emerging from the annular nozzle 1 and wetted uniformly. In this case, the admixed water, for example water from the desulfurization apparatus containing the granular admixtures, is fed into the free-flowing bulk material via the recesses 4 and the projections 14 of the annular gap surface 7 distributed over the entire circumference. The size of the annular gap of the annular nozzle 1 can be increased or decreased by inwardly sloping the lower portion 3 of the annular gap, and the actuating rod 15 mounted outside on the lower portion 13 of the downcomer 6 for bulk material. The upper part 2 of the annular gap remains stationary. This results in an enlargement or reduction of the annular gap of the annular nozzle 1. A certain size of the annular gap of the annular nozzle 1 is necessary to pass through the required amount of admixed water. The solids entrained by the admixed water pass through the recess 4 without problems. By adjusting the size of the annular gap of the annular nozzle 1 as required, they do not settle. The wetting of the free-flowing bulk materials is carried out with a pre-selected amount of water and runs continuously without failure. Expensive cleaning work is no longer required for releasing the annular nozzle 1 since it is no longer clogged.

PATENT CLAIMS

Claims (9)

1. Apparatus for wetting free-flowing bulk materials, in particular fly ash from power generating filters, with a downcomer for bulk material, with an annular nozzle for admixed water consisting of an upper part of an annular gap and a lower part of an annular gap, with a water chamber surrounding a material provided with an inlet and with a subsequent elastic mixing path leading to a transfer point, characterized in that the upper part (2) of the annular gap and the lower part (3) of the annular gap have variable spacing in the region of the annular surface (7) the slots are formed through a recess (4) locally enlarging the flow area, and the water chamber (5) that surrounds the downcomer (6) for bulk material in the region of the annular nozzle (1) has an outer shell consisting of two separate parts (8, 9), wherein the two parts (8, 9) in The outer casing is displaceable relative to one another in the axial direction of the downcomer (6) for bulk material and is guided in a sealed manner, and the upper part (8) of the outer casing is connected to the upper part (2) of the annular gap and the lower part (9). is connected to the lower part (3) of the annular gap. Device according to claim 1, characterized in that the upper part (2) of the annular gap of the annular nozzle (1) is fixedly connected to the upper part (8) of the outer casing of the water chamber (5) and the lower part (3) (1) is rigidly connected to the lower part (9) of the outer shell. Device according to claims 1 and 2, characterized in that the outer shell parts (8, 9) are movable relative to each other by a thread (11). Device according to claims 1 to 3, characterized in that the recesses (4) have the same shape and are evenly distributed around the periphery of the surface (7) of the annular gap. -3 CZ 294669 B6 Device according to Claims 1 to 4, characterized in that the annular gap surface (7) of the annular nozzle (1) is made of abrasion-resistant and corrosion-resistant material in the region of the annular gap upper portion (2) and the annular gap lower portion (3). 6. The apparatus of claim 5, wherein the abrasion-resistant and corrosion-resistant material is ceramic, plastic or special steel. Device according to claim 6, characterized in that the supply (10) to the water chamber (5) is arranged tangentially. Device according to one of Claims 1 to 7, characterized in that the surfaces of the water chamber (5) and the downcomer (6) for the bulk material coming into contact with water are provided with a corrosion-resistant coating. Device according to claim 8, characterized in that the corrosion-resistant coating consists of a bottom layer of nickel and a top layer of hard chrome.