DE3514931A1 - DEVICE AND METHOD FOR FEEDING SLUDGE - Google Patents

Abstract

1. Device for the feeding of slurry into a treatment space with the aid of a central feed pipe (2), which is connected with a pump and which displays an exit part (3) and a middle portion (4) therebetween, the wall of which is penetrated by bores (5) and surrounded by an annular chamber (6) for the supply of a dispersing medium, wherein a further supply of dispersing medium is provided in the region of the connection of the exit part (3) with the middle portion (4), characterized thereby, that the bores (5) are arranged radially or obliquely to the direction of flow of the slurry and that the further supply of dispersing medium consists of nozzle bores (8, 17, 19) one separate from the other.

Description

35H931

Device and method for feeding sludge

The invention relates to a device and a method for feeding in sludge with the features of the preamble of claims 1 and 5.

A device of this type, which is used, among other things, to atomize pastes, is disclosed in DE-PS 20 05 972 known. In this device, the atomizing medium is blown tangentially into the centrally guided paste. As a result, the paste is set in rotation and takes a hose-shaped one by placing it on the pipe wall Flow profile, in the interior of which the atomizing medium penetrates. In this way an even and fine atomization of the paste is achieved.

In the context of the present invention, a sludge-shaped Medium not atomized but evenly over a larger cross-sectional area in a treatment room be fed in. When burning flotation sludge from coal processing in a fluidized bed furnace it is known (VDI reports No. 322, 1978, pages 7 to 12) to use the mechanically dewatered sludge Mixing ash or dust from the fluidized bed furnace and introducing it into the fluidized bed furnace via centrifuges.

The invention is based on the object of distributing the sludge directly into the treatment room to be introduced over the length of the room. This task is in the generic device or in a generic method according to the invention by the characterizing Features of claims 1 and 5 solved. Advantageous embodiments of the invention are in the sub-claims specified.

In the case of the invention, there is no need for intermediate storage or admixture of dry dust. The sludge is dispersed by the dividing medium, forming a protective veil inside the guide tube carried out. Then the sludge flow is through The further supply of dividing medium is broken up and the Schlamitj is thus distributed over a larger area. The outlet opening can be kept so large that there is no risk of clogging the flow paths consists.

Several embodiments of the invention are shown in the drawing and will be described in more detail below explained. Show it:

1 to 3 several embodiments according to the invention and

FIG. 4 the section IV - IV according to FIG. 3.

A nozzle with a flange is used to feed sludge into a treatment room (not shown) is provided. Via this flange 1, the nozzle is connected to a delivery line, through which with the help of a Pump the sludge is conveyed. The nozzle shown in Fig. 1 has a feed pipe 2 and an outlet part 3, between which a middle section 4 is located. The middle section 4 has a smaller one Cross section than the feed pipe 2. To adapt to the cross section of the middle section 4 is that Feed pipe 2 retracted.

In the middle section 4 bores 5 are provided which penetrate the wall of the nozzle radially or obliquely radially. The middle section 4 is of a ring

35H931

Chamber 6 surrounded, which is provided with a connection 7 for the supply of a dividing medium. The dividing medium is steam or compressed air. From the annular chamber 6 or the bores 5 nozzle bores 8 go out, which in attached to the wall of the conical outlet part 3 and end in the plane of the outlet opening 9. The nozzle bores 8 are at an angle to Forward direction of the sludge flow.

The nozzle shown in Fig. 2 is installed at an angle. In this nozzle, the outlet part 3 is cylindrical formed and consists of two concentric pipe jackets 10. The pipe jackets 10 are at one End connected by a face plate 11 and welded at the other end to the middle section 4 in such a way that that the space between the pipe jackets 10 is connected to the annular space 6. In the wall of the inside Pipe jacket 10 and in the end plate 11 closing the gap are radially aligned Nozzles 12 are provided.

In the embodiment shown in Fig. 3, the nozzle is surrounded by two separate annular chambers 6, 13, to which different dividing media are fed.

Water is supplied to the rear annular chamber 6 and air or steam to the front annular chamber 13. This nozzle has, like the nozzle according to FIG. 1, a feed pipe 2, a middle section 4 and an adjoining, conically narrowing section 14. Within the middle section 4 holes 5 are provided which are in communication with the rear annular chamber 6. The narrowing section 14 is followed by a widening one Section 15. The narrowest cross section 16 between the sections 14, 15 is non-circular and consists of a Rectangle, on the narrow sides of which there are semicircles,

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A first row of nozzles 17 is provided in the narrowest cross section 16. In the expanding section 15 pressure-relieved zones 18 are formed, in which a second row of nozzles 19 is arranged. The nozzles 17, 19 of the first and the second row are oriented obliquely radially and stand with the front annular chamber 13 in connection. An additional line 20 for the supply of compressed air can protrude into the narrowest cross section 16.

With the help of a pump, flotation sludge is fed through the delivery line conveyed from a coal processing plant into the feed pipe 2 of the nozzle. Through the within of the middle section 4 existing holes 5, the dividing medium is blown in so that the sludge flow is covered by a protective veil. This protective veil supports the conveyance of the sludge and protects the wall of the nozzle from erosion. The so treated sludge stream is in the FIGS. 1 and 3 embodiment shown narrowed in cross section. Then the sludge flow is through the from the Nozzle bores 8 or the nozzles 17, 19 exiting distribution medium smashed and then in the treatment room, for example in the combustion chamber of a fluidized bed furnace Introduced distributed over a larger cross section.

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Claims (5)

35H931 PATENT CLAIMS: 1. Device for feeding sludge into a treatment room with the aid of a t with a pump connected central supply pipe (2), which has a central section close to the outlet end (4), the wall of which is penetrated by bores (5) and by an annular chamber (6) for the supply a dividing medium is surrounded, with a further following the middle section (4) Supply of dividing medium is provided, characterized in that the bores (5) are arranged radially or obliquely radially to the direction of flow of the sludge and that for the supply of the further dividing medium, separate nozzle bores (8, 17, 19) are provided. 2. Apparatus according to claim 1, characterized in that upstream to the with Bores (5) provided central section (4) is connected to a narrowing outlet part (3). 3. Device according to claims 1 and 2, characterized in that the middle with Bores (5) provided section (4) has a smaller cross section than the feed pipe (2). 4. Apparatus according to claim 1, characterized in that upstream of the with Bores (5) provided middle section (4) a narrowing and a widening thereon Section (14, 15) connect that the widening section (15) has a non-circular cross-section and that in the narrowest cross-section between the Sections (14, 15) a first row and in the pressure-relieved zones (18) within the itself widening section (15) a second row of obliquely radially aligned nozzles (17, 19) is provided are. 5. Method of feeding sludge through a feed pipe under pump pressure into a treatment room, in which a liquid or gaseous medium is introduced into the supply pipe through bores, and then a gaseous medium is blown into the stream of sludge, characterized in that the sludge flow through the first introduced medium is enveloped and then torn apart by individual rays.