This application claims the benefit of International Application Number PCT/SE02/00303, which was published in English on Aug. 29, 2002.
The present invention relates generally to a method and an apparatus for treatment of sludge and more particularly a method and an apparatus for treatment of sludge having particles comprising metal, metal oxide or metal hydroxide-intermixed therein.
Sludge or slurry having waste materials intermixed therein poses a problem in today's industry. In the metallurgical industry, there is no suitable way of treating sludge from coke plants, blast furnaces, converters and rolling mills, for example oil-contamined scales and hydroxides from pickling. In most cases, these materials are deposited in some intermediate storage or taken to a landfill. Another area in which the problem of recovering materials is present is the petrochemical industry, wherein a waste product in the form of sludge is created.
The pressure from both public authorities and customers to find new solutions is constantly increasing. The earlier solution of land-filling is no longer a feasible solution and is in many countries illegal. Existing techniques for conversion and recovery are costly.
From an economic and environmental point of view, recovery is often a preferred solution to the above-mentioned problem of taking care of the waste material. However, recovery often means some kind of external processing, resulting in transportation to plants and processes lying beside the normal chain of processes.
A known solution to these problems is pelletization or briquetting of the waste material for subsequent feeding to a furnace. However, this solution is accompanied with the problem of extra costs for a separate plant for drying and subsequent pelletization of the waste material.
The patent document DE 24 60 799 discloses a method of burning oil containing metal particles. The object of the disclosed method is the destruction of the oil while avoiding unwanted exhaust particles. The burning relies solely on the energy supplied by the oil itself.
The patent document DE 42 41 283 discloses a process of gasification wherein particles are recovered. No separate fuel supply is provided.
An object of the present invention is to provide an improved method and apparatus for treatment of sludge and more particularly a method and an apparatus for treatment of sludge having particles comprising metal, metal oxide or metal hydroxide intermixed therein wherein the above-mentioned drawbacks with known techniques are avoided or at least mitigated.
The invention is based on the realisation that the wet material can be fed directly to the flame of a burner wherein vaporisation is effected and metal-containing particles are melted.
According to a first aspect of the present invention there is provided a method for treatment of sludge as defined in claim 1.
According to a second aspect of the present invention there is provided an apparatus for treatment of sludge as defined in claim 8.
With the method and the apparatus according to the invention, the problems of prior art are overcome or at least mitigated. Instead of requiring a separate drying step, the wet material is treated directly in a furnace, saving costs for extra equipment and also resulting in a shorter treatment time.
The invention is now described, by way of example, with reference to the accompanying drawings, in which:
In the following, a detailed description of the method and the apparatus according to the invention will be given. In the following description the term sludge is used for the material supplied to the apparatus. However, it will be appreciated that this term includes other materials, such as slurry, slime, or mud comprising carbon containing particles, including coke, char etc., and oil residue, waste from the crude oil production, refineries, and petrochemical industries, sewage sludge etc. Also, in the preferred embodiment the metal content of the sludge is at least 5%, more preferably at least 20%, and most preferably at least 50%.
Starting with
Sludge is supplied to the burner through a third feeding line 23. The third feeding line 23 is connected to a feeder, generally designated 40. The feeder 40 comprises a container 42, into which the wet starting material in the form of sludge is fed. The sludge is directed from the container 42 to an arrangement comprising a feeding pump 45 driven by a motor 46. By means of the feeding pump 45, the sludge is moved to the burner 20 at a rate determined by the speed of the feeding pump.
The burner 20 is also supplied with a suitable medium for atomising the sludge, such as oxygen or another gas etc. This atomising medium is supplied to the burner from a source (not shown) through the input 25.
In the exemplary plant shown in
A first embodiment of the burner 20 will be described in more detail below with reference to
The burner 20 comprises a main portion 24, to which the supply lines 21-23 and 25 shown in
In the pipe 23 for the sludge, there is provided an atomising arrangement, designated 26. This functions in the following way. The atomising medium, such as oxygen, is input to the burner at 25 through a number of pipes. These pipes end in the central pipe 23 for the sludge and connect thereto in an angle thereto, thereby atomising or dividing the sludge leaving the pipe 23.
As already mentioned, the burner 20 is mounted in the side-wall of the furnace 30. In the preferred embodiment, the burner can be tilted, i.e., can be positioned in different angles relative to the horizontal and the vertical. The different orientations can be used for obtaining desired characteristics for the burning process.
In the following, the method for treatment of sludge will be described in detail.
Initially, sludge is supplied to the container 42 of the feeder 40. The sludge is of the above mentioned character, i.e., it has a liquid part and metal-containing particles intermixed in that liquid part. The metal-containing particles comprise metal, metal oxide or metal hydroxide.
The sludge is transferred from the container and into the feeding pump 45, wherein it is transported to the burner 20 by means of the pump 45. The rate by which the sludge is fed to the burner is determined by the speed of the feeding pump 45.
The operation of the oxy-fuel burner 20 is controlled by means of the amount of fuel and oxygen supplied through the first and second supply lines 21 and 22, respectively. The supply lines are connected to sources of fuel and oxygen (not shown), as is conventional. A source of atomising medium is also connected to the burner through input 25.
The operation of the burner 20 will now be described in detail with reference to
Fuel is supplied in the feeding pipes 21a-f, see
As is seen from
The wet part of the sludge is vaporised by the high temperature of the flame, resulting in exhausts rising through the furnace 30 and subsequently leaving through the exhaust outlet 34. The created agglomerates and droplets fall to the bottom of the furnace 30, wherein they are added to the charge 36. The charge is subsequently used in liquid or solid phase as it is. Alternatively the charge is returned to a process.
A preferred embodiment of the method and the apparatus according to the invention has been described. The person skilled in the art realises that this can be varied within the scope of the appended claims. Thus, although an oxy-fuel burner 20 has been shown, other conventional burners can be used, such as plasma burners or in some cases air-fuel burners having a high thermal efficiency.
Furthermore, a separate furnace unit 30 has been shown. The method according to the invention is equally applicable to other kinds of furnaces, such as electric arc furnaces, induction furnaces, reverberatory furnaces, electrically heated furnaces, blast furnaces, cupola furnaces, and converters etc.
Also, in the described embodiment, the burner is positioned in a side-wall of a furnace. However, it is realised that other suitable positions are possible, such as in the upper part of the furnace. Also, a configuration with more than one burner is possible. It is then possible to inject the atomised sludge between three burner flames, for example.
In the described embodiment, the sludge is fed to the furnace by means of a feeding pump. However, the sludge supplied to the furnace could also be free-flowing etc.
A specific burner configuration has been shown. It is also appreciated that any suitable burner configuration having different number of pipes etc can be used.
A separate input for atomising medium has been described. It is realised that the same oxygen source can be used for both the atomising medium and the burner feed.
Number | Date | Country | Kind |
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0100597 | Feb 2001 | SE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/SE02/00303 | 2/21/2002 | WO | 00 | 1/26/2004 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO02/06689 | 8/29/2002 | WO | A |
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4329170 | Schummer et al. | May 1982 | A |
5129333 | Frederick et al. | Jul 1992 | A |
5217362 | Thompson et al. | Jun 1993 | A |
5405537 | Goff et al. | Apr 1995 | A |
5843204 | Ishikawa et al. | Dec 1998 | A |
6155182 | Tsangaris et al. | Dec 2000 | A |
6200428 | VanKouwenberg | Mar 2001 | B1 |
Number | Date | Country |
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2460799 | Jun 1976 | DE |
4241283 | Jun 1994 | DE |
4401563 | Feb 1995 | DE |
19947343 | Apr 2001 | DE |
Number | Date | Country | |
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20040112264 A1 | Jun 2004 | US |