NL1016972C2 - Screening method for separating fine particles, especially fly ash, using screen with bed of fine particles on top - Google Patents

Abstract

The pressure beneath the screen is lower than the pressure above the screen and a bed of fine particles (FI) is formed on top of the screen. The fine particle fraction (FF) is filtered through the fine particle bed and the screen. The screening method is used to separate fine particles into fine and coarse fractions. The particles are passed through a screen which is moving backwards and forwards in at least one direction. The coarse fraction (FC) is removed via the screen periphery, whilst the fine fraction is filtered through the screen. Independent claims are also included for (a) a tumbling screen device (10) used to carry out this method, containing a screen with an effective edge which is higher than the centre of the screen, and (b) the screen used in this device, which is substantially flat and round which has a raised, reinforced peripheral edge.

Description

Method and tumble screening machine for separating fine particles "

The invention relates to a method for separating fine particles, in particular pulverized coal fly ash, into a relatively fine and a relatively coarse fraction, wherein the fine particles are deposited on a screen, the screen back and forth in at least one direction. is moved, the relatively coarse fraction is discharged over the extreme edge of the screen and the relatively fine fraction is filtered through the screen.

Large quantities of powdered coal fly ash are released during the production of electricity, in particular through the burning of coal. All or almost all of the powdered coal fly ash released is nowadays used as a building material, especially in the cement industry and the concrete mortar and concrete goods industry. However, many of the 15 existing coal-fired power stations, which naturally produce high-quality fly ash, are modified in the interest of the environment by including so-called LowNOX burners. Such burners operate at lower firing temperatures, as a result of which the ash contains more coarse particles and a higher content of non-burnt carbon particles, the so-called Loss on Ignition (LOI). Because strict standards such as the Dutch / European standard EN 450, the Dutch product guideline BRL 2505, the British standard BS 3892 and the American standard ASTM C618-94 must be met in order to be able to use the fly ash as a building material, methods must be used are sought to upgrade powdered coal fly ash to a better quality.

The invention has for its object to provide such a method and for this purpose it is characterized in that a pressure prevails below the screen that is lower than the pressure above the screen, that a bed of the fine particles is formed on the screen and the relatively fine fraction is formed by this bed and the strainer filters.

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It has been found that due to the presence of the bed on the screen, an effective separation of the fine particles can be obtained, which moreover can be carried out at a high capacity. With the method according to the invention it is, for example, possible in principle, even when a relatively wide-meshed screen is used, to reduce the particle size distribution of the fine particles, such as pulverized fly ash, to a distribution (in the fine fraction) in which 65% of the particles are smaller than or equal to 45 μιη and simultaneously reduce the Loss on Ignition to a value that is lower than or equal to 5%.

It is preferable that the pressure difference across the screen and bed is greater than 3 millibars, since fluidization may occur at lower values, and is less than 10 15 mbar, preferably between 5 and 10 mbar, to prevent the bed from being becomes closed and the pressure drop across the bed and screen becomes too high. In the latter case, the screen may crack or otherwise be damaged.

The invention furthermore relates to a rocker screening machine comprising a housing, an inlet for the supply of (a stream of) fine particles, such as pulverized coal fly ash, a screen for separating the particles into a relatively fine and a relatively coarse fraction and an outlet for each of said fractions wherein the effective edge of the screen is as a whole higher than the center of the screen, so that, during use, with a pressure below the screen prevailing below the pressure above the screen, on the sieve a bed of the said fine particles can arise. It is preferred that the screen is substantially flat and is provided with an upstanding edge, which preferably extends around the entire circumference of the screen. The difference in height or the height of the edge is between 10 and 17 mm.

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The invention will be explained in more detail below with reference to the figures, in which an exemplary embodiment of the present invention is schematically shown, and also with reference to a number of experiments.

Figure 1 shows a device for separating fine particles, such as powdered coal fly ash, comprising a rocker screening machine according to the invention.

Figure 2 shows a section of the rocker screening machine according to Figure 1.

Figure 3 shows a detail of the screen in the rocker screen machine according to Figure 2.

Figure 1 shows a device 1 for separating fine particles, in particular pulverized coal fly ash, into a relatively fine and a relatively coarse fraction.

Initially, the pulverized coal fly ash is contained in a silo 2 which is connected by means of a feed hopper 3 to a rotatable lock 4. From this rotatable lock 4, the fine particles can be dumped via a first bellows 5 into a dosing funnel 6, which are deposited on it. turn turns into a rotatable dosing lock 7. The rotatable dosing lock is connected via a mass flow meter 8 to a second bellows 9 which opens onto the supply of a rocker screening machine 10, which will be discussed in more detail below.

By means of this tumble sieve machine 10 the supplied fine particles (FI) are separated into a relatively fine fraction (FF) and a relatively coarse fraction (FC). The fine fraction, which is intended as building material, is discharged via a first discharge channel 11 which is connected via a bellows 12 to a rotatable lock 13, which in turn flows into a mass flow meter 14. The coarse fraction is discharged via a second discharge channel 15 which is also connected by means of a bellows 16 to a rotatable lock 17. The coarse fraction is, for example, returned to 4 a silo and subsequently incinerated or dumped in a landfill.

A control unit 18 detects by means of two sensors LL and HL when the lowest or highest permissible level of fine particles in the dosing funnel 6 is reached and controls the rotatable lock 4 on the basis of this data in order to control the level of the fine particles in the dosing funnel 6. The control unit 18 furthermore measures the mass flow through the mass flow meters 8 and 14 and controls the rotatable dosing lock 7 on the basis of the data thus obtained. The control unit 18 also measures the pressure difference across the feed 9 and the drain 12 for the relatively fine fraction. This pressure difference can be adjusted by controlling the rotatable lock 13 in the discharge channel 11. A separate pump or the like can of course also be used for this.

The rocker screening machine shown in Figure 2 comprises a housing 20 consisting essentially of a, preferably circular, cylindrical body 20A which is bounded at the bottom by a round bottom 20B and bounded at the top by a conical portion 20C which terminates in a round feed opening which is connected to the bellows 9. The housing 20 is subdivided into two spaces by a round screen deck 21. Above this screen deck 21 there is a discharge opening for the coarse fraction, the underside of which at least approximately coincides with the top side of the screen deck 21 Below the screen deck 21 there is a discharge opening for the fine fraction which is filtered through the screen deck 21.

Furthermore, an ultrasonic unit 22 is placed directly below the screen deck 21 with which the meshes in the screen deck 21 can be cleaned and kept free during stop / start cycles. Beneath the housing 20 are drive means with which the screen deck 21 moves back and forth in different radial, tangential directions composed of these components. 5 and / or can be brought into a tilting vibration. A combined radial and tangential movement is preferred.

The machine can optionally be provided with a second and further screen (not shown) which is resp. and with which the particles filtered through this first screen can be separated into further fractions. It is also possible to cascade two or more rocker screening machines.

Tumbler sieving machines are known per se and are offered, for example, by the company Allgaier in the brochure "Taumelsiebmaschinen" dated April 1998. For more details and possible variations of the tumbler described above, reference is made to this brochure.

Arranged on the screen deck 21 according to this example is an upright rubber edge 23, which preferably has a height between 10 and 17 mm. In the example shown in Figure 3, the edge 23 has a trapezoidal cross-section and a height of 15 mm. The edge 23 is arranged along the entire circumference of the screen deck 21. The screen deck 21 is made of a fabric of stainless steel wires and the meshes have a width of, for example, 40, 60, 63, 70, 80, 90, 100, 106 or 120 μπι.

During operation, a bed 24 of 25 fine particles is formed on the screen, which contributes to the separation of those same particles into a relatively fine and a relatively coarse fraction. The degree of separation can be adapted to a specific fly ash by changing the average residence time ΔΤ of the particles on the screen, the height AL and / or the degree of compaction of the bed 24. These quantities can in particular be influenced and adjusted by changing the height of the edge 23, the supply of fine particles, the pressure difference across and the movements of the screen.

With the tumbler 10 described above, 35 fly ash from three power plants was worked up: 6

Samples A1-A6 from the Netherlands, which, in order to be used in concrete, had to comply with European Standard EN450 after reprocessing. According to this standard, a maximum of 35% of the particles may be larger than 45 μιτι and the proportion of 5 de Loss on Ignition (LOI) may not exceed 5%.

Samples B1-B5 and C1-C5 from Ireland and China, respectively, which, in order to be added to Portland cement, had to comply with British Standard BS 3892 after reprocessing. According to this standard, a maximum of 12% of the particles 10 may be greater than 45 μιη and the share of the Loss on Ignition may not exceed 7%.

In the Table below the successive flow rate is the sample number, the mesh size (Screen of Scr. In μιη), the method with which the screen is cleaned (Cleaning or Cl .; ultrasonic (UltS) or with rubber balls trapped under the screen) (FI in tonnes / h), the product flow (FF in tonnes / h and as a percentage of FI), the percentage of particles that are greater than 45 μιη and the LOI (always as a percentage of FI and FF).

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Table: Results reprocessing fly ash

Scr. Cl. FÏ FF FI FF FI FF

μιτι - t / h t / h | %%%%% ______max 35% __ LOI <5%

Already 90 UltS 1.5 1.4 91 15 I 13 5.3 5.Ö A2 90 UltS 2.0 1.6 83__15__9 5.3 4.7 A3 60 UltS 1.1 0.7__69__14__1 8.0 4.6 A4 60 UltS 0.9 0.7 73__14__2 8.0 4.7 A5 100 Ball 1.7 1.6 92__19 18 4.9 4.6 A6 100 Ball 1.7 1.6 92 19 15 4.9 4.3 max 12% LOI <7% BI I 90 Ball 2.3 1.9 I 82 - I 10 7.8 4.5 B2 90 UltS 2.2 1.8 84 - 9 6.8 4.2 B3 60 UltS 2.4 1.7__71 __: __ 5 7.3 4.9 B4 63 Ball __: __: __: __ 7.2 4.7 B5 106 Ball __-__: __: __ 7.5 5.3

Cl 1 90 UltS 2.3 I 1.9 1 82 17 7 4.9 | 3 Ö 7 C2 80 UltS 2TÏ Π 76 17 6 4.9 2.7 C3 70 UltS 2.0 1.3 68__17__5 4.9 2.8 C4 63 UltS 2.1 1.3__61__17 2 4.9 2.6 C5 63 UltS 1.6 1.1 | 69 17 4 4.9 | 2.5

The above results show that with the method and the device according to the present invention an effective separation is always obtained, also with a high capacity and use of a screen with a mesh size that is considerably larger than the diameter of most particles in the fine fraction. Moreover, this last observation shows that the bed of fine particles formed on the screen contributes significantly to the separation process. The products meet the respective standard and may be used as a building material.

It further appears that the invention allows the separation to be carried out in a relatively fine and a relatively coarse fraction simultaneously with the removal of the LOI. Moreover, the separation and reduction of the LOI can be adapted to new legislation and market demand. A reduction of the LOI to a value below 3% is possible.

The invention is of course not limited to the embodiments described above and can be varied in various ways within the scope of the claims. Thus, instead of a substantially flat screen with an upstanding edge, a screen of a slightly conical shape, the center of which is the lowest point, can be used.

101 69 7 pm

Claims (10)

Method for separating fine particles, in particular coal fly ash, into a relatively fine and a relatively coarse fraction, wherein the fine particles are deposited on a screen (21), the screen is reciprocated in at least one direction moved, the relatively coarse fraction is discharged over the extreme edge of the screen (21), while the relatively fine fraction filters through the screen (21), characterized in that there is a pressure below the screen (21) that is lower than the pressure above the screen (21), that a bed 10 (24) of the fine particles is formed on the screen (21) and the relatively fine fraction is filtered through this bed (24) and the screen (21). The method of claim 1, wherein the meshes in the screen (21) have a width between 30 and 130 μτη. 3. Method as claimed in claim 1 or 2, wherein at least the relatively fine fraction is subsequently dumped on a second screen, which preferably corresponds substantially to the first screen (21) and whose meshes have a smaller width than the meshes of this first sieve (21). A method according to any one of the preceding claims, wherein a pressure difference between 3 and 10 mbar prevails over the screen (21) and the bed (24). 5. A method according to any one of the preceding claims, wherein at least 65% of the particles in the relatively fine fraction are smaller than or equal to 45 μπι and the Loss on Ignition is smaller than or equal to 5%. 6. Tumble sieving machine (10) comprising a housing (20), an inlet for the supply of (a stream of) fine particles, such as coal fly ash, a sieve (21) for separating the particles into a relatively fine and a relatively coarse fraction and a drain (11, 15) for each of said fractions, wherein the screen (21) separates the inlet from the drain (11) for relatively fine particles, characterized in that the effective edge of the screen (21) is entirely higher than the center of the screen (21), so that, during use, with a pressure below the screen (21) being lower than the pressure above the screen (21), a pressure on the screen (21) 5 bed (24) of said fine particles can arise. A tumble screening machine (10) according to claim 6, wherein the screen (21) is substantially flat and is provided with an upstanding edge (23), which preferably extends around the entire circumference of the screen (21). Tumble sieve machine (10) according to claim 6 or 7, wherein the height difference or the height of the edge (24) is between 10 and 17 mm. 9. Tumbler sieving machine (10) according to one of claims 6-8, which is provided with means (P1, ΔΡ) for measuring the pressure difference over the sieve (21). A screen (21) apparently suitable for use in a rocker screen machine (10) according to any one of claims 6-9, wherein the screen (21) is substantially flat and round and of an upstanding edge (24) extending along the entire circumference of the screen (21). , n / * “>«