DE3421932A1 - METHOD FOR SEPARATING FINE CARBON PARTICLES FROM THE OUTLET - Google Patents

Description

Noon in US Pat. No. 3,043,426 describes a clarification treatment of black water using a flotation cell. Noon states that the purpose of the conditioning agent is to ensure that each Particles of coal with the reagent, which is usually a small amount of oil, such as kerosene, and comes into contact with the foaming material, such as methyl isobutyl carbinol or other suitable conventional agents, to achieve the results as indicated in column 3, lines 3 to 8.

Chen et al in Mineral Matters, March 1983, describe a method of recovering fine coal using of oil agglomeration at elevated oil and water temperatures.

Capes et al in U.S. Patent 4,033,729 describe a process for separating inorganic material from Coal, using a light hydrocarbon liquid and mixing with an aqueous agglomeration liquid.

Capes et al in U.S. Patent 3,665,066 describe the enrichment of coal to produce a clump Carbon products made from carbon fines, being a caking liquid (Bridging liquid) mixed with carbon fines and the mixture formed in one aqueous medium is moved in order to cause the agglomeration of the coal particles.

Leonard describes in Coal Preparation, 1979, pages 10-106 and 10-107 that with small amounts of oil (2% or less, based on the weight of the coal) and turbulent agitation, a flocculated carbon product is formed that swims or floats on the surface.

According to the invention a method for the separation of fine coal particles of waste or waste in one, Q coal waste or coal waste mixture provided, which includes the following stages:

a) Mixing water and oil liquids with one

Coal-waste solids feed mixture in an oil to solids weight ratio of 0.5: 100

up to 2: 100 under strong shear motion or shear agitation conditions, with the formation of a flaky mixture,
wherein the coal-waste mixture is fine particles of coal

and contains fine waste particles, the fine 20

Coal and waste particles are less than 1,41 mm (14 mesh) in size; the flaky mixture being flakes of oil and fine coal particles and not flocculated

Contains waste in water, with the flakes of 25

Oil and fine coal particles make up a substantial portion of the fine coal particles from the coal feed mixture contain,

b) Floating the flakes of oil and coal from the 30th

flaky mixture in a flotation unit to separate the flaky mixture into a floating or floating made flake Product of pure coal and oil and waste,

the product of pure coal and oil being the flakes 35

comprised of oil and fine coal particles in water,

c) separating the flakes of oil and fine coal particles from the water to form a fine coal and Oil product.

δ A coal processing plant consists of a series of processing stages for the separation of coal from waste or waste in a mixture of coal and waste or exit from the coal mine. Such systems often use one or more coal setting devices or pre-classifying sieves to separate heavy media, sieves and foam or frat flotation units.

Waste or disposal means here essentially an inorganic mixture of solids, which are separated by solids separation devices, such as foam flotation units, are separated from coal. Contains waste or disposal often slate or coal slate and / or clay.

The kerosene used here means a hydrocarbon liquid with a boiling range from 180 to 300 ^° C. Kerosene with a specific weight of approximately 0.8 is preferably used and is derived from petroleum or petroleum. The preferred kerosene used in the present invention may have a substantial aliphatic fraction.

A strong heavy movement or a strong shear stirring or strong shear mixing, which is used here, means mixing in a vessel in which the surface of the stirrer blade is essentially perpendicular to their direction of movement is, preferably lies the speed of the end of the stirrer blade or the stirrer tip with strong shear movement at 335 m per min (1100 feet per minute). The solids and the liquid will have a substantially horizontal component in the direction of flow that results from the strong shear movement or the strong shear stirring.

Flakes of coal and oil formed by the high shear agitation and mixing are likely to be particles of coal that adhere to one another with the inclusion of air by means of oil. The effective or effective specific gravity of the flakes varies from 0.3 to 0.98 and depends on the level of residue in black water or black water pond solids, the particle size of the coal, the entrained air and other factors.
10

The flakes of coal, oil, and water are more easily dehydrated than non-flaked coal because of the decrease of the fine particles of coal and since the oil reduces the adhesion between the water and the particles of coal. 15th

In the following the invention with reference to the accompanying figure, which is a schematic representation of the invention Procedure is explained in more detail. Water is made in line 1 along with oil, such as kerosene fed from line 2 to line 3, which leads to mixer 4, which is an emulsifying device can act. The mixer 4 is stirred by the stirrer. The stirring action of the mixer 4 forms a good mixed or emulsified mixture of oil and water. The emulsified mixture of oil and water leaves the Mixer 4 through line 6. The coal slurry in line 7 is added to the emulsified mixture in line 6. The source or the starting material a black water pond can be used for the slurry in line 7 be. The mixture of coal, oil and water in the line 8 is in the stirrer 9 with high shear force introduced. The high-shear stirrer 9 is mixed by the mixer 10. Flakes of coal and oil are formed in the stirrer 9 with high shear force. A slurry of flakes, waste, or tailings and water leaves the high shear stirrer 9 through line 11. Line 11 is with the flotation device 12 connected. The flotation device

₆ - * 3421332

12 can be a foam flotation cell. Alternatively, the flakes can be separated from the waste or Finish with a flotation with or without gentle stirring. A portion of the mixture that passes through line 11 flows, can be passed through line 19 and sieved through a sieve 13. This step is optional. The solids obtained from the sieve 13 are passed through the line 14 into the line 15, which leads to a mechanical drying device 16 which is, for example, a filter can act. The liquid can be recycled from the sieve 13 through line 20. Pure resp. cleaned coal is taken from the mechanical drying unit 16, which may be a filter, through the conduit 17 won. The filtrate from the filter 16 passes through line 18 to the high shear stirrer 9. The liquid from the sieve 13 is returned to the line 11. The waste or disposal leaves the Flotation device through line 21.

The following table shows results using the present invention. Blackwater pond solids been taken from four different mine locations. The percentage recovery of coal on a moisture- and ash-free basis is more than 93 to 98% by weight. The blackwater pond solids from each location are mixed with kerosene. The proportion of kerosene to the Solids is 0.5: 100 to 2: 100.

A flaky mixture is formed by mixing in the high shear mixing vessel.

The flaky mixture is passed through a foam flotation cell.

The flaky mixture comprises flakes of oil and fine coal particles suspended in water with non-flocculated waste or waste.

·· * ^: 3421S32

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1 The flakes of fine coal and oil are removed from the foam or flotation cell.

The ratio of solids to liquid feed to the mixing vessel is approximately 1: 5 to 1: 1. Preferably this ratio is 1: 1.5 to 1: 3.

The fine coal particles of the pond solids can be less than 1,41 mm (14 mesh). This procedure is also effective for separating coal up to 0.074 mm or smaller (-200 mesh) and waste, conventional methods are not suitable for such fine batches.

The bulk density of the foam or floated material of 2% kerosene produced in accordance with the invention is about 0.8009 g / cm ³ (about 50 lbs / ft ³ ).

to

Oil

to O

σι

Tabel

Source material feed
% to 0.37 mm
(-400 mesh) Wt% ash Agglomeration with
Wt% ash
Product waste 83-86 2)
little oil
MAF
Extraction3) Product ..
humidity Jenkinjones 64 21 6-9 90-92 96-98 25-28 Mathies 47 37 8th 89-91 > 93 24-26 Arkwright 46 28 6-7 83-86 > 94 24-27 ^: .. ·. Blacksville 35 28 5-6 > 95 24-25 - ^^ "

Blackwater pond solids

Kerosene at 1-2% by weight of the charge

MAF recovery =% recovery free of moisture and ash

⁴ ^ 0.051 m ² (0.55 ft ² tray of neck 40 χ 60 mesh stainless steel filter screen

Annotation; All wt% ash is on a dry basis

GO -P - NJ

CO CO

^ "' ^: 3421S32

In the high-shear stirrer 9, oil and coal particles are mixed and it is believed that s.ie form agglomerates or flakes of coal that are either partially or completely coated with oil. The oil on the surface of the coal particles adheres to form agglomerates or flakes of coal and oil particles. These agglomerates or flakes are of an effective size that is suitable for feeding the foam. Flotation cell is sufficient. In the foam or flotation cell, small air bubbles adhere to the, and are included in the, oil-coal agglomerates or Flakes, effectively reducing their density, allowing them to come to the surface more quickly swim in the flotation or foam cell.

15th

The invention has been described above on the basis of preferred embodiments described. It should be understood that this is not intended to be a limitation.

20 25 30 35

Claims (14)

GRÜNECKER, KINKELDEY, STÖCKMAtfV &; PARTiNER. PATENT LAWYERS EUROPEAN PATENT ATTOWNEVS A. GRÜNeCKER. o «.-. ng DR. H. KINKELDEY. opl ■ "■ DR. W. STOCKMAIR. DR. K. SCHUMANN, wpl phys P. H. JAKOB, dipl.no DR. G. BEZOLD, dibl-chem W. MASTER. D1PUIM3 H. HILGERS. oiPLiNa DR. H. MEYER-PLATH. »Pl *« COHOCO INC. High. Ridge Park Stamford, Connecticut eoooMunich22 MAXIMILIANSTRASSE 58 United States P 18 731 Process for separating fine particles of coal of departure Claims l.jProcess for the separation of fine coal particles from Disposal or waste in a coal waste or waste mixture, characterized by the following stages; a) Mixing water and oil liquids with a coal-waste solids feed mixture in an oil to solids weight ratio from 0.5: 100 to 2: 100 under agitation or stirring conditions under high shear force, to form a flaky mixture, wherein the coal-waste feed mixture contains fine coal particles and fine waste particles, the fine coal and waste particles being less than 1.41 mm in size
(14 mesh), ¹ and the flaky mixture flakes of oil and fine particles of coal and non-flocculated waste in water, wherein the flakes of oil and fine coal particles make up a substantial proportion of the fine coal particles Contained from the coal waste or waste feed mixture, b) Floating the flakes of oil and coal from the flaky mixture in a flotation device to separate the flaky mixture into a floating or floating flaky product of pure coal and oil, and waste or waste,
15th the product of pure coal and oil being the flakes of oil and fine coal particles in water contains, c) separating the flakes of oil and fine coal particles from a substantial portion of the water to form a product of fine, low moisture coal and oil. 2. The method according to claim 1, characterized in that the contact in step b) in the absence a foam-forming material or flotation material is carried out. 3. The method according to claim 2 or 1, characterized in that at least part of the flaky Mixture to form a sieved mixture of pure coal and flakes of coal and oil in Water is sifted and then the flakes out of the water to form some of the fine carbon product be separated. 4. The method according to claim 1, 2 or 3, characterized in that that in the separation stage c) comprises a sieving treatment. 5. The method according to claim 1 or one of claims 2 to 4, characterized in that the moving with high shear force at a speed of the stirrer end or the stirrer tip of about 335 meters per minute (about 1100 feet per minute) ¹⁰ will. 6. The method according to claim 1 or one of claims 2 to 5, characterized in that the product from fine coal and oil more than 90% by weight on a moisture-free and ash-free basis of the fine Contains coal particles of the coal feed mixture. 7. The method according to claim 1 or one of claims 2 to 6, characterized in that the oil in the ²⁰ kerosene is water-oil emulsion. 8. The method according to claim 1 or one of claims 2 to 7, characterized in that the departure or the waste slate or coal slate or clay ²⁵ or alumina. 9. The method according to claim 1 or one of claims 2 to 8, characterized in that the coal Abgangbzw. -Waste mixture is fed from a black water pond before mixing in stage a). 10. The method according to claim 1 or one of claims 2 to 9, characterized in that a substantially Proportion of the coal waste or waste mixture black water pond solids contains. 11. The method according to claim 1 or one of the claims to 10, characterized in that the flotation is the contact of the flaky mixture with fine Bubbles in a froth flotation unit without the presence of any frothing agent. 12. The method according to claim 1 or one of claims to 11, characterized in that the ratio from coal waste or solid waste to water and oil-liquids is 1: 1 to 1: 5. 13. The method according to claim 1 or one of claims to 12, characterized in that the water and oil liquids to form a water-oil emulsion are emulsified and the emulsion to the coal waste or solid waste mixture before Mixing in stage a) is added, 14. The method according to claim 1 or one of claims to 13, characterized in that the fine Coal particles are less than 0.149 mm (less than 100 mesh) in size.