DE3225784A1 - Method of producing a coal slurry - Google Patents

Abstract

A high-concentration, but low-viscosity coal slurry has been produced by classifying powdered coal into two or more groups (1, 3) of different particle size ranges, mixing said two or more groups (1, 3) of coals having different particle size ranges in such proportions as to produce a proportion of cavities of 30% or less of the mixture, and adding a slurry-forming medium (2) to this coal mixture, thereby making a reduction in slurry transport costs possible. <IMAGE>

Description

Process for producing a pulp of coal

The invention relates to a method of making a Cloudy coal that is easy to transport.

Techniques for transporting powder in the form of a cloud were made long studied as a means of transporting solids in a fluid state, which is easy to use. Turbid transport is in the chemical industry is important and is currently used in various fields. However is it is necessary in the transport of turbidity, the turbidity of a solids concentration up to to about 50, at most 55% by weight, taking into account problems with wear of pipes, pumps and other system parts used and of the flow properties To use cloudy itself. Fig. 1 shows viscosities of pulp from coal in water, where the coal is based on particle sizes up to 62 / µm (250 mesh) was pulverized, depending on the concentration of the coal in the water, i.e. H.

the weight (g) of the coal in 100 ml of water. It is found that the viscosity of the slurry increases rapidly with an increase in the coal concentration. The maximum viscosity of a slurry that can practically be transported as a fluid is approximately 1 Pa.s. As Fig. 1 shows, this viscosity of 1 Pa.s corresponds to the pulp one Coal weight of about 90 g per 100 ml of water or a coal concentration of about 48% (w / w). It was a significant disadvantage of the haze transport that it had to be used Clouds contain large amounts of water or other clouding medium. This Disadvantage doesn't affect the transportation of small amounts of powder as much, however seriously the transportation of fuels, such as B. coal, in large quantities to a Time; for example, this increases fuel transport costs per unit heat value. In particular, there is a separation in the transportation of coal pulp in water the coal from the water, taking into account the combustion properties of the coal necessary. So it was a major problem to keep the coal concentration in a Increase cloudy.

I am a solution to the above problem in connection with the transport of turbidity fine coal provides to regulate the particle size distribution, as in the application PCT / US80 / 01419 (International Disclosure Report is. Number W081 / 01152, 30. 4. 1981) While the general, the "cumulative weight percentage ton particles under a certain dimension "representing, in this mentioned The formula given in the patent application was derived on the assumption that coal particles are spherical, the charcoal cannot actually be spherical. Consequently hits It is not always true that the coal has a particle size distribution that corresponds to the formula with the cumulative weight percentage, a pulp of high coal concentration is sufficient results.

Another method of regulating the particle size distribution of coal was disclosed in U.S. Patent 3,762,887. This patent specifies the particle size distribution very precisely as 0% by weight over 4.7 mm clear sieve mesh size (4 mesh Tyler standard sieve), 18 to 33% by weight below 0.043 mm clear mesh size, less than 60% by weight between 4.7 and 0.64 mm clear mesh size and the remainder in the particle size range from 0.64 to 0.043 mm clear mesh size.

Taking into account the awkwardness and difficulty of the Making coal with such an accurate particle size distribution is the process practically unusable according to this US-PS.

The invention is based on the object of a method for production to develop a coal pulp, which significantly reduces the viscosity of the pulp Extent made possible even if the pulp contains a high concentration of coal, whereby the pulp transport costs are reduced.

The invention, with which this object is achieved, is a Process for the production of a coal pulp, in which one pulverized coal in two or more Classified groups of different particle size ranges, these groups are mixed in certain proportions and the coal mixture is a medium added to form the coal pulp, with the indication that the two or more Groups of coals of different particle size ranges mixed in such proportions, that a void fraction of 30% or less results, and by the addition of the Medium adjusts the pulp to a carbon content of 55 to 85% by weight.

The upper limit of the maximum particle size of the classified ones is preferably sufficient Coal up to 1 mm in diameter.

The ratio of the minimum particle size of the coal in the pulp to the The maximum particle size expediently extends up to 0.5.

The cloud medium advantageously contains a surface-active agent or dispersants. The turbidity medium water is useful.

The invention is illustrated with reference to the in the drawing Embodiments explained in more detail; 1 shows a diagram for illustration the dependence of the pulp viscosity on the coal concentration in the usual Coal pulp; Fig. 2 (a) to (c) a schematic representation for illustration of changes in coal particle pack appearance in usual coal turbidity, if the coal concentration is increased; Fig. 3 is a schematic Representation illustrating a charcoal package appearance in a Coal pulp, which according to the invention is subjected to the regulation of the particle size distribution became; 4 shows a diagram to illustrate the dependency of the void fraction of the mixture proportion of the coarse-particle coal in coal mixtures according to the invention have been subjected to regulation of particle size distribution; and FIG. 5 Diagram showing the dependence of the turbidity on the proportion of the mixture the coarse particle coal in coal mixtures that according to the invention. Regulation of Particle size distribution were subjected.

The inventors considered the following reason for the fact that according to the prior art, the solids concentration, d. H. the coal concentration, cannot be increased in the turbidity without a rapid increase in the viscosity of the fluid can: Coal particles in a slurry apparently approach the densely packed state under the action of the surface tension of the turbidity medium when the coal concentration more and more increases. In this process, as shown in Figs. 2 (a) to (c) is, an aggregation of the coal particles 1 takes place, aa the medium 2 of between the Coal particles is removed so that the fluidity of the pulp is reduced and the viscosity of the slurry increases rapidly.

The cavity between particles of coal in the densely packed State is in the case of turbidity of ordinary coal particles, no particle size distribution control were subjected to 30 to 45%.

Therefore, the inventors tried to cope with this rapid increase in viscosity to avoid small coal particles 3, as shown in Fig. 3, between in Fig. 2 insert coal particles 1 shown in order to reduce the cavity, whereby the Gaps between coal particles are filled with the medium. They were like that successful in increasing the coal concentration while increasing the pulp viscosity has been kept at a low level, and has also been successful in the Reduction of the cloud viscosity by adding a surface-active agent or dispersant for turbidity in order to lower the surface tension of the medium and improving the affinity of the coal for the medium, thereby removing the coal particles without further become wettable with the medium.

Fig. 4 shows the dependence of the void fraction on the mixing ratio, d. H. on the proportion of coarse-particle coal, if coarse-particle coal of one particle size from 1 mm with fine particulate carbon having a particle size of 37 to 44 µm in various Proportions is mixed. gs shows that if two groups of coals different particle sizes are mixed with one another, the void fraction A minimum is reached with a proportion of coarse particle coal of about 70% by weight.

5 shows the dependence of the pulp viscosity from the Mixing proportion of the coarse-particle coal when turbid has a solid concentration of 55% by weight using the coal mixtures shown in FIG became.

The pulp viscosity shown in FIG. 5 and that shown in FIG. 4 Voids show the same tendency, which supports the inventors' belief that The slurry viscosity is kept low by looking at the solid particle size distribution regulated and the particles mixed so that a state of densely packed Particle receives. The reason for the fact that the pulp viscosity is at the minimum of the void fraction becomes minimal, appears to be due to a lubricating effect of the turbidity medium to be based, which, as Fig.j3 shows, evenly distributed between the solid particles is because the void ratio is reduced.

If the pulp produced in this way is highly concentrated and If the viscosity is low, the ratio of the finest to the coarsest is made Coal particles (smallest particle size / largest particle size) preferably very small, d. H. up to 0.5. For example, if the largest coal particle size is 10 mm, then is the smallest particle size preferably up to 5 mm; if the former is 1mm, the latter is preferably up to 0.5 mm. However, the largest particle size can be the coal cannot be raised freely, but is chiefly because of the settling limited by coal during the transport or storage of the pulp, that when increasing the largest particle size occurs more and more. From this point of view is the largest particle size preferably only up to 1 mm.

Although the above description only applies to the case of mixtures two coal groups of different particle size ranges was directed, differentiate the cases of mixtures of three or more coal groups essentially do not from the above case and are more preferred for practical use. What that Regarding turbidity medium, although the above description only applies to the cases of water recorded, the replacement of water by other inorganic solvents (e.g. liquid Ammonia and liquefied carbon dioxide) and organic solvents (e.g.

Methanol and kerosene) have the same effect.

According to the invention, the viscosity of the coal pulp can be varied widely Lower degree by mixing two or more groups of coals with different ones Particle size ranges used to have a void fraction of 30% or less to get the mixture if you have the viscosity with the usual, none such Regulation of the particle size distribution subjected coal compares so that the pulp transport costs can be reduced according to the invention.

The invention will be further elucidated in detail by the following examples Illustrated: In these examples mixtures of three or more groups of Coals of various particle size ranges and a surfactant used for each pulp sample. However, as already mentioned, the use falls of mixtures of two groups of coals with different Particle size ranges with or without a surfactant are also within the scope of the invention.

Example 1 After crushing and classifying coal, groups became of coals with particle size ranges of 701-589 µm (24-28 mesh), 124-104 µm (115-150 mesh) and a fewzjals 38 / µm (400 mesh) together in proportions of 60 or 28 or 12% by weight mixed. 50 g of the mixture, the void fraction of which is about 27 % were mixed by stirring well with 22 g of water, which was 0.05% by weight of one nonionic surfactants of the higher alcohol type based on the Contained by weight of coal. The resulting pulp had a viscosity of about 0.9 Pa.s. and a solids concentration of 70% by weight. So could a clouding viscosity of about 1/10 in comparison with the turbidity shown in Fig. 1 of the same solids concentration which underwent no regulation of the particle size distribution and no surfactant contained.

Example 2 After crushing and classifying coal, groups became of coals with particle size ranges of 701-589 µm (24-28 mesh), 208-175 µm (65-80 mesh), 43-38 µm (325-400 mesh) and less than 25 µm (600 mesh) together mixed in proportions of 57 or 26 or 11 or 6% by weight. 50 g of the mixture whose Void fraction was about 27%, were mixed with 22 g of water by stirring well, the 0.05 wt.% of an anionic surfactant des Sulfonic acid type based on the weight of coal. The obtained turbidity had a viscosity of about 0.85 Pa.s and a solids content of 70 wt Example 1. A cloud viscosity of about 1/10 could also be compared with that of the pulp which does not regulate the particle size distribution learned.

From the above two examples it can be seen that surface-active Apparently means the lubricating effect of the turbidity medium regardless of the nature of the same support financially.

Example 3 After crushing and classifying coal, groups became of coal with particle size ranges of 833-701 / µm (20-24 mesh), 104-88 / µm (150-170 mesh), 43-38 µm (325-400 mesh) and less than 25 µm (600 mesh) together in Shares of 60 or 30 or

8 or 2% by weight mixed. 50 g of the mixture, its void portion was about 24% were mixed by stirring well with 12.5 g of water that was 0.5 Weight percent of an anionic surfactant based on the weight of carbon to produce a pulp with a solids concentration of 80% by weight, which showed a viscosity of about 0.9 Pa.s. Another cloud became with one Solid concentration of about 85% by adding 20 g of the same as above produced coal mixture produced to the pulp obtained above.

The pulp obtained had a viscosity of about 1.2 mlL Pa.s sufficient fluidity.

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Claims (6)

Claims 0 method for producing a coal pulp, in by pulverizing coal in two or more groups of different particle size ranges classified, these groups mixed in certain proportions and the coal mixture adds a medium to form the coal pulp, a a d u r c h g e k e n n z e i c h ne t that one has the two or more groups (1, 3) of coals of different part size ranges mixed in such proportions that there is a voids content of 30% or less results, and through the addition of the medium (2) a coal content of the pulp of 55 up to 85% by weight. 2. The method according to claim 1, characterized in that the upper Limit the maximum particle size of the classified coal up to 1 mm in diameter. 3. The method according to claim 1 or 2, characterized in that the ratio of the minimum particle size of the coal in the pulp to the maximum particle size up to 0.5 is enough. 4. The method according to any one of claims 1 to 3, characterized in that that the cloud medium (2) contains a surfactant or dispersant. 5. The method according to any one of claims 1 to 4, characterized in that that the turbidity medium (2) is water. 6. The method according to any one of claims 1 to 5, characterized in that that the coal used to form the sludge three or more groups of coals with different Has particle size ranges.