SU49473A1 - The method of determining the plasticity of coal during their heating - Google Patents

Description

According to modern views, the degree of softening or viscosity of coal in the plastic state is one of the parameters characterizing coke coals.

Existing methods for determining the degree of softening provide either only a qualitative characteristic of the phenomenon (Foxwell-Fuel method, 3, 1924) or, giving a numerical characteristic, have the disadvantage of not being applicable to sintering coals of all types (methods flgde-Brennst-Chemie, 5, 86, 1929; Baum Heuser-QlLickauf, 1931, S. 432; Pieters, Kooprnaus and Howers-Fuel, 13, 82, 1934; Sapozhnikov- Chemistry of Solid Fuel, 1935, Issue 1. p. 34), being fit only for liquid-melting coals or, conversely, only for coals with a moderate degree of softening. In addition, some of these methods require a rather complicated situation, with the duration of the experiment from about 1-2 hours.

The proposed method is applicable to sintering coals of all types and makes it possible within a short time (10-15 minutes) to obtain a numerical characteristic of the degree of plasticity of the coal under certain (standard) conditions. The method can be used in a wide practice on

evaluation and characterization of sintering coals.

The duration of the experiment is small, the simplicity of the determination and the simplicity of the instrument allow for greater productivity in the production of determinations and determine their low cost.

The resulting plasticity numbers have the following meanings: 1) they establish gradations in the character of sintering coals, and therefore they can form the basis for the industrial classification of them; 2) they can serve as one of the parameters of the coking ability of coals, since for coals or their mixtures that deliver good coke, these numbers lie within certain limits; 3) plasticity numbers characterize the change in coal during oxidation and determine the degree of their oxidation, since the oxidation of coal results in a decrease in plasticity numbers due to the fact that the flowability of the coal melt decreases and it becomes less uniform.

The proposed method for determining the plasticity of stone coals when they are heated consists in that sand is placed on the top of the sample of test coal in the form of a briquette, and is subjected to loading during the heating of the samples / and sand and is determined by the amount of coal when it softens.

To implement the proposed method, the device shown in the attached drawing can be applied; FIG. 1 shows a section of the device without a wheelhouse and a cylinder; FIG. 2-tube boron; Fig. 3 and the 4-cylinder device in two projections.

A device that can be used to carry out the method consists of a steel disk 7 with a screw-in sleeve 2, inside which a steel rod 3 passes, having a screwed piston 4 at the lower end. With the help of a screw 5, the rod can be fixed in any position . A steel tube 7 (length of tube 7 depends on the height of the tube furnace in which heating is performed) (Fig. 2) with two 6 mm holes at the bottom for gases to escape is inserted and secured to the sleeve with a screw. In this form, the device is assembled. It is easily disassembled for cleaning.

Steel cylinder 8 (Fig. 3) for greater resistance to high temperature can be made of a heat-resistant chromium-iron alloy (Ni:, Cr: 15Vo, Fe:) with a plug-in perforated bottom with a cross section (clear) 1 cm With the help of spikes located in the upper part, this cylinder can be fixed in the tube 7, for which there are corresponding cuts at the bottom of the latter.

The experiment to determine the degree of softening of the coal melt is carried out as follows. A circle of asbestos paper with a thickness of 0.5-0.7 mm is placed on the bottom of the cylinder and then 1 g of air-dried coal (from a laboratory sample) is placed in a grinding that corresponds to the passage through a 324 sieve / cm sieve. Since the resulting numbers do not depend directly on the weight of the coal, but only on its surface in the tube, to accelerate the work, coal can be taken with a 1.85 cm tank, into which coal is poured with a spoon and the excess is cut off by a metal plate.

With the aid of a steel cylinder, which fits tightly into the tube, and a hand press, the coal is compressed in the tube to a height of 8 mm, for which there is a corresponding mark on the cylinder. The bulk density of the compressed carbon in the tube is about 1.23 g / cm. The insignificant amount of fine coal powder remaining on the tube walls at the point of contact with the surface of the briquette is removed by tilting and tapping the tube.

3 g of sand is placed on the surface of the compacted carbon; The sand is coarse and with rounded grains. Volsky quartz sand from quarries near Art. Privolska, Zan-Ural railway dear This sand, according to specifications, is normal when testing cements, and the fraction between the sieves 64 and lAAome / CM is taken (the wire thickness is 0.4 and 0.3 MM, respectively; the width of the holes is 0.85 and 0.533 mm}. The same granulometric composition of the sand is taken when working with coal, for which it can be taken as standard.

Before use, the sand should be calcined, and remaining not absorbed during the experiments, being calcined to remove tar coke, practically does not contain foreign substances and after the calibration sifting, through these sieves can be reused.

A tube with coal and sand is inserted into the tube 7 of the device, the piston is lowered onto the sand surface, and a load of 1 kg is placed on the upper end of the rod, which creates pressure on the sand surface of 1. The carbon tube is heated in a vertical tubular electric furnace in which the temperature is set at 850 °. A thermocouple is placed in the oven below. Heating is maintained for 5 minutes, after which the load is removed and the device is transferred to a tripod.

A tube of coal and sand, still heated, with tongs is taken out and sand is poured into a tared porcelain crucible or boat, where it cools quickly and then weighed. The difference obtained by deducting this sand from its original quantity, i.e. from 3 g, gives the amount of sand associated with coal and characterizes the degree

size gcheni ang. When coal is rapidly heated, heat is perceived mainly from the lateral cTopoHj. softens throughout the mass and under pressure penetrates into the sand, filling the voids between the grains, and in thin streams quickly coking. The softened coal mass with greater fluidity, before hardening, penetrates further into the sand layer and accordingly binds more of it, which remains fixed in the coke.

The amount of sand fixed in the coke is recalculated per square meter. dm of the coal surface, i.e., the weight of the sand after the experiment is multiplied by 100, and thus there are clearly expressed numbers characterizing the plastic properties of the coal under these conditions of experience. The whole experience ends in 10 minutes.

Fat sintering coals (RV) give numbers - from SW to 150 and more, coke oven (K) 30-40, lean sintering 8-25.

All weighings are performed with an accuracy of 0.01 g, with more accurate work and low numbers of 1 mg. Discrepancy of results with parallel experiments does not exceed in relation to the average value.

With very thin sintering coals, the amount of absorbed sand was 4 hundredths of a gram (e.g., 0.08-2), and the determination accuracy decreases. This disadvantage can be eliminated by using in such cases not a tube of the above size, but a box with a width equal to the diameter of the tube and the same height, but of such length that the internal cross-sectional area of the box is larger than the internal cross-section of the tube, for example, two or more. three times. Then the amount of absorbed

sand (e.g. instead of 0.08 g-0.16 or 0.24 g) and, thereby, greater sensitivity and accuracy of determination will be achieved. In terms of 1 square. The dm will produce numbers of the same order as when working with the handset.

Oxidation of coal results in a decrease in the characteristic numbers, as this reduces the fluidity of the coal melt and it becomes less uniform.

For one primary fat coal, during its oxidation in the laboratory (at 105 °), the following change in plasticity numbers was observed:

Fresh coal140

After 70 hours. 82

168 ,, 46

“240 ,, .28 18

410

Thus, carbon changes during oxidation or the degree of oxidation of carbon are very easily and quickly established by this method.

The subject matter of the invention.

Claims (2)

1, A method for determining the plasticity of coal when it is heated, characterized in that sand or similar granular material is poured over the sample coal being placed in the furnace in the form of a briquette, during heating the sample and sand are subjected to loading and the plasticity of the coal is determined by the amount of sand associated with coal when it is softened. 2. For carrying out the method according to claim 1, use an apparatus consisting of a coupling 2 with a shaft 3 missed inside it, equipped with a piston 4, a tube 7 fixed in the sleeve 2 and fixed in the tube 7 of the cylinder 8, which serves to place the coal with sand sample and supplied with a perforated dong. Oeigo 1 CVSG-, S - € 3