PL8774B1 - Method and device for the determination of carbon breakage loss. - Google Patents

Description

The present invention relates to a method and an apparatus for the determination of carbon losses in flakes. The method consists in separating the carbon from the scale and mixing on the basis of the difference in specific weights with a solution whose specific weight is intermediate between the specific weights of the materials to be separated. In the context of the invention, highly concentrated solutions of zinc chloride are used for this purpose, but other solutions of metal salts of colloidal liquids may also be used, etc. The present invention also includes an apparatus for carrying out the method. The main part of this device is a vessel, to the central part of which is fed a solution that enters the inert zone, that is, between the lighter and heavier components of the material to be separated. Outside the area, the device is equipped with two or more reserve vessels for solutions of different concentration and with auxiliary tanks for collecting the solution used during the given period of operation. Before using a solution of a different concentration, the solution that has been used in the previous operating period is pumped from its auxiliary reservoir into the main reservoir. The figure shows an example of an embodiment of the apparatus in accordance with the invention. The funnel contains charcoal which is intended for the flaking. Coal is thrown into the vessel 3 by means of the discharge drum 2, while the amount of carbon thrown in is regulated by the ratchet 4. At the bottom of the vessel 3 there is a valve 12 for draining the liquid and a sieve 15 against which the stone is stopped. The sieve is attached to the bearing 13, which enables the removal of limescale and mixtures accumulating on the bottom. Together with the liquid, the lighter components of the padded coal pass through the overflow 16 to the groove 7, through which they flow into the tank 8. At the bottom of this tank there is a screen 17 through which the liquid flows into the tank 9. 10 means a pump, 11 a discharge line branched into lines 11a, 11b and td, which can be closed by valves 18, 19: These branches are directed to the storage tanks 5a, 5b, from which lines 6a, 6b (provided with valves 20,21) lead to the joint A conduit 6 through which the working fluid enters the vessel 3. The heavy components (stone and mixtures) are collected in the vessel 14. Vessel 3 has a mixer of any type, or a tube with compressed air. as follows. The coal to be rinsed is poured into the funnel 1 and fed continuously to the vessel 3, by means of the hopper 2, while the amount of coal is regulated by changing the arm of the ratchet lever 4. The solution flows from the tank 5a in lines 6a and 6, as a solution, a highly concentrated zinc chloride with a specific weight exceeding the specific weight of carbon, with the desired ash content, but lower than the weight of the specific weight of stone and mixtures, is used. This solution is mixed with the carbon by means of a stirrer or by blowing in air. The solution flows without interruption to the center of the vessel, as a result of which the coal, pure or containing a certain percentage of ash, passes along with the solution pouring through the overflow 16 into the nursery 7, and from there to the tank 8, where the coal is collected on the sieve 17, and the solution is poured into the container 9. Then the valve 12 opens through which the solution filling the container 3 is also poured into the container 9, while the stone and mixtures stay on the sieve 15, and after opening the flaps 13 fall into the vessel 14. The stopper of the pump 10 presses the solution from the reservoir 9 into the storage tank 5u and, if necessary, the degree of its concentration is adjusted. The stone and mixtures contained in the box 14 are thrown into the hopper 1 and repeated again previous run, but with the help of a solution (from vessel 5b) with a different specific weight. In this way, you can divide the processed material into 2, 3 or more species and determine the amount by weighing. Recommended for the determination of carbon. using loads of 50 kg. Of course, you can also determine larger amounts of carbon and use this method to determine other minerals, e.g. ores. PL PL

Claims (9)

1. Patent claims * 1. A method for determining the loss on decaying of carbon, characterized by the fact that the separation of the components is performed using a fluid with a specific gravity intermediate between the specific gravity of the components to be separated. 2. The method according to claim A process as claimed in claim 1, characterized in that highly concentrated solutions of zinc chloride are used for the separation. 3. The method according to p. 1 and 2, characterized by the fact that the solutions are mixed with the carbon mechanically or by means of an air current. 4. The method according to p. 1 to 3, characterized by the fact that solutions of different specific gravity are used in succession to separate the individual carbon components. 5. The method according to p. 1-4, the significant area is that individual solutions of the same specific weight are combined with each other and returned to the main reservoir. 6. Device for carrying out the method according to claim 1-5, characterized by the fact that in the 2-central part of the vessel (3), into which the processed mineral is admitted, there is an inlet (6) connected to several storage tanks (5a, Sb) of the solution in this way, that each tank can be connected independently to the vessel. 7. Device according to claim 6, characterized by the fact that in the upper part of the vessel (3) there is an overflow (16) for draining the lightest component of the processed mineral and part of the solution, while the lower end of the vessel is closed you use the flap (13) with the sieve (15) and is provided with a valve (12) so that the coarser components of the processed material are thrown into the reservoir (14) and the rest of the solution is drained into the hopper (9), while the lighter components collect at the bottom of the net (17) of the tank (8), from which the solution also flows to the reservoir (9), from which the pump (10) pushes it back to the appropriate backup tank (5a, Sb) . 8. Device according to claim 6 to 7, the characteristic feature is that it is provided with a feed device (1, 2, 4) for feeding the processed mineral into the vessel without interruption. 9. A device according to claims 6-8, characterized by the fact that a mechanical stirrer is provided in the vessel (3). Curt Bunge. Deputy: Dr. inz. M. Kryzan, patent attorney. To the patent description No. 8774. e: Print by L. Boguslawski, Warsaw. PL PL