DE592116C - Process for the separation of dedusted charcoal by means of calcium chloride or calcium nitrate solution and similar vaginal fluids that become acidic during use - Google Patents

Description

Process for the separation of dedusted coal using calcium chloride or calcium nitrate solution and similar vaginal fluids that become acidic in use The invention proposes an improvement in the method for separating dust Charcoal using a calcium chloride or calcium nitrate solution or similar vaginal fluids before what is known as gravity separation process or gravity process. At this It works with a liquid whose density is between the density of the floating good to be brought and the density of the good to be made to sink, the coal into lighter goods with a lower ash content and into heavier goods with a greater ash content to separate. The procedure has long been known as the swim and sink procedure Throughout time as an analytical method for testing the composition and washability used by coal, the dust being removed from the coal to be separated beforehand.

The invention wants this gravity process for coal separation in the make large suitable and used z. B. a calcium chloride or calcium nitrate solution in the cycle, which after using the coal separation in as concentrated as possible Condition is to be recovered in order to subsequently evaporate them for reuse to limit or to save. The vaginal fluids to be considered tend to "weakly acidic" after being in contact with raw coal to become, and the acidic reaction of the liquid causes: a flocculation of a certain amount clay-like substances, which then settle on the coal parts, sink to the bottom and prevent its beneficial elimination of the vaginal fluid from the charcoal. The flocculated clay also easily forms films on the cleaned coal are difficult to wash off and are bothersome when coking.

On the basis of this new finding, the invention makes the proposal the vaginal fluids, which become acidic in use, during all phases of the whole Work process, including the concentration, is clearly alkaline hold and then recover from the purified coal by displacing it with water. It has been found that due to the marked alkaline reaction of the vaginal fluids in all phases of the operation the harmful flocculation of the clay-like Substances is prevented, this rather ixie a complete or a colloidal one The solution that involves the separation process and the recovery of the vaginal fluid not disturbing influenced. On the one hand, there is no harmful film formation more on the purified coal, and on the other hand it is now possible, the alkaline Separating liquid from the separated products by displacing them with water recover from top to bottom in known suitable towers in such concentration, that no costly subsequent containment work needs to be done. Through this perfection, the invention achieves that the previous mere analytical Investigation method of the swimming and sinking method is now called gravity method can be used for coal for separation in large companies with economic success.

In the so-called. Schaumschwirnmverfahren it is known to use the bath liquid Add alkalis. This measure, however, has no relationship to the subject of the invention, for one reason, because the foam swimming method and that Gravity processes are sharply opposed in terms of their mode of action, and furthermore, the addition of alkali in the foam swimming process pursues completely different purposes, than they are aimed at by the invention.

In the case of the foam swimming process, a previous fine comminution is required of the good to be separated is inevitable, and one of the good must be used for treatment Cloudy or sludge can be made with water. If you want coal with the foam swimming method treat, the highest permissible grain size is about z1 / 2 mm. Raw coal for this To grind the way of working so finely would, however, represent an intolerable increase in costs and deliver a product that in the vast majority of cases is unusable. Indeed the foam swimming method is therefore only used for the coal sludge, which occurs as an undesirable by-product in Koblennaßreinigung.

On the other hand, the gravity process involves substantial size reduction not considered at all. The fine dust is removed, and then the good becomes subjected to the separation treatment regardless of the grain size. Special Conditions do not exist because of the grain size; you can separate without pre-sorting. The property is also - not made into turbidity or sludge, but can be dry be introduced into the liquid bath.

With regard to the separation effect, the two working methods are mutually exclusive diametrically opposite. The foam floating separation takes place independently of the specific Weight of the good parts. The so-called flotation is based on differences in the surface properties the good parts. A flotation agent is used to optionally encapsulate certain parts or to wet and other parts not. The parts to be lowered are less wetted. Most of the time the heavier parts float up, and in any case it happens the floating up against gravity.

In a fundamental deviation from this, the gravity method is used only the density or the specific gravity or the differences in density. The vaginal fluid has a medium density that has to be made to swell Parts have a smaller line and the parts to be lowered have a larger one Density than the vaginal fluid. The gravity separation is from the surface properties the good parts independently. Therefore, you don't need a flotation agent, rather the degree of wetting of all good parts is the same in the gravity process.

Also with regard to the washing of the separated goods show a lot -significant differences. The difficulties arise in the foam swimming method in carrying out the washing on the fine state of comminution of the good parts. Such an inhibition never exists in the gravity process, because the good grain is always significantly larger, preferably as large as possible. Difficulties of washing grow here rather from the hydrolysis of iron salts and from ' the flocculation of gelatinous (clayey) masses. The invention has the merit of this Inhibition and its cause, which is the acidity of the vaginal fluid, are uncovered as well as to have suggested to remedy the deficiency that the vaginal fluid is kept clearly alkaline during all phases of the separation process.

In the foam swimming process, the alkalis that have been added are used exclusively to support the separation process. In the main, they serve as so-called pusher, d. H. to weigh down the parts to be brought to sink, that is : for example the gangue or a certain ore in its ore mixture. Furthermore, one has they suggested to soften the water or to add certain flotation agents (Xylidine) to get oily, and finally in some cases (water glass) to to peptize the clayey components. All of these effects are far from Objectives of the invention, and the peptizing of the clay is almost the opposite of what the invention aims at.

By peptizing the clay with the help of water glass, exposed the ore particles to make them more wettable by the oil, which the decisive one Flotation agent forms. In direct contrast for this purpose, the invention does not want to peptize the clayey constituents. In present an electrolyte as strong as a saturated calcium chloride solution is, Incidentally, the P: eptize would not be possible either. With water alone could the alkali peptize the clay and, if necessary, flocculate it. Just the invention wants to avoid the flocculation because it involves the recovery the vaginal fluid by displacement. by means of water in the of the invention desired superior way is not possible. In the new process, the alkali does not matter Influence on the separation process itself, but its effect consists in the prevention the development of acid 'and thus the flocculation of iron hydroxide and clay.

In the foam swimming process, the task arises from the separated Good, avoiding dilution - an aqueous one for the purpose of renewed use Wash out concentrating solution, not at all. The liquid doesn't do any Cycle through, and the addition of alkali can nowhere except for the separation process Have benefit. On the other hand, in the case of swings separation, the main task is this separating fluid from the material to be separated, which is used again and again in the cycle, is included to regain the lowest possible dilution, the partial concentration ,. the is necessary for reuse, should be pushed down to the lowest possible level and it is particularly important to prevent it from becoming acidic. That purpose the proposal of the invention is used, the vaginal fluid in all process phases keep it clearly alkaline. Then the flocculation of the clayey parts is avoided, and the desired recovery of the liquid by displacement with water succeeds in a superior way.

In the practical exercise of the new procedure, one can also proceed in a known manner. The material to be separated is continuously fed into the bath; the sinking parts become uninterrupted at the bottom and the floating parts uninterrupted peeled off at the top of the bathroom. The material to be separated is expediently carried below the liquid level and stirs the liquid at the point of entry. In general, the good should no more than 1 to 2% dust. contain. With good pre-dedusting you can go out suitable raw coal produce products that contain only 2% or less ash, so are unusually pure. If bituminous coal is treated, it is possible the coking part of the non-coking part. or weak coking portion to separate. Devices can be known to carry out the new method Use kind. An example is shown in the drawing.

A separation vessel r contains a calcium chloride solution of suitable density. You can z. B. have a specific gravity of 1.35 when bituminous coal in Is to separate parts with high and parts with low ash content. The solution flows from a container 2 through a R0117 3 with control valve q. into the vaginal vessel i. The material to be separated is from a funnel 5 located above the vessel i through a Downpipe 6 passed approximately in the middle of the vessel i, and that with feed through a screw conveyor 9, a shaft 7 which is rotated by means of a gear 8 is and carries agitator arms at its lower end to the bath at the point of entry to keep the goods moving.

In the upper layer ii of the bath, the coal parts with a low ash content collect, while in the funnel-shaped lower end 12 of the vessel i the coal with a high ash content is combined at 13 . The separation vessel i is at the top of a gutter i q. surrounded with sloping bottom 1 5 , and a rotating scraper 1 6 carries out the light material. It is rotated, for example, by means of a worm gear i 6a, 16b. The from the scraper in dis channel i q. Transferred pure coal falls with the calcium chloride adhering to it on the inclined floor 15 and slides into a tower 17.

The tower 17 is funnel-shaped at the bottom at 17 'and can be shut off by a slide 18 above which there is a removable grate that supports the coal column. In order to recover the calcium chloride, water is passed from above into the tower 17 through a tube 2o (with valve 2 i). A drain pipe 22 at the base of the tower is connected to a container 24 through a branch 23 with valve 2 5 and can be shut off behind branch 23 by a valve 26. When valve 21 is opened, valve 25 is also opened, while valve 26 remains closed. The water supply at the upper end of the tower is carried out carefully and evenly, so that a closed water column is created, which pushes the calcium chloride in front of it as it moves from top to bottom. The displaced calcium chloride solution is collected in container 24.

The displacement water and the vaginal fluid remain relatively sharply separated from each other, and there is only a very small amount of mixing of the water with the heavier solution in the boundary layer, in which a somewhat thinner solution is formed. When this has arrived in the tower 17 below, to close the valve 2 5 and opens the valve A6, so that the less concentrated liquid enters! A container 28th When the washing or displacement water finally appears at the foot of the tower, the valve 26 is also closed and the valve 29 in the pipe 30 is opened in order to drain the washing water. After the washing process is complete, the slide 18 is opened and the grate 19 is removed in order to withdraw the coal from the tower.

The coal high ash content is lifted out of the funnel-shaped lower end of the separation vessel i by means of a bucket elevator 31 in .a second tower 3 2 corresponding to the tower 17th A slide 33 and a grate 34 are used here to remove the washed coal, and the washing water is z. B. supplied from below through a pipe 35 with valve 36. In continuous operations several towers 17 and 32 are provided, which are alternately in use take t.

The constant alkaline reaction of the calcium chloride solution can im The sense of the invention thereby brought about. be that you get the required amount for example of lime (about 4, 5 g per 100 kg of coal) of the solution either in the concentration device or not shown. but in the storage container z adds. The solution can be filtered from time to time to remove fine suspended solids to remove from it. For this purpose, for example, a tube 54 with a is on the container i Valve 55 is provided so that the liquid can be fed to a filter.

The density of the vaginal fluid depends on the material to be treated and the desired degree of purity. In the case of Valais anthracite, in. a bath with a specific gravity of 44 a pure carbon with no more than z% ash obtained. To wash the separation products you can first use a weak one Use solution with decreasing strength, which is then removed with water! The concentrated calcium chloride solution, the weaker solution and the water will be deducted through separate outlets.

Instead of a calcium chloride solution, you can also use another vaginal fluid use, for example one made from calcium extract. It has the advantage of solutions to deliver of greater density, by means of which z. B. the heavy parts of a previous one Separation can be subjected to further treatment. In the same way can if desired, the slight fraction of a previous separation by means of a Solution of lower specific gravity can be treated further.

Claims (1)

PATENT CLAIM: Process for the separation of dedusted coal by means of Calcium chloride or calcium nitrate solution and the like that become acidic in use Vaginal fluids, characterized in that said vaginal fluids preserve of the entire separation process kept clearly alkaline in all phases and then can be recovered by displacement by means of water.