DE504636C - Active coal production - Google Patents

Description

Active Coal Production This invention relates to the production of activated charcoal (active, decolorization, absorption or A (isorption) charcoal in the form of grains or pieces of various shapes and sizes, in particular the manufacture of such Active charcoal is used, which is suitable for adsorbing gases and vapors is. In many cases it is a condition that the coal has a certain, preferably Has the greatest possible hardness and resistance to mechanical influences u. a. to avoid pulverizing the coal. By the way, it is important that the coal not only has a very high absorption capacity based on the unit weight, but also on the unit of volume. These are properties that are not can easily be combined in a coal, so that it has not been practically possible up to now was to produce carbon suitable for gas absorption with a very high absorption capacity.

In the known activation processes, the active charcoal is obtained mostly in the form of fine powder or mixtures of fine and agglomerated Material, sometimes in the form of grains or other shaped pieces of irregular shape Size and shape. In the application of the charcoal is a certain and even Grain size and homogeneity are often of great importance. If you have one of these conditions If you want to obtain the corresponding coal by the known method, you have to activate it Sort the product carefully, using only a small percentage in addition to powder the desired granular coal can be obtained. In general, the well-known active coals relatively tender and, if they are granular or lumpy Shape are generated, not resistant enough to mechanical influences, so that they easily disintegrate into powder. It was found that the coal Delicacy increases when it is further activated. If one deshall) after the known method a relatively hard coal in granular or lumpy If you want to produce shape, you can only do this by carrying out the activation process does not carry out too far, but then one only uses a coal proportionately low absorbency.

Attempts have been made to produce enough hard coals by using hard, dense, sparingly porous carbonaceous starting materials used, such as. B. Coconut shells, which, by the way, were not fully activated; but one encountered it always the problem that the absorption capacity of the coals obtained does not the desired degree.

According to the invention, one can use more of a highly active carbon or less finely divided or ground state go out, by one of the known activation processes using gases or chemicals has been made. This charcoal is made with a known organic or inorganic Treated binder for coal, and then further agglomerated to the desired shape, briquetted or cemented. The binders to be preferably used according to the invention are either inorganic adsorbents, optionally used as hardeners can act, or carbon-containing binders that can be converted into active charcoal can. For the production of the activated coal, which is used as a raw material, one can of any highly porous and soft type of charcoal or other organic starting material go out, since this starting coal is the required by the subsequent treatment Hardness and density is granted. This is a great advantage over known methods, using hard and dense raw materials such as coconut shells.

In this application of binders and agglomeration of the mixture Care must be taken that the absorption capacity of the coal is significant Does not experience decline. The fine capillary shape or effective surface of the coal is to be spared as much as possible, and for sufficient porosity of the agglomerate To take care. In the case of using a binder that has the ability to adsorb does not damage the coal, there is no need to reactivate the shaped coal pieces, whereby they would become too soft and too porous again. The one demanded in the moldings Porosity can be created by adding an inorganic substance that is finely divided, z. B. in solution, the finely ground coal is added. The inorganic additive can later be extracted from the finished coal.

The binder can be organic or inorganic, and one can in many cases use a suitable mix of binders. Known procedures for briquetting and agglomeration of coals and for the production of briquettes for electrotechnical purposes come into consideration. Examples are to be mentioned all suitable types of cement, plastic earth, gelatinous silica and silicates, Plaster of paris, magnesia and magnesium compounds, aluminum salts, etc. as well as organic ones Adhesives of all kinds, such as B. starch, dextrin, glucose, sugar, syrup, glue, rubber and resins, alcohols, hydrocarbons, tar and tar products, pitch, sulphite waste liquor etc. One can also proceed in such a way that the binder is in a suspension active charcoal falls, the precipitate that forms agglomerating the Causes coal particles. After the agglomeration you can add more or more coal heat less high, whereby one can also proceed in such a way that the admixed give rise to organic or inorganic substances for gas formation, whereby a coal agglomerate high porosity is achieved. So you can add yeast, also volatile salts, such as B. ammonium carbonate, can be used with advantage to make the grains or to bring pieces to the desired degree of porosity.

You can also first agglomerate the coal in a suitable manner and Press together to form the desired moldings and then or with organic or inorganic substances soak or impregnate and possibly more or less high temperature or glow. For example, one can use the finely divided Treat coal in combination or in appropriate order; first with one organic binders, such as. B. tar or pitch, or an inorganic binder, such as B. a magnesium compound, secondly with those reagents that are in the Coal form a precipitate to give it the necessary hardness, such as. B. a precipitate of silica, optionally still a fermentation or Disintegrating agent to produce sufficient porosity, such as yeast, a volatile one Connection, e.g. B. gasoline, carbon tetrachloride o. The like., Or a gas-releasing Connection can admit.

To generate a precipitate of silica in the pores of the Coal or the grains can be precipitated silica in the presence of the coal. Man can e.g. B. the pulverized or already agglomerated coal in a water glass solution suspend, which is precipitated by means of hydrochloric acid in the heat, or the grains of coal Impregnate or pieces of water with a water glass solution and add gaseous hydrochloric acid. Another way of working is to use the carbon with silicon chloride or a treat another silicon compound from which silicon oxide is precipitated can be.

In a corresponding manner, other hardening substances of the K_ ohle be incorporated.

Substances suitable for impregnation are also salts such as phosphates, Oxalates, citrates, aluminates, etc., e.g. B. insoluble or sparingly soluble calcium salts.

By the way, the grains of coal can or pieces too after their completion are impregnated with such substances that the adsorptive capacity of the coal or affect the type of adsorption.

The agglomerated, briquetted, cemented and impregnated in this way Coal can also be subjected to further activation, either by glowing by passing activating gases through or by treatment with the known ones activating chemicals.

In the case of the 'admixture of organic binders, these too converted into active coal. The active coal used as a raw material one can then do so with the secondary active charcoal or with any other Adsorbents impregnate or coat that the adsorption capacity per unit volume is increased significantly.

The mixture of coal and binder can be used under high pressure, e.g. B. hydraulically, if very hard coal is required. If necessary can use very high temperatures to produce charcoal for special purposes will. The binder can be made porous by heating.

The shape of the agglomerated coal can be arbitrary depending on the intended Purposes, either regularly or irregularly. Instead of grains you can shape the charcoal into pills using a compression, tabletting or pill-forming machine of known type, or you can also use the coal in the form of z. B. blocks, plates, drawn wires, rods or shaped pieces of arbitrary Create size and shape. Much depends on the type and nature of the binder and the way of impregnation and compression, as well as of the pre-and Post-treatment of coal depends on what factors depend on the uses of the agglomerated Coal can be changed.

The granular or lumpy coal according to the invention can, for. B. to Charging cylinders, used to store gases, can also be used the coal in devices such. B. use columns and the to be treated Liquids or gases through the charcoal lead to dyes or from the same to remove other impurities or to remove certain components from gas mixtures or to deposit vapors, e.g. B. for drying air, separating benzene from Coal gas, removal of extremely fine floating dust particles or mists Air or other gases, for compressing gases, e.g. B. to make them more economical Way to recover etc. Also one can run the coal in different forms catalytic reactions or for metallurgical, electrotechnical or other Purposes. The plates or other bricks can also be used for filtering serve the treated liquids.

The coal according to the invention is particularly suitable for charging of gas masks. Since the coal has sufficient hardness, it can be thoroughly revived be e.g. B. by annealing, passing steam, compressed air, etc., without the Crumble, powder, or fall apart grains or pieces. Even the coal can withstand high pressures when it z. B. in meter-high columns is used.

Active ones are particularly suitable for treatment according to the invention Coals that are still clearly perceptible under the microscope, fibrous, needle-shaped or show other structure originating from the vegetable starting material. These Coals have a relatively very large active surface area and are very large porous and elastic in itself, which is responsible for the formation of agglomerates with the addition of Binders is particularly important.

If one considers the activation of carbonaceous materials, such as. B. wood by means of gases, largely carries out, so you get coals with special high adsorptive capacity, which is characterized by a very .low apparent .specific Mark weight (volume weight or bulk weight), which in many cases drops below o, i and even down to about 0.04. This creates certain Disadvantages if you want to use this coal for gas adsorption. These disadvantages but are eliminated according to the invention if these very light coals are pressed together, whereby you get granular or lumpy active coals with a very high adsorptive capacity which is extremely good for treating gases or for the other are suitable for the purposes mentioned above.

Example i A gas-activated charcoal made from coniferous wood, which when ground to a fineness of 8o: meshes per linear centimeter has a bulk density v of approximately o, i 2, is mixed with a waterglass solution, the specific gravity of which is approximately 1.15 to i, 2o , and then formed into pieces of any shape and size. The mass is treated at a moderate temperature with a certain amount of a ten percent hydrochloric acid solution, so that the silica initially forms in colloidal form and only gradually solidifies to form silica gel. The reaction of water glass and hydrochloric acid can also be allowed to take place separately and the finely divided coal can be agglomerated with the silica if it has not yet solidified. The resulting moldings are then gradually heated to a high temperature; a product is obtained in which the activated charcoal contains about 50 percent of its own weight in silica gel, the bulk density being increased to about 0.2o. In this way, the gas adsorbing capacity per unit volume is increased considerably, although it is somewhat decreased per unit weight. Example e An activated charcoal is mixed with sulphite liquor and a suitable amount of lime and (or) calcium carbonate and pressed together under high pressure to form moldings. The briquettes are then annealed at a high temperature until the sulphite liquor is completely carbonized. The carbon-containing component of the substance used for impregnation is converted into active charcoal, which covers the pores of the original active charcoal, which serves as the basic material, and which holds the individual particles together. The hardness and density of the product can be achieved simply by applying high pressure, even without the special addition of inorganic hardening substances.

Claims (3)

PATENT CLAIMS: i. Process for producing active coal with high Adsorption capacity in granular or lumpy form, characterized in that Particles of activated carbon with inorganic adsorbents serving as basic material or hardeners or activatable carbonaceous binders in liquid or dissolved form or a mixture of both, converted into grains or briquettes, if necessary, strongly pressed and highly heated or annealed. 2. Procedure according to claim z, characterized in that carbonaceous material is first largely activated and then in finely divided form and optionally under Addition of an organic binder in a suitable sequence with chemicals treated to produce other adsorbing gels, whereupon the obtained Washes out moldings, dries them while preserving their adsorbing properties of the inorganic precipitate heats or glows. 3. The method according to claim i and 2, characterized in that the charcoal is volatile when heated Substances or gas-releasing substances mixed. 'q .. Method according to claim z to 3, characterized in that the activated carbon and the added adsorbent Material have complementary properties.