DE485769C - Improvement of the adsorption capacity of active coals during production and revitalization - Google Patents

Description

Improving the adsorption capacity of active carbons during production and resuscitation. The invention relates to an improvement in adsorptive capacity active coals and other adsorbent substances in their generation and resuscitation. With regard to generation, the invention is mainly aimed at obtaining highly active ones Coals that have a versatile absorption capacity for gases, liquids, Show colloids, bacteria, poisons, dyes, etc. It is known that the activity of all existing active coals is only imperfect, or that their absorption capacity is often only unilaterally developed and shows great selectivity, so that this active coals probably have good properties for the treatment of certain substances, but are only slightly or not at all suitable for other absorption purposes. These Selectivity of the absorption capacity of active charcoal is partly also in the Connection with their mode of production. The active coals differ by the type and nature of the raw material, its density, pore size and composition (Cellulose, lignin), as well as by the way they are produced. For example, is one Coal produced by the action of activating gases at an annealing temperature of 800 to 100 ° C is produced, different from a charcoal, which is produced by action of carbonizing or dehydrating chemicals at a lower temperature is produced from only 3oo to 6oo ° C. Also active coals produced by different Gases (chlorine, or, sulfur dioxide, oxygen, etc.) are generated, give way in exactly the same way how active coals are made with the help of different chemicals are mostly different from each other (phosphoric acid, zinc chloride, etc.).

With respect to resuscitation, the invention aims to restore of the original absorption capacity of exhausted coal and the like Resuscitation methods known, such as. B. the glow of contaminants with adsorbed loaded coal or the application of chemicals such as B. hydrochloric acid, alkali or oxidizing and reducing chemicals etc. So far it is still practical failed to achieve a satisfactory revitalization of the exhausted coal. The revived coal still showed a significant decrease in its adsorptive capacity. This decrease is due in particular to the fact that the ingested impurities not be removed from the charcoal, but in one form or another settle on the active carbon surface. For example, an inconvenience occurs in the annealing process on that the organic impurities charred and as -inactive, so-called secondary coal are deposited on the active coal surface, so that, the active one Coal surface is made inactive. It was so far too difficult to apply coal (e.g. in moving layers) evenly and everywhere to heat the desired temperature in view of the known fact that the coal conducts heat poorly. Also exposure to chemicals is only very incomplete, as this usually only covers part of the substances absorbed can act.

According to the present invention, the coal to be treated is. with the treated electric current in continuous operation. When heated either a charcoal to be activated or revived at the glow temperature of 600 to i2oo ° C with direct implementation of the electric current, a surprising increase in activity achieved. This phenomenon is likely to be the first This is due to the fact that the electricity is extremely steady Causes heating of the coal. As a result of poor heat conduction the coal makes That is to say, in general, with every activation process the disadvantage of one uneven heating of the coal noticeable, which of course activates the Kohlte impaired. On the other hand, the direct electrical heating enables a very even penetration of the individual coal particles. Also in this one Relationship z. B. can therefore benefit from a favorable influence of electricity the active carbon surface can be spoken of. One can proceed in such a way that the carbon to be treated between electrodes, e.g. B. carbon electrodes arranged and heated to a suitable temperature, the carbon to be treated itself as electrical resistance can serve. The activated carbon conducts the electrical Electricity better than non-activated or only partially activated coal. depending on the temperature of the coal rises, the electrical conductivity of the coal improves, so that the glowing coal offers little resistance to the electric current. However, the impurities in the coal offer great resistance. When performing Both the electrodes and the carbon to be treated can be used in the process make movable. The electrical heating is both during the actual activation of coal through the action of gases or chemicals, during subsequent treatment activated coal (afterglow) as well as during drying or calcining and applicable to the revitalization of exhausted coal by annealing.

So you can do the electrical heating with the passage or other Combine exposure to gases and vapors (e.g. from superheated vapors), or it can be done on a carbon impregnated with chemicals. Is z. B. exposed a more or less moist coal to being heated by the electric current, so 'water vapor is formed, which is simultaneously activating or decomposing acts on the coal or on the carbon-containing impurities.

Will be a charcoal or a carbonaceous material that contains electrolytes contain or have been treated with electrolytes, exposed to electrical current, so the electrically melted or liquefied, if necessary, work through Electrolysis in statu nascendi formed reaction products very energetically and lead to activated products with special adsorption capacity. That way you can z. B. an activation by Na Cl etc. take place, with visible metallic Na as well as C12 has an activating effect. By suitable choice of the electrolyte one can at the same time let several acuve processes run side by side. The power consumption can are regulated in such a way that there is no loss of chemicals. The regeneration or activation with moist Na Cl z. B. can be directed in such a way that it is free becoming C12 with the hydrogen of the raw material or the impurities of a exhausted coal only just forms H Cl, which is converted back into Cl by the supply of electricity; this cycle repeats itself until the required degree of exposure is reached is.

In the drawings, for example, two devices for des present proceedings. It should be noted, however, that the Practice of the present invention does not involve the use of these devices is limited, but da.ß any suitable device within the scope of the invention for electrical treatment for the purpose of activation, continued activation, the dryer, the calcination. or the wild life of coals can be used. can.

Figs. I and 2 of the drawing represent a vertical cross-section and a vertical longitudinal section of an apparatus for the electrical treatment of Coal.

Fig. G is a vertical section through another embodiment the device. The treatment is carried out in the container i, the to treating coal from below, e.g. B. in. Wet condition, introduced and discharged at the top will. In this container a number of electrodes 2 are arranged, which are at the embodiment shown alternately in a horizontal level are located in the upper part of the container. In this way, the continuous of supplied below, e.g. B. cold or wet coal near the electrodes at annealing temperature brought, and when the action is complete, the still hot coal is out of the container removed by being displaced by the following coal and over the edge 3 of the container falls. Indeed, the active charcoal is very glowing movable. The hot coal gets into the channels 4, in which it is with the help of the screw 5 is promoted. If necessary, the channel can be 4. with a double Cover 6 provided for cooling with the aid of water. The glowing, regenerated Coal can also be conveyed in an outer jacket of the feed pipe, with it gives off its heat to the damp and cold coal. The treated and possibly cooled; material is conveyed to container 7 by screw 5.

The gases and vapors that result from the heat treatment from the coal can be drawn off through pipe 8 and removed from the coal dust in the usual manner to be freed.

Appropriate movement of the material to keep the process continuous to make it can also be obtained as follows: From the bottom of the container will the material to be treated is continuously conveyed upwards, e.g. B. with the help of a vertically arranged screw 9. The supply of the material to be treated to the lower end of this screw can, for. B. from the funnel i o to which the material from the chute 12 provided with a screw i i. It can too appropriate means are provided, such as B. a horizontally arranged screw with greater power than the screw 9, causing the material to move upwards is pressed by the screw 9.

The container i with electrodes 2 and the feed device located underneath 9 forms a unit, a number of which may be placed side by side and finitely driven by gears and a common shaft 13 will.

While the device according to Fig. I and 2 in particular for the treatment of powdered coal comes into consideration, one can use the device shown in Figure 3 Use preferably for the treatment of granular material. This device consists of a vertical furnace 2o, lined with refractory material 2 1 is. The electrodes are used, for. B. the vertical electrode 22 in the axis of the furnace and the annular electrode z3; between these electrodes the current is used for the purpose of Achieving the required heat _Zregulierte. The material to be treated becomes continuous fed from the hopper 24 and passes in continuous motion between the electrodes 22 and 23 to the lower end of the furnace, from where it is moved by of the rotary valve 25 falls into the container 26. If necessary, activating or other gases, such as water vapor, can be supplied at 27, and furthermore can be used for Appropriate gas evacuation must be taken care of at 28.

Instead of the vertical arrangement according to fig. I and 2 one can also arrange the container i and the feed screw 9 horizontally, in which case the electrodes can lie in a vertical instead of a horizontal plane. The arrangement of the Electrodes can be changed in any way. The principle of treatment remains the same.

The embodiments described by way of example can be used in the context of the invention experienced any appropriate modification, provided. the devices for Improvement of the adsorption capacity of active carbons through electrical treatment serve to manufacture or revive. So you can in the electric Furnace a pre-activated or not yet pre-activated or pre-charred material treat that is soaked in a suitable @Veise with chemicals or with water or has pretreated, with activation or continued after annealing Activation of the coal takes place. You can also use the activation process in the electrical Make the furnace with the supply of activating gases.

The same goes for the resuscitation in the electric furnace, where one either the exhausted coal, pre-dried or not pre-dried, without special Can treat pretreatment; you can also activate the exhausted coal first Impregnate chemicals and then glow in the electric oven, or you can during the activation process still activating gases, e.g. B. oxidizing or corrosive Gases or vapors = such as Cl, S02, O etc.;,: Pass through the furnace.

To achieve the highest possible uniformity of the electrical treatment To achieve the charcoal, it is advisable to use the finely powdered or granular one to be treated Coal with a coarse-grained material, e.g. B. coke, to mix, then the coke especially serves as electrical resistance and the electrical current mainly is passed through the coarse pieces of coke. As the coke pieces in be heated evenly to annealing temperature in this way, also takes place hereby a good heating of the accompanying fine powdery material takes place. One can also z. B. when glowing granular, activated charcoal add active charcoal in dust form.

In the devices shown, the material becomes continuous treated. The carbon is only exposed to a single action from electrodes. But it can be recommended for in-depth heat treatment, the coal two or to run several rows of electrodes along. That way you can get a achieve gradual heating of the coal. One can also proceed in such a way that one has the Coal first heated by heating it with an electric current Body, e.g. _ B. a resilient one. Metal industry, through which one gets the coal Lets go through, brings into contact, whereupon the coal by direct passing through of the electric current is further heated. One can in the electric ovens electric heating with any other heat source, such as external heating, Passing through of burnt, burning or combustible gases, surface burning etc., combine.

Claims (1)

PATENT CLAIMS: i. Method for improving the adsorptive capacity of. active coals. .the generation or the resuscitation, characterized in that the moist coal to be treated is subjected to the action of the electric current in continuous operation at the annealing temperature, so that the developed water vapor has an activating effect on the glowing coal. a. Process according to Claim i, characterized in that a carbon impregnated or mixed with chemicals is treated in this way. 3. The method according to claim i, characterized in that the electrical annealing process is carried out in continuous operation in the presence of a reducing, oxidizing or corrosive gas or vapor. q .. The method according to claim i, characterized in that the carbon to be treated is passed in a continuous manner between electrodes, the carbon itself being used as an electrical resistor and being heated directly to the required annealing temperature. 5. The method according to claim i, characterized in that the carbon to be treated electrically contains an electrolyte or is mixed with an electrolyte. 6. The method according to claim i, characterized in that the powdery. or fine-grained carbon., coarse pieces of a poorly conductive material, such as. B. pieces of coke, which serve as electrical resistance and are heated evenly to the required temperature. 7. The method according to claim i, characterized in that the powdery or fine-grained carbon finely powdered, active carbon is mixed.