DE613895C - Production of phosphorus in shaft ovens - Google Patents

Description

Production of phosphorus in shaft furnaces relates to the present invention on the production of phosphorus in shaft furnaces, such as one in a for Implementation of the invention suitable training on the accompanying drawing is shown.

There are many difficulties in obtaining phosphorus in shaft furnaces occurred, which severely impaired the operation of the furnace. To this One of the difficulties is the creation of considerable amounts of fine dust or Smoke that is carried along by the gases and is difficult to remove, and which on the one hand contaminate the phosphorus in the further treatment of the gases, on the other hand, in the chambers designed for the combustion of the phosphorus-containing gases Induce the formation of slag and also impair the yield of phosphates. In addition, the difficulty arose when operating the oven, namely the oven temperatures which is necessary for the most complete evaporation of the phosphorus and required for the reduction of the viscosity and the phosphate content of the slag are. However, when operating the furnace according to the present invention, the Amount of smoke, dust and other impurities generated by the furnace gases are entrained, considerably reduced. There are higher in the stove Temperatures achieved with correspondingly increased phosphorus evaporation as well as the The phosphate content of the slag is reduced and the phosphorus yield and purity are reduced of .Phosphorus and the phosphates formed increased.

In the operation of fan ovens it has hitherto been customary to use the Monitor furnace operation in such a way that the load drops as uniformly as possible achieved by the furnace and irregularities resulting from the fact that the Movement of the feed temporarily partially or completely ceases, which phenomenon known as "hanging" have been avoided as far as possible during operation. When through If the load gets stuck, normal operation is disrupted this is eliminated in normal furnace practice by throttling the blower wind.

It has been shown that when operating a phosphorus fan oven in the above-mentioned defects occur in the usual manner mentioned. These shortcomings can, as it turns out, be largely eliminated by the the usual conditions for furnace operation and changes in one direction, how to use them so far for has held highly undesirable, namely so that it is normal to work with hanging loading and that only intermittently by throttling the lsrbl: isc @@ - in (tcs a sudden drop in the load is brought about during the wind throttle periods. By submitting Lowering of the loading will help to eliminate the defects mentioned What is important is that the charge in the furnace shaft is significantly compressed. The occurrence of the @ - sealing of the furnace contents is due to a -significant increase of the blower pressure recognizable, which made beyond that blower pressure must be that for the operation of the same furnace with normal uniformity Lowering of the oil load is used. The purpose of compacting the column of material is particularly fully achieved when the fan is temporarily completely switched off will.

The systematic intermittent damping of the blower wind is Although not new in itself with fan ovens, the leap happened in such a short time Periods of time, e.g. B. 75 times in a minute that the purpose of condensing the Loading is not achieved before the increased wind is turned on each time and the achievement of these purposes was not even intended.

To achieve one of the requirements of the invention Furnace operation finite essentially hanging batch, which only intermittently, iii Connection with brief wind throttling, a jerky movement triggers, proceed as follows: When the machine is in operation, leave the Oven for a longer time, for example 1 hour, with a uniform fan is more common Pressing read. Then one takes a short throttling of the wind before it has been determined whether there was a significant reduction during this period of operation had taken place. Is (did not read the lall and also has the short Dross = -lung -: The result is a greater reduction in the charge, then increases in the interim times until the next Winddrossrlting. \\ 'ar on the other hand already up to the first throttling a noticeable movement has occurred, then the interval until the next one Reduced throttling. It is easy to see the distances between the individual \\ 'iiiddrosseltiii'gen choose so ztt that the vast majority (le part of the movement of the Cliarl, Te in connection with finite fan coil: elungen rintel lt.

Even if the C'li @ ii-g # e-eiiitritt does not come to a complete standstill. @ v-: ilirciid der \ 1 "i11 (1 'gellt, 1: r, 1111 inan (furch kttrzc I) ros: (# Ituig in l; ürzcren 7citabschnitte, z. B. 15 minutes to achieve a compressor batch with the effect that during the individual blowing periods the movement in the mass is restricted to that in the lower part of the batch this loosens up to the extent that the \ 'er: nuig of coke enters.

After every final throttling of the blower wind performed at the right time, a noticeable compression of the charge occurs in connection with the jerky downward movement, which makes an increase in the blower wind pressure necessary beyond that which is to be used with a load moving freely through the shaft. According to our experience, this increase in the wind pressure required for operation according to the invention is about 10 ° J " possible uniform sinking of the charge made by the oven and irregularities that result from the fact daii ctie 15: movement - the charge -reitweise which appearance is "known as" hanging partially or completely stops were avoided in operation as far as possible In this usual mode of operation, the lowering of the charge through the furnace shaft is counteracted by the pressure of the blower flow, which partially carries the charge. It has been shown that the deficiencies mentioned at the beginning occur when a phosphorus fan furnace is operated in the usual manner mentioned as it turned out, largely dadurc This eliminates the need for abandoning the usual conditions for furnace operation and modifying them in a direction that has hitherto been considered highly undesirable. According to the rule of thumb, the furnace operation is managed in such a way that a uniform lowering of the load (through the furnace shaft) is slowed and, on the contrary, the lowering of the chamber is interrupted at regular or irregular intervals -1) In some cases, what is important for the elimination of the defects mentioned, a completed compression is achieved in the furnace shaft, which is important for the elimination of the defects mentioned. ise (truclces recognizable, which are pre-set above and below the blower pressure Compression of the column of material ordered that one (read blower z temporarily stops, although other means can be used to achieve the same effect.

The compaction of the charge in the furnace shaft aimed for according to the present invention can be supported by using smaller grain sizes for the charge components than are currently customary. When operating a fan oven, it is common to use coke as fuel, the mean grain size of which is between 3 and 8.5 cm. When operating the furnace according to the present invention, it is advisable to use some or all of the fuel in the form of coke of smaller grain size, e.g. B. in a mean grain size between 2.5 and 3 cm, apply. The furnace design itself can undergo a change in operation according to the present invention, e.g. 73. in such a way that the inclination of the shaft walls is reduced or one in the lower part of the shaft above the stop. Provides furnace section which is essentially cylindrical, so that in this part the furnace wall has no incline at all or only a incline of negligible size.

The furnace shown in the drawing has such a device.

The oven hearth is denoted by the reference number 5 and the detent is denoted by 6, to which the shaft j connects to the top. Has in the furnace shown the lower part of the shaft marked with S is vertical @@ # <rode. The hell of this part of the shaft can suitably vary between 3 and 6 in.

The part of the shaft that lies above this cylindrical part and is marked Sa on the drawing widens slightly in the direction from top to bottom, in such a way that per meter height the radius decreases downwards by an amount which is approximately between 2.9 and;, 3 cm. It is advisable to keep the Schrügimg as low as possible. The hell of the shaft can fluctuate within wide limits, about 12 and 30 in, and the hell of the cylindrical feil 8 1a1111 about 3 and 5 in and is conveniently 1.5 in. Above the shaft is the furnace with a haplie 9 provided, which has a gas outlet io through which the furnace lawn, which contains the verified phosphorus, gel; lilgell on (in the drawing, not shown dust sanitizers. The cap 9 is also provided with a feed device, e.g. in the form of a bell-shaped funnel 11 tapering towards both ends.

The furnace is started up in the usual way with coke and slag, whereupon the shaft with mineral phosphate, siliceous Material and coal to reduce the phosphate as well as using coke as fuel in is charged in the required quantities. The mineral phosphate can be fine Be phosphate rock. This phosphate material is preferably used after Vermalilung into small briquettes with a cross-section of, for example, 3 to 5 square centimeters, in a mixture with kiesclsäürehaltigem 'material and pressed with coal, the silicic acid and carbonaceous material is added in an amount which is equal to or less is than the amount required to reduce the phosphorus in the phosphate material. Additional silica-containing material can be added to the Furnace shaft to be introduced to the desired ratio between lime and silica and thereby to achieve an easily melting slag. The relation between Lime and silica can fluctuate between 1:: o.6 and r: 1.2 during normal operation. The fuel is preferably given up as coke, the grain size being expedient is less than usual at tsebläseofenkolcs. The ratio of fuel coke to briquettes and silica is regulated so that the desired stove temperature is achieved. In normal operation, this requires an amount of coke that is between 6i and 7211], the amount of briquettes and silica varies. The loading and the fuel is given up in suitable quantities, as is usually the case, whereby the individual amounts of fuel coke can vary between 35oo and 100%, while the rest of the charge becomes allgc@ial.lt these amounts of coke.

In operating the furnace according to the present invention we (' the blowerilid in interstices, which are irregularly more regular can, but are advantageously regular, reduced or even completely switched off, the reduction or shutdown preferably by deflecting your stove happens. The reduction or shutdown of the blower isewlll (ICs takes place before during (' during furnace operation there was a significant drop in the charge in the furnace shaft has taken place.

The effect of tapping the blower wind is expressed in the fact that the envelope sinks down quickly and the '- \ lateri: ils @ ittle hereby considerably condensed. As already was mentioned above, this compression takes place The column of material is noticeable because of the higher wind pressures for furnace operation required than if the business was run in the normal way. For example was when a furnace was operated in the usual manner, with the column of material sank substantially uniformly in the shaft, the mean wind pressure about 0.94 kg / cm =. When operating the same furnace according to the method of the invention the pressure required for the blower wind is above 0.98 kg / cm = and in general between i, oi and i, o5 kg / cm =. There will be higher stove temperatures, in general over 16oo °, the greater liquid and lower phosphate content of the Cause slag as well as strong phosphorus evaporation. Recommended when operating the stove it itself, the damping of the fan and the compression of the material column in regular Periods of time, e.g. B. once every hour. When the fan stops takes place at this rate, then the charge remains in an oven as described above Kind of at rest during the blower period, and the median sinking of the column of material takes place almost exclusively when turning off or reducing the fan wind. The peeling the slag from the hearth is preferably done immediately or only a short time before steaming of the blower wind, so that with the sudden sinking of the column of material in the Oven there is not too much slag in the oven.

In establishing the furnace operation in accordance with the present invention there is a significant reduction in the amount of dust and smoke in the furnace gases, based on the amount of mineral phosphate treated, compared to that at the amount that has occurred up to now. For example, results in continuous sinking of the column of material generally about 0.12 to 0.2o kg of dust and smoke per kilogram of P = OS of the charge. If, on the other hand, the company of the furnace according to the invention is carried out with compression of the column of material the amount of dust and smoke resulting for each kilogram of P_OS of the charge only about 0.095 kg and even often goes down to 0.085 kg and even less and is of such delicacy that it is not found in ordinary dust-separating devices can be caught. The further reduction in these impurities achieved to i /, has the consequence, <let the purity de: phosphorus or phosphoric acid, which is won, nowhere near. in your .deichen measure by this very fine material is affected. There is also a considerable decrease of the phosphate contained in the slag. The total yield of phosphorus is increased and improved evaporation of the phosphorus is achieved.

Claims (5)

PATENT CLAIMS: i. Process for the production of phosphorus from phosphorus-containing minerals mixed with fuel by a reduction process carried out in the fan oven, characterized in that the charging of the fan oven is compressed during the combustion of its fuel component by briefly reducing the fan wind and thereby essentially immobile when the fan is in operation . Oven space is held that one chooses the time intervals of the individual wind throttles so that the downward movement of the charge is practically only interrupted, namely during the wind throttling. ': 2. Procedure according to claim i, characterized in that the furnace is charged with fine-particle material will. 3. The method according to claim i, characterized in that the charge of the furnace with coke with a grain size that is approximately between 2.5 and 3.5 cm and with ground phosphate mineral, which with silicic acid and finite carbonaceous material is bound together to form briquettes, the cross-section of which is approximately between 3.5 and 5.0 square centimeters. 4 .. Fan shaft furnace to carry out the Method according to claim i, characterized in that the immediately above the latch located shaft section is cylindrical in a manner known per se or has a negligible taper. 5. Furnace according to claim .4, characterized in that the wall of the main part of the furnace shaft, which adjoins the substantially cylindrical shaft section at the top, in the sense of an extension from top to bottom, is inclined in such a way that the shaft radius per meter Height decreases 2.9 to 7.3 cm towards the top.