PL27439B1 - A method of producing from weakly bloating solids with a highly porous structure and an apparatus for using the method. - Google Patents

Description

It is known that badly different species inflate to an unequal degree. The reason for these differences in the behavior of the baddies has so far been seen in the differences in chemical composition. On the other hand, however, the phenomenon of puffing was explained not by chemical processes, but by the circumstance that the steam generated by the contact of water and liquid slags permeates poorly liquid and makes them porous, or that due to chemical compounds In the presence of water vapor, hydrogen sulphide is formed in the presence of water vapor in the sulphate, which causes the formation of pores. It was unclear that water vapor did not penetrate the non-bloating species of badness, or that sulfur compounds, also contained in such species, did not lead to their puffing. In more recent times, however, it has been understood that the gases dissolving in the slags during the formation of these bad things, I play a role during the puffing-up phenomenon. They absorb gases badly in overpressure conditions, such as in a blast furnace. After the slurry has drained from the furnace, the gases are initially dissolved in the slag; in this state the zuzel is supersaturated with gases. During the process of puffing up, excess gas is released and fills the interior with steam. Confirmation of the correctness of such a translation can be found in the fact that the gas contained in the slags, as it turned out, contains about 80% nitrogen and about 15% carbon monoxide. There is also a known method of producing foamy slags by mixing them with gases, for example by dispersing hydrogen and carbon dioxide in molten tubes. Here, pores were to be formed as a result of the direct action of hydrogen sulfide, hydrogen and carbon dioxide. Mechanical means, such as, for example, mixing devices, served to mix the ingredients more thoroughly with each other, and thus, in a way, to churn the slurry into foam. In contrast to these methods, according to the invention, the gases are introduced into the liquid slags in the largest possible amounts. in order to supersaturate zuzla with gases. In this state, the bad ones remain as little foamy as before. However, due to the content of the gases dissolved in them, they begin to bloat using known methods and devices, namely when the gases are released from the solution. The saturation of the gases with gases does not by itself allow them to puff up. when they are badly supersaturated, they can give off gases, the gas content being reduced until badly saturated gases are obtained. However, the conditions for the existence of the bad saturation state can be changed in such a way that the same gas content corresponds to the super-saturation condition. The present invention also exploits these possibilities. According to the invention, weakly sluggish liquid liquids are introduced in close contact with gases soluble in them, while maintaining the conditions that allow to dissolve in the slags amounts of gases greater than the amount of remaining dissolved in the veins during the process of their swelling; temperature and pressure are the main conditions which may be subjected to change. It is deliberate to introduce the gas into the pipe under the appropriate pressure. Since they can dissolve more gas in themselves the closer they are to the solidification point, it is advisable to saturate them with gases at a relatively low temperature. The supersaturation state, needed to induce puffiness, can then be created, for example, by increasing the temperature rounds of badness or the way that the process of puffing up is induced in a vessel in which there is insufficiency. The heating of gas-saturated badly can be effected by means of fresh slags, delivered directly from the furnace, e.g. in such a way that is added to zuzla, gas-saturated, fresh hot zuzla. The absorption of gases by badly is better when they are poorly spread in thin layers, so that they come into contact with surrounding gases over a large surface. If, at the same time, bad ones are to cool down excessively and become pasty, they can be heated with blast furnace gases. The gases may also be blown through the wrongly in a separate vessel. In order to generate the necessary pressure in the vessel during this purging, the vessel must be provided with an outlet of a size which is sufficiently small in relation to the amount of gas blown in. Gases enrichment can also be effected in a chamber formed by a furnace pre-box which produces these badnesses. When selecting the gases to be dissolved in the veins, sufficient account can be taken of the chemical composition of these bad gases. It is not important, however, whether the gas dissolves directly, or whether chemical compounds are formed in the knots, not steadily under conditions where there is puffiness, and then decomposing with the simultaneous release of gases that were needed. to make these chemicals. The method of inducing the puffiness itself is therefore not relevant to the present invention. When water or steam is used, a certain cooling effect must be taken into account, as a result of which a layer of cohesive films, preventing the escape of gases, released from the slime, will be badly covered. It is also necessary to take into account the information obtained about the influence on the pore size of the durations of the puffing process or the cooling rate of the slag that should be used during this process. In order to facilitate the process of bloating, a known method of mixing them by producing vortices in the liquid veins can also be used. PL

Claims (8)

Patent claims. 1. A method of production from weakly puffing coagulated slags with a highly porous structure, characterized in that the slurry liquid before cooling it is saturated with completely soluble gases at a temperature lower than the boiling point of the slag and at a pressure higher than the pressure at which today the process of puffing up these bad guys. 2. The method according to claim The process of claim 1, characterized in that the bad, saturated gases, are heated before their puffing up to a temperature above which the release of dissolved gases from them begins. 3. The method according to p. 2, characterized in that the gas-saturated gases are heated badly by means of slags supplied from the furnace into which the gases have not yet been introduced, e.g. so that the hotter slugs, supplied from the furnace, are mixed with the slags, saturated gases. 4. The method according to p. A method as claimed in claim 1, characterized in that it spreads poorly in thin layers upon their possible heating, thus enabling contact of the glass with the surrounding gases over large surfaces. 5. The method according to p. The process as claimed in claim 1, characterized in that the gases dissolved in the slurry are blown therethrough in a separate vessel. 6. The method according to p. 1 - 3, characterized in that the puffing up process is carried out in a vessel in which there is a negative pressure. Device for applying the method according to claim 5. A method as claimed in claim 5, characterized in that it is formed of a vessel having a small outlet, selected such that when gases are blown through by a badly positive pressure. 8. Device modification according to claim 7. A method according to claim 7, characterized in that the vessel is made in the form of a furnace pre-chest from which the bad are derived. Buderus'sche Eisenwerke. Deputy: M. Skrzypkowski, patent attorney. Printing by L. Boguslawski and Ski, Warsaw. PL