DE1188097B - Process for oil cooling, in particular the wind and slag forms of blast furnaces or similar metallurgical furnaces - Google Patents

Description

Process for oil cooling, in particular the wind and slag forms of blast furnaces or similar metallurgical furnaces The invention relates to a method for oil cooling, especially the wind and slag forms of blast furnaces or similar metallurgical furnaces. The object to be solved with the subject matter of the invention is mainly seen therein, the cooling oil for carrying out a process that is common in blast furnaces to apply or to replace the means necessary for this process in order to thereby to achieve a simplification.

As is well known, the effect of leaking water-cooled wind and slag forms from blast furnaces destroying water entering the furnace the furnace lining, especially on carbon-containing masonry. So it has been observed how cavities, gutters, channels and the like are formed in the lining masonry, in which the liquid metal can penetrate, reducing the risk of the metal breaking out is increased significantly from the furnace vessel. Furthermore, things can get into the oven Water cause oxyhydrogen gas explosions, which mainly occur when the metal bath reaches a water-cooled form and destroys it, being through direct contact From cooling water with liquid metal, oxyhydrogen gases are generated, which ignite immediately and burn explosively, often with devastating effects.

In addition to these evils, there are still difficulties to be overcome, which come from the cooling water itself. For example, precautions must be taken against the effect of corrosion of the water are taken by a specially designed for making the molds Corrosion-resistant, expensive material, predominantly copper, is used. Further it is necessary to counteract deposits caused by organic deposits carried along by the water and inorganic constituents can arise and which significantly reduce the cooling effect affect. It is therefore common practice to purify the cooling water, which in turn is associated with a corresponding effort.

With regard to the defects inherent in a water cooling system, proposed a mixture for cooling the slag and tuyeres in blast furnaces of sodium nitrite and potassium apply, which have a relatively low melting temperature from about 140 to 150 ° C and within the temperature range of the blast furnace cooling system is liquid, but has little or no tendency to evaporate. This coolant should have all the advantages of a water-cooled cooling system without but to have its disadvantages. In particular, the cooling should be the most necessary parts of the molds, there is no evaporation of the coolant mixture, so that the cooling is not interrupted. This is also well known Process the formation of oxyhydrogen gas that occurs when water is used as a coolant largely eliminated, but wear occurs when a mold breaks the blast furnace masonry is all the more apparent since the alkalis in the coolant a low-melting silica-aluminum compound with the silica and aluminum of the chamotte form so that the stones are melted after a short time.

There are also hot cooling known, which act so that water with Boiling temperature is sent through the cooling elements or molds, whereby the cycle is under pressure, but there are limits to this due to the design of the shape. The use of two-component hot cooling has therefore been proposed in which the heat absorbed by a special coolant in the molds, which at low Pressure has a high saturated steam temperature, in one designed for the highest pressures Boiling water is removed from the boiler drum by heating coils. Come with it as a coolant, because of the favorable course of its vapor pressure curve, among other things various oils are also in question, which do not have any detrimental effects when a mold leaks Exert influences on the furnace corridor and on the furnace masonry. With this cooling system however, the oils only serve to dissipate heat from the oven molds.

The object set at the beginning is essentially achieved according to the invention in that the oils used as coolants for the cooling elements simultaneously serve as injection agents to improve the reduction in the furnace. In this way, a single substance is used as a coolant and injection medium, so that no additional injection medium and injection devices are required. Furthermore, there are advantages for the reduction process itself, since preheated oil gets into the furnace, whereby the heat requirement for the transformation of the oil, which is lost from the heat supply inside the furnace, is reduced. Outside which the oil due to its slightly liquid state can better inject.

A particularly advantageous possibility of injecting the oil is according to of the invention to be seen in the fact that the amount of oil used for cooling is wholly or partly through nozzles, bores or the like provided in the cooling elements Oven can enter, which can be done with a minimum of effort. The desired amount of influence of the oil is determined by the appropriate choice of the outflow cross-section and pressure adjustable.

In some cases it is conceivable that the preheated in the cooling elements Oil is transformed by a reactor associated with the furnace before it is injected.

Otherwise, the method according to the invention is of course limited not exclusively for use on wind and slag molds, but leaves z. B. also transferred to the cooling boxes of the oven, preferably to those located in an oven area where water leaks will damage masonry cause or conjure up dangers. Finally there is the possibility Cooling elements that are cooled according to the new method, now also in places of the furnace, where the use of elements through which water flows a means too great a risk, e.g. B. in the vicinity of the tap. So far, you have as a minor evil a high wear of the masonry accepted than himself to expose the hazards associated with a water-cooled cooling element.

To explain the invention, the following description and the drawing, the F i g. 1 shows a schematic representation of a section through a blast furnace, while FIG. 2 and 3 also show schematically and in section oil-cooled forms. In the drawing, 1 denotes the shaft of a blast furnace, 2 the hot blast ring line, from which nozzle assemblies 3 lead away, which open into nozzles 4, which in turn are surrounded by tuyeres 6 arranged in the shaft wall 5 of the furnace. The tapping is denoted by 7 , while the slag mold, through which the slag is removed from the furnace, bears the reference number 8.

Both the wind mold 6 and the slag mold 8 are cooled by oil according to the proposal of the invention. Here, at least one tuyere can be used to inject the oil into the interior of the furnace, in which case, as shown in FIG. 2 it can be seen, on the inner end wall 9 of the mold 10, for example, bores 11 can be provided through which the oil from the cooling chamber 12 enters the furnace. In Fig. 3 illustrates a further possibility for injecting the oil, namely a nozzle lance 15 is passed there through the cooling space 13 of the mold 14, which opens into the furnace at 16 and through which the oil is introduced into the furnace.

The result of the use of oil as a cooling medium compared to water given lower cooling effect can by correspondingly increased throughput from Cooling medium are compensated. It is also possible to have a cooler in circulation installed in order to achieve an intermediate cooling of the oil. It is also conceivable that the cooling oil is mixed with a substance that absorbs the heat of the oil and thus the cooling effect is favored.

Claims (3)

Claims: 1. Method for oil cooling, in particular the wind and slag forms from high-level or similar metallurgical furnaces, characterized in that the oils used as coolants also act as injections for improvement serve the reduction conditions in the furnace. 2. The method according to claim 1, characterized in that a partial amount or the whole amount of the oil used for cooling is injected into the furnace through at least one bore (13) or the like provided in a cooling element (12). 3. The method according to claims 1 and 2, characterized characterized in that the oil preheated in the cooling elements prior to its injection is reshaped in a reactor assigned to the furnace. Considered publications: German Patent No. 439,935; German interpretative document No. 1029 018; U.S. Patent No. 2,275,515; "Stahl und Eisen", 77 (1957), pp. 1126 to 1135.