DE1297633B - Wind shape for blast furnaces - Google Patents

Description

The invention relates to a tuyere for blast furnaces with a tubular Inner wall whose central axis extends essentially radially from the wall of the blast furnace extends inward and has wall parts inclined with respect to the central axis; the air outlet opening opposite at an angle different from 90 ° the central axis is inclined so that the lying in the horizontal central plane Wall parts on one side of the central axis are longer than on the opposite Page.

Such a form of wind that is used to introduce compressed air into a Serving blast furnace is known (U.S. Patent 2124 437). Because of this form of wind a swirl of the gas flow is to be achieved in the blast furnace, because the air does not flows in in the radial direction, but at an angle to it. With the known form of wind but the side walls of the wind form converge towards the outlet opening, so that the air is introduced into the blast furnace in a sharply focused jet. aside from that in this known form of wind, each section should be perpendicular to the central axis in all Directions are substantially symmetrical about the central axis, i. H. so, the cross-section the wind shape is at all points and therefore especially at the outlet opening essentially circular. As a result of this configuration of the wind shape, the deliberately sharp air currents emerging from the various forms of wind in the blast furnace bundled so that there are still dead zones in the furnace between the individual air jets exist in which a proper reaction cannot take place.

The invention is based on the object of eliminating these disadvantages and to direct the air jets not sharply bundled into the blast furnace, but rather on the contrary, to initiate them in such a way that they spread in a lateral direction and coat the full cross-section of the blast furnace to see the reactions in the blast furnace to improve.

This is achieved according to the invention in that the outlet opening has an elongated-flat shape, the longer major axis of which is essentially horizontal Center plane of the wind shape and its shorter minor axis arranged perpendicular to it is that the wall parts of different lengths lying in the horizontal central plane diverge towards the main axis of the outlet opening and that the shorter wall part diverges from the central axis at an angle greater than that Angle between the longer wall part and the central axis.

Since the outlet opening in the invention has an elongated shape and the side walls of the wind form diverge towards the outlet opening, the air jets entering the blast furnace when exiting the wind form in a thin layer spread wide, so that a perfect reaction at every point the cross-section of the blast furnace can take place. So there are in the rest of the The blast furnace no longer has any dead zones between the combustion zones in front of the individual Wind forms lie. This means that the amount of air that is introduced into the blast furnace can can be increased without the operating pressure having to be increased, and the initiated Air is fully used. As a result, the furnace becomes stable in operation created, and the composition of the gases formed in the blast furnace is improved. The use of the wind form designed according to the invention leads to improvements in almost every phase of normal blast furnace operation. It has been shown that one larger amount of iron in better quality with lower fuel consumption can be if with the help of the tuyeres according to the invention a larger amount of air is blown in. A higher throughput rate is also achieved, one lower temperature of the lining of the blast furnace and a longer service life of the Wind forms.

As mentioned above, in the case of the invention, the shorter wall part is opposite diverge from the central axis at an angle greater than the angle between the longer wall part and the central axis. This means that the shorter wall part always diverges away from the central axis, but that the longer wall part is parallel be to the central axis or slightly converge to the central axis or can diverge. This means that there is always a swirl of the gases in the blast furnace Direction of divergence of the shorter wall part.

In addition to the known form of wind mentioned above, there is still a whole A number of other types of wind are known. However, none of them show the features of the invention.

So shows z. B. "Stahl und Eisen" (79, 1959), pp. 430/431, converging Wind forms whose exit opening is perpendicular to the central axis, whose walls so have the same length all around. In addition, this pre-release shows a form of wind whose central axis is not directed radially towards the furnace. Consequently the outlet opening is inclined to a radial axis, but not opposite the central axis. Those in the horizontal plane or in the downward sloping one Wall parts lying in the middle plane have the same length. The exit opening is circular. Only the wall parts above and below have different lengths. These known wind shape is also not used to improve the reaction conditions or the work results of the blast furnace, but the shape shown there is selected, to increase the durability of the wind forms. The downward slope was provided so that the melted good runs off better and with it the upper part of the wind form has a shielding effect against goods coming from above. This wind shape is therefore based on a different object than the invention. A lateral divergence of the walls of the wind form in a substantially horizontal direction and an elongated one or flat outlet openings are not shown here, so that the invention is based lying task is not solved by the previously known wind shape.

The German patent specification 152 783 shows a wind shape with a elongated outlet opening, the longer main axis of which extends horizontally. This training serves a different purpose than in the invention, namely to Changing the clear cross-section of the nozzle openings during operation Adaptation to different operational requirements. For this purpose the inner Nozzle tube rotated around its longitudinal axis. Since the nozzle tube is also roughly elliptical Has exit cross-section, the size of the exit opening changes.

U.S. Patent 3,015,481 shows a form of wind through which the Reaction conditions in the oven by changing the air flow rate changed should be. This is done by inserting nozzles with different cross-sections in the mantle of the wind form. If an elongated outlet opening is used here its main axis is vertical. In addition, this also converges Walls known an elongated outlet opening which extends horizontally through but which the air flow is to be deflected upwards. Unless diverging side walls are provided, the exit cross-section is circular. The exit direction is exactly radial in each case.

The German patent specification 592 760 shows an elongated outlet opening, which extends essentially horizontally. However, the outlet opening is vertical to the central axis, and the walls converge to the exit opening. The initiated Wind is not spread sideways, but at most deflected downwards.

The German patent specification 522 179 shows an outlet opening perpendicular to the central axis with a circular cross-section with converging side walls, a recess being provided at the front end on the underside through which the air flow is to be directed downwards.

The USA patent specification 1873 996 shows an inclined outlet opening, but which has a circular shape. The walls converge towards the exit opening. This publication is based on the task of iron being melted by an additional jet of air to blow out of the wind form.

US Pat. No. 2,074,507 corresponds essentially to the German one Patent specification 522179. The side walls converge, the outlet opening is vertical and is circular with a slot at the bottom. This is used to melt the To remove iron or slag from the tuyere.

In a preferred embodiment of the invention, all of them run Wall parts of the inner wall continuously and in a straight line towards the outlet opening. This is not the case with the known wind shape according to US Pat. No. 2,124,437 Case from which the invention is based. Rather, the inner wall has a bend there, at which the air flow is deflected. This results in uncontrollable irregularities in the air stream. In addition, there is a higher energy consumption and higher manufacturing costs necessary. If the inner walls are continuous and straight, they are not required these disadvantages.

In a further development of the invention, the opposite Ends of the shorter minor axis of the outlet openings ending wall parts to the outlet opening converge towards. As a result, the air flow is sharply bundled in a vertical direction, so that it is flat, spreading evenly to the sides in a horizontal direction spreading layer is blown into the blast furnace.

If the wall parts ending at the opposite ends of the minor axis are of different lengths, so that the outlet opening is also opposite to the perpendicular Direction is inclined, it is possible that the airflow is not exactly horizontal Direction to blow, but slightly depending on the operating requirements distract up or down.

Embodiments of the invention are hereinafter based on the Drawing described. In these, FIG. 1 shows a perspective view of an embodiment of the invention, FIG. 2 the form of the wind according to FIG. 1 in a vertical section the line 2-2, seen in the direction of the arrows associated with that line, F i g. 3 the form of the wind according to FIG. 1 in a horizontal section along line 3-3, seen in the direction of the arrows associated with that line, F i g. 4 one Another embodiment of the invention in a vertical section along the line 4-4 the F i g. 5 and FIG. 5 the form of the wind according to FIG. 4 in a horizontal section after line 5-5 of FIG. 4th

F i g. 1 shows a tuyere 10 according to the invention that is generally tubular and is formed by the wall 12. This is made of copper or another for these purposes usual material.

The tuyere 10 has a rear wall 14 with which it is attached to the wall 33 of the blast furnace. This rear wall 14 contains an inlet opening 16 through which air enters the wind form. Both the rear wall 14 and the inlet opening 16 can be substantially circular.

The other end of the tuyere 10 forms an outlet opening 18 through which air is introduced into the blast furnace. According to the invention, the outlet opening 18 is elongated. It has a horizontal main axis 30 and a vertical minor axis 20. F i g. 2 shows the formation of the wind shape in a section in the direction of the secondary axis 20 of the outlet opening 18. In particular, FIG. 2 shows that the inner surfaces of the parts 22 and 24 of the wall 12 arranged at both ends of the minor axis are inclined obliquely inward from the rear wall 14 to the center line 25 of the wind form (angle y). F i g. 3 shows the design of the tuyere 10 in a section in the direction of the main axis of the outlet opening 18. The parts 26 and 28 of the wall 12 arranged at opposite ends of the main axis are of different lengths, so that the horizontal plane through the outlet opening 18 the center line 25 of the tuyere 10 cuts at an angle other than a right angle (angle E). This is in FIG. 3 shown. The wall part 26 can be referred to as the short wall part and the wall part 28 as the long wall part. The inner wall of the long wall part 28 is towards the center line 25 of the wind shape. 10 more or less parallel (angle ß). The inner surface of the short wall part 26 diverges (angle α) away from the center line 25 of the wind form, either from the rear wall 14 or from a point which is in the middle between the rear wall 14 and the outlet opening 18. The main axis 30 of the outlet opening 18 is thereby determined. The inner wall of the long wall part 28 can converge or diverge with respect to the center line of the wind form, viewed in the direction of the outlet opening, at an angle of up to about 15 °, which must be smaller than the angle at which the inner wall of the short one Wall portion 26 diverges from the center line. The angle by which the inner surface of the short wall portion 26 diverges from the centerline or from the inner surface of the long wall portion 28 is generally dependent on the size of the furnace and the number of tuyeres built into it.

The outlet opening 18 has an oblong-flat, oval, rectangular or any other desired shape. It has proven to be useful not to choose the minor axis larger than about 7011 / o of the major axis.

Between the inner and outer surfaces of the wall 12, the tuyere 10 can contain a cavity 32 5 through which a coolant, for example water, is circulated in order to cool the tuyere. In the preferred embodiment of the invention, the edges of the outlet opening 18 are rounded in order to improve the cooling effect of the circulated cooling means: A preferred embodiment of the invention has the following dimensions: Length of the minor axis 20 ......... 80 mm Length of the main axis 30 ......... 160 mm Angles ........................ 20 ° Length of the short wall part 26 .... 230 mm Length of the long wall part 28 ... 320 mm Angle ........................ 65 ° In the blast furnace wall 33, several tuyeres 10 are used in the same orientation. The rear wall 14 touches the cooling jacket, not shown, of the blast furnace wall. The wind forms can also be arranged in stages.

The F i g. 4 and 5 show a modified embodiment of the invention. Here the wall part 22 is longer than the wall part 24, so that the wall parts arranged at opposite ends of the secondary axis 20 converge towards the outlet opening 18 and the gas is directed downwards to the frame zone. In this way you get a more even gas and heat distribution in the rack, and the gases stay in the oven longer.

In the embodiment according to FIG. 4 is the angle d of the plane the outlet opening 18 opposite a normal to the center line of the wind shape 10 about 20 °. However, this angle can vary depending on the length of the wind shape and the gesture diameter can be changed.

With the wind shape according to the invention, the blast furnace works as a result of a lower operating pressure with higher stability and a hanging or falling occurs the gout occurs less often. Furthermore, the fluctuations of the wind pressure and the iron analyzes and the CO / CO 2 ratio in the light gas is decreased. It will also be a higher Utilization of the blast furnace gas, a higher throughput rate and lower Maintain temperatures of the lining of the shaft and the frame. The spreading of better quality iron increases with lower fuel consumption, though more wind is introduced with the help of the wind form according to the invention.

Claims (4)

Claims: 1. Wind shape for blast furnaces with a tubular inner wall, whose central axis extends essentially radially inwards from the wall of the blast furnace extends and has inclined wall parts with respect to the central axis, wherein the Air outlet opening at an angle different from 90 ° with respect to the central axis is inclined so that the wall parts lying in the horizontal central plane one side of the central axis is longer than on the opposite side, d a d u r c h e k e n n nz e i c h n e t that the outlet opening (18) is oblong-flat Has shape whose longer main axis (30) is essentially in the horizontal central plane (Section plane 3-3 or 5-5) of the wind form (10) and its shorter minor axis (20) is arranged perpendicular to it, that the lying in the horizontal central plane, wall parts (26, 28) of different lengths towards the main axis of the outlet opening diverge, and that the shorter wall part (26) relative to the central axis (25) below an angle (c11) diverges which is larger than the angle (ß) between the longer one Wall part (28) and the central axis. 2. Wind shape according to claim 1, characterized in that that all wall parts (22, 24, 26, 28) of the inner wall are continuous and straight run towards the outlet opening (18). 3. Wind shape according to claim 1 or 2, characterized characterized in that the at the opposite ends of the shorter minor axis (20) the outlet opening (18) ending wall parts (22, 24) towards the outlet opening converge (angle y). 4. Wind form according to claim 3, characterized in that the wall parts (22, 24) ending at opposite ends of the minor axis (20) are different are long so that the outlet opening (18) is inclined with respect to the vertical direction is (angle