Stave cooler for a metallurgical furnace and method for protecting a stave cooler

Abstract

A stave cooler for a metallurgical furnace includes a panel-like body having a front face for facing the interior of the metallurgical furnace, an opposite rear face, an upper face, an opposite lower face, and two side faces. At least one internal coolant passage is arranged within the panel-like body. The panel-like body is provided with a ledge on its front face extending between the side faces for being arranged in a horizontal plane. At least one protection element is provided for covering at least part of an upper face of the ledge. The protection element includes a first lateral portion, a second lateral portion, and a central portion. The lateral portions each include a widened front section and a narrow connection section. The panel-like body is provided with at least one through hole arranged for passing each of the lateral portions and the central portion of therethrough in turn.

Claims

1. A stave cooler for a metallurgical furnace comprising: a panel body having a front face for facing the interior of said metallurgical furnace, an opposite rear face, an upper face, an opposite lower face, and two side faces; at least one internal coolant passage arranged within said panel body; and a ledge on said front face, said ledge extending between said side faces for being arranged in a horizontal plane wherein at least one protection element covering at least part of an upper face of said ledge, wherein each protection element comprises a first lateral portion, a second lateral portion, and a central portion, the first lateral portion being a separate component than the second lateral portion; each of said first and second lateral portions having a widened front section and a narrow connection section, and wherein said panel body is provided with at least one through hole arranged for passing each of said first and second lateral portions and said central portion of said protection element therethrough in turn.

2. The stave cooler according to claim 1, wherein a plurality of protection elements are provided for covering said upper face of said ledge, said protection elements being arranged so as to cover essentially the whole width of the stave cooler.

3. The stave cooler according to claim 1, wherein each connection section of said first and second lateral portions has a cross-section narrowing in a direction away from said front section.

4. The stave cooler according to claim 1, wherein said through hole has a cross-section widening in direction of said rear face.

5. The stave cooler according to claim 1, wherein fixing means are provided for connecting said protection element to said panel body; said fixing means comprising: a wedge inserted in said through hole between said panel body and said protection element, and an end plate bridging said wedge and connected to said protection element.

6. The stave cooler according to claim 5, wherein said wedge is made of a double cone.

7. The stave cooler according to claim 5, wherein said fixing means comprises bolt or screw means for connecting said end plate to said protection element.

8. The stave cooler according to claim 1, wherein said front face comprises alternating retaining ribs and retaining grooves for retaining refractory material.

9. The stave cooler according to claim 1, wherein said panel body is made from a material selected from the group consisting of copper, copper alloy, steel, and steel alloy.

10. The stave cooler according to claim 1, wherein said protection element is made from an abrasion resistant material selected from the group consisting of steel, steel alloys, cast iron, and copper alloys or copper with hardfacing.

11. Metallurgical furnace comprising a plurality of stave coolers according to claim 1.

12. Method for protecting a ledge of a stave cooler having a panel body, wherein the method comprises providing said ledge with a protection element, wherein said method comprises the following steps: feeding a first lateral portion through a through hole arranged in said panel body of said stave cooler, said first lateral portion comprising a first widened front section and a first narrow connection section; sliding said first lateral portion transversally to its insertion direction; feeding a second lateral portion, being a separate component than the first lateral portion, through said through hole, said second lateral portion comprising a second widened front section and a second narrow connection section; sliding said second lateral portion transversally to its insertion direction; feeding a central portion through said through hole inbetween said first and second lateral portions; sliding said first and second lateral portions towards said central portion; feeding a wedge into slits created between said panel body and said protection element; and connecting an end plate to said protection element; said end plate bridging said wedge so as to form a tight form fit between said panel body and said protection element.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Preferred embodiments of the disclosure will now be described, by way of example, with reference to the accompanying drawings, in which:

(2) FIG. 1 is a schematic vertical cross-section through a portion of a stave cooler according to the disclosure;

(3) FIG. 2 is a horizontal cross-section through the stave cooler of FIG. 1 as seen from above;

(4) FIG. 3a to f is a schematic view of the assembly of a protection element of FIG. 1 in various installation sequences; and

(5) FIG. 4 is a cut through the protection element of FIG. 1.

DETAILED DESCRIPTION OF THE DRAWINGS

(6) Stave coolers are used to cover the inner wall of an outer shell of a metallurgical furnace, as e.g. a blast furnace or electric arc furnace. The object of such stave coolers is to form: (1) a heat evacuating protection screen between the interior of the furnace and the outer furnace shell; and (2) an anchoring means for a refractory or metallic brick lining, a refractory guniting or a process generated accretion layer inside the furnace.

(7) Referring now to FIG. 1, it will be noted that the stave cooler 10 has a panel-like body 12, which is e.g. made of a cast or forged body of copper, a copper alloy or steel. This panel-like body 12 (of which only a lower portion is shown in FIG. 1) has a front face 14, also referred to as hot face, which will be facing the interior of the furnace, and a rear face 16, also referred to as cold face, which will be facing the inner surface of the furnace shell. The panel-like body 12 generally has the form of a quadrilateral with a pair of long first and second edges and a pair of short upper and lower edges. Most modern stave coolers have a width in the range of 600 to 1300 mm and a height in the range of 1000 to 4200 mm. It will however be understood that the height and width of the stave cooler may be adapted, amongst others, to structural conditions of a metallurgical furnace and to constraints resulting from their fabrication process. The panel-like body 12 may be plane or curved such as to fit the curvature of the metallurgical furnace.

(8) The stave cooler 10 further comprises connection pipes 17 on the rear face 16 for circulating a cooling fluidgenerally waterthrough cooling channels (not shown in FIG. 1) arranged within the panel-like body 12.

(9) It will be noted that the front face 14 is subdivided by means of grooves 18 into lamellar ribs 20. Normally, the grooves 18 laterally delimiting the lamellar ribs 20 are machined into the panel-like body 12. These grooves 18 may however also be milled into the front face 14 of the panel-like body 12. When the stave cooler 10 is mounted in the furnace, the grooves 18 and lamellar ribs 20 are generally arranged horizontally. They form anchorage means for anchoring a refractory or metallic brick lining, a refractory guniting or a process generated accretion layer to the front face 14.

(10) According to the present disclosure, the stave cooler 10 is provided with at least one ledge 22 arranged on the front face 14 of the panel-like body 12 and protruding therefrom. Such a ledge 22 may, as shown in FIG. 1 be arranged along a lower edge of the panel-like body 12. It should however not be excluded to arrange such a ledge along an upper edge or even in a central region of the panel-like body 12. The ledge 22 may also be provided with a groove 24 for forming anchorage means similar to the grooves 18. The ledge 22 is advantageously formed in one piece with the panel-like body 12, thus ensuring adequate heat distribution within the panel-like body 12 through the continuity of material. It should however not be excluded to provide a ledge that is affixed to the panel-like body 12 by means of e.g. screws. One advantage of such affixed ledges would be the fact that they would be exchangeable. FIG. 1 also shows a portion of a furnace shell 26 to which the stave 10 is connected using connection means 28.

(11) According to the present disclosure, an upper face 30 of the ledge 22 is provided with a protection element 100. Such a protection element 100 is made from abrasive resistant material, such as steel, steel alloy, cast iron, copper alloy or copper with hardfacing, and protects the ledge 22 from erosion/abrasion by burden flowing through the furnace. The ledge 22 creates a stagnant zone above and below the ledge 22. Through this stagnant zone, the region of the stave cooler 10 above and below the ledge 22 is also protected from erosion. The protection element 100 does thus not only protect the ledge 22 from erosion, but also the region above and below that ledge. The whole stave cooler, or even stave cooler assembly, is therefore better protected against wear and its lifetime can be extended.

(12) The panel-like body 12 is provided with a through hole 31 extending from the rear face 16 to the front face 14 for feeding the protection element 100 therethrough. An opening 32, which is in alignment with the through hole 31, is also provided in the furnace shell 26 for feeding the protection element 100 therethrough. This allows the protection element 100 to be installed and removed from the outside of the furnace. The protection element 100 is secured in place by means of fixing means 34 accessed from the rear face 16 of the stave cooler 10. A damaged protection element 100 may be replaced with a new or refurbished one by undoing the fixing means 34 and retracting the protection element 100 through the panel-like body 12 and the furnace shell 26. The new or refurbished protection element 100 can then be installed.

(13) Referring now to FIG. 2, a cross-section through a stave cooler 10 can be seen as viewed from above. This stave cooler 10 has a panel-like body 12 with four cooling channels 36 and associated connection pipes 17 for feeding cooling fluid through the stave cooler 10. Also visible are four protection elements 100 covering the upper face 30 of the ledge. Essentially, the protection elements 100 are arranged so as to largely cover the whole of the upper face 30 of the ledge along essentially the whole width of the stave cooler. Also noticeable is the fact that the protection elements 100 broadly have a T-shaped cross-section with a head considerably larger than the through holes 31 through which the protection elements 100 are fed. The head of the T-shaped protection element 100 forms the protection part covering the upper face 30 of the ledge, while the leg of the T-shaped protection element 100 forms the connection part located within the through hole 31.

(14) The protection element 100, and especially the various parts constituting the protection element 100, will now be more closely explained by referring to FIGS. 3a to 3f, which show the installation sequence of a protection element 100.

(15) FIG. 3a shows a portion of a stave cooler 10 with a through hole 31 arranged through its panel-like body 12. As can clearly be seen, the through hole 31 is arranged inbetween two cooling channels 36. The cross-section of the through hole 31 widens in direction of the rear face 16 of the panel-like body 12, not only in order to facilitate insertion of the parts constituting the protection element 100, but also for aiding the fixing means 34 as will be seen later. In alignment with the through hole 31, the furnace shell 26 has an opening 32. A first constituting part of the protection element 100 is a first lateral portion 110 with a left-facing widened front section 112 and a narrow connection section 114. It will be noted that the first lateral portion 110 is narrower than the opening 32 or the through hole 31 such that it can be fed through these. Once the front section 112 of the first lateral portion 110 has passed through the through hole 31, the first lateral portion 110 is slid to the left with respect to the insertion direction represented by arrow 38 until the first lateral portion 110 is in the position shown in FIG. 3b.

(16) FIG. 3b shows a second constituting part of the protection element 100, which is a second lateral portion 120 with a right-facing widened front section 122 and a narrow connection section 124. It will be noted that the second lateral portion 120 is essentially a mirror image of the first lateral portion 110. Once the front section 122 of the second lateral portion 120 has passed through the through hole 31, the second lateral portion 120 is slid to the right with respect to the insertion direction represented by arrow 38 until the second lateral portion 120 is in the position shown in FIG. 3c.

(17) FIG. 3c then shows a third and final constituting part of the protection element 100: a central portion 130 is fed inbetween the first and second lateral portions 110, 120. Once the central portion 130 inserted, the first and second lateral portions 110, 120 are slid towards the central portion 130 to complete the protection element 100 as shown in FIG. 3d. The central portion 130 comprises, in its rear end, a threaded bore 132 for receiving a bolt or screw therein.

(18) As mentioned above, the cross-section of the through hole 31 widens in direction of the rear face 16 of the panel-like body 12. Furthermore, FIG. 3d also shows that the connection sections 114, 124 narrow in direction of the rear face 16. A narrowing slit is thereby formed between the through hole 31 and the connection part of the protection element 100. The fixing means 34 comprises a wedge 140 inserted into the narrowing slit so as to create a tight connection between the panel-like body 12 and the connection part of the protection element 100. Such a wedge 140 may be made in one single piece and may have the shape of a double cone.

(19) After insertion of the wedge 140, an end plate 150 bridging the wedge 140 is affixed to the central portion 130 of the protection element 100 by means of a bolt or screw 160 interacting with the treaded bore 132 as seen in FIG. 3e. As the screw 160 is tightened, the wedge 140 is pushed in the insertion direction 38 by the end plate 150, while the central portion 130 is pulled in the opposite direction. The wedge 140 is, through its wedge shape, creating tight lateral forces acting between the side walls of the through hole 31 and the connection portion of the protection element 100, thus firmly fixing the protection element 100 to the panel-like body 12.

(20) In FIG. 3f, the protection element 100 is shown in its fully installed position. After installation of the protection element 100, a cover 170 is connected, e.g. through welding, to the furnace shell 26 in order to close the opening 32 therein. A bolted flange can also be used to close the opening 32.

(21) In order to remove a protection element 100, first the cover 170 is removed and then the screw 160 and the end plate 150. Subsequently, the wedge 140 is removed before the parts of the protection element 100 are removed in reverse order to the sequence described above. Because of the deformation or deterioration caused to the protection elements, it may not be possible to remove the latter through the through hole 31. If this is the case, the protection element 100 may be pushed into the furnace to be destroyed therein. Once the protection element 100 has been removed, a new one can be installed.

(22) Finally, FIG. 4 shows cut through the protection element 110. While the upper face 30 of the ledge 22 may be planar, it may also, as shown, have a wavy surface with the protection element 110 having a complementary shape. This ensures that the protection element 110 is correctly aligned and installed on the ledge 22.