EP3540081B1 - Plattenkühlerschutzsystem - Google Patents

Plattenkühlerschutzsystem Download PDF

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Publication number
EP3540081B1
EP3540081B1 EP18161931.3A EP18161931A EP3540081B1 EP 3540081 B1 EP3540081 B1 EP 3540081B1 EP 18161931 A EP18161931 A EP 18161931A EP 3540081 B1 EP3540081 B1 EP 3540081B1
Authority
EP
European Patent Office
Prior art keywords
segments
stave
recess
retainer
recesses
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
EP18161931.3A
Other languages
English (en)
French (fr)
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EP3540081A1 (de
Inventor
James Atkinson
Ian James Mcdonald
David Osborne
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Primetals Technologies Ltd
Original Assignee
Primetals Technologies Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Publication date
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First worldwide family litigation filed litigation Critical https://patents.darts-ip.com/?family=61683626&utm_source=google_patent&utm_medium=platform_link&utm_campaign=public_patent_search&patent=EP3540081(B1) "Global patent litigation dataset” by Darts-ip is licensed under a Creative Commons Attribution 4.0 International License.
Application filed by Primetals Technologies Ltd filed Critical Primetals Technologies Ltd
Priority to EP22157392.6A priority Critical patent/EP4043589B1/de
Priority to EP18161931.3A priority patent/EP3540081B1/de
Priority to KR1020207026129A priority patent/KR20200132867A/ko
Priority to PCT/EP2019/056290 priority patent/WO2019175245A1/en
Priority to JP2020549025A priority patent/JP7237977B2/ja
Priority to CN201910197902.1A priority patent/CN110273034B/zh
Priority to CN201920329994.XU priority patent/CN210826223U/zh
Publication of EP3540081A1 publication Critical patent/EP3540081A1/de
Publication of EP3540081B1 publication Critical patent/EP3540081B1/de
Application granted granted Critical
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Classifications

    • CCHEMISTRY; METALLURGY
    • C21METALLURGY OF IRON
    • C21BMANUFACTURE OF IRON OR STEEL
    • C21B7/00Blast furnaces
    • C21B7/10Cooling; Devices therefor
    • CCHEMISTRY; METALLURGY
    • C21METALLURGY OF IRON
    • C21BMANUFACTURE OF IRON OR STEEL
    • C21B7/00Blast furnaces
    • C21B7/02Internal forms
    • CCHEMISTRY; METALLURGY
    • C21METALLURGY OF IRON
    • C21CPROCESSING OF PIG-IRON, e.g. REFINING, MANUFACTURE OF WROUGHT-IRON OR STEEL; TREATMENT IN MOLTEN STATE OF FERROUS ALLOYS
    • C21C5/00Manufacture of carbon-steel, e.g. plain mild steel, medium carbon steel or cast steel or stainless steel
    • C21C5/28Manufacture of steel in the converter
    • C21C5/42Constructional features of converters
    • C21C5/46Details or accessories
    • C21C5/4646Cooling arrangements
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F27FURNACES; KILNS; OVENS; RETORTS
    • F27BFURNACES, KILNS, OVENS, OR RETORTS IN GENERAL; OPEN SINTERING OR LIKE APPARATUS
    • F27B1/00Shaft or like vertical or substantially vertical furnaces
    • F27B1/10Details, accessories, or equipment peculiar to furnaces of these types
    • F27B1/24Cooling arrangements
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F27FURNACES; KILNS; OVENS; RETORTS
    • F27BFURNACES, KILNS, OVENS, OR RETORTS IN GENERAL; OPEN SINTERING OR LIKE APPARATUS
    • F27B3/00Hearth-type furnaces, e.g. of reverberatory type; Tank furnaces
    • F27B3/10Details, accessories, or equipment peculiar to hearth-type furnaces
    • F27B3/24Cooling arrangements
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F27FURNACES; KILNS; OVENS; RETORTS
    • F27DDETAILS OR ACCESSORIES OF FURNACES, KILNS, OVENS, OR RETORTS, IN SO FAR AS THEY ARE OF KINDS OCCURRING IN MORE THAN ONE KIND OF FURNACE
    • F27D1/00Casings; Linings; Walls; Roofs
    • F27D1/0003Linings or walls
    • F27D1/0033Linings or walls comprising heat shields, e.g. heat shieldsd
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F27FURNACES; KILNS; OVENS; RETORTS
    • F27DDETAILS OR ACCESSORIES OF FURNACES, KILNS, OVENS, OR RETORTS, IN SO FAR AS THEY ARE OF KINDS OCCURRING IN MORE THAN ONE KIND OF FURNACE
    • F27D1/00Casings; Linings; Walls; Roofs
    • F27D1/12Casings; Linings; Walls; Roofs incorporating cooling arrangements
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F27FURNACES; KILNS; OVENS; RETORTS
    • F27DDETAILS OR ACCESSORIES OF FURNACES, KILNS, OVENS, OR RETORTS, IN SO FAR AS THEY ARE OF KINDS OCCURRING IN MORE THAN ONE KIND OF FURNACE
    • F27D9/00Cooling of furnaces or of charges therein
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F27FURNACES; KILNS; OVENS; RETORTS
    • F27DDETAILS OR ACCESSORIES OF FURNACES, KILNS, OVENS, OR RETORTS, IN SO FAR AS THEY ARE OF KINDS OCCURRING IN MORE THAN ONE KIND OF FURNACE
    • F27D9/00Cooling of furnaces or of charges therein
    • F27D2009/0002Cooling of furnaces
    • F27D2009/0018Cooling of furnaces the cooling medium passing through a pattern of tubes
    • F27D2009/0032Cooling of furnaces the cooling medium passing through a pattern of tubes integrated with refractories in a panel
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F27FURNACES; KILNS; OVENS; RETORTS
    • F27DDETAILS OR ACCESSORIES OF FURNACES, KILNS, OVENS, OR RETORTS, IN SO FAR AS THEY ARE OF KINDS OCCURRING IN MORE THAN ONE KIND OF FURNACE
    • F27D9/00Cooling of furnaces or of charges therein
    • F27D2009/0002Cooling of furnaces
    • F27D2009/0045Cooling of furnaces the cooling medium passing a block, e.g. metallic

Definitions

  • the present invention relates to a stave protection system for a metallurgical furnace, for example a blast furnace.
  • a conventional blast furnace comprises several sections and components including a stack, belly, bosh, tuyere, hearth and taphole.
  • the internal shell of the blast furnace may be protected with water-cooled cooling plates, called staves, which protect the shell from overheating during the reduction process taking place within the furnace.
  • staves are typically constructed from copper or copper alloy although other materials may be used, for example steel or cast iron.
  • the staves can be susceptible to abrasive wear from the solid raw materials charged into the furnace as they make their descent through the furnace. Coke in particular is very abrasive. In some circumstances the severity of the wear has resulted in the requirement to replace the staves before their planned service life has completed. This is costly due to furnace downtime. It is therefore important to design staves to resist wear so as to prolong service life.
  • a refinement of this concept has been the addition of a front-face protective material or cladding, which is harder than the copper base material but which still allows a protective accretion layer to form by freezing on the face.
  • This has been achieved using a combination of silicon carbide and graphite bricks, as illustrated in Figure 2 which shows a copper stave and a cross-section thereof.
  • WO2009/147192 describes a stave having a front face comprising ribs and grooves which form anchorage means for anchoring a refractory brick lining, a refractory guniting or a process generated accretion layer to the face.
  • Metal inserts are provided in the grooves, as is illustrated schematically in Figure 3 .
  • the metal inserts cover the sidewalls of the ribs to protect the ribs from erosion. Possible problems with this solution however are that the metal inserts may be prone to distortion and/or buckling, and by using a less conductive material than that of the stave body (when copper) there is a reduced thermal performance of the stave which can impact the freezing of a protective accretion layer.
  • a stave protection system for a metallurgical furnace comprising: a stave comprising a plurality of recesses arranged on a front face of the stave; and a plurality of inserts each being received by a respective one of the recesses, the inserts so received projecting from the front face of the stave such that, in use, furnace burden material is trapped by the inserts so as to provide a protective layer of the burden material on the front face of the stave, wherein each insert comprises a set of segments and a retainer which forces the segments against a surface of the respective recess, such that the segments are secured in the recess by frictional contact with the surface of the recess.
  • the retainer comprises an inner part and an outer part; at least one of the segments, defining a first subset of the set of segments, is secured in the recess by the inner part; at least one of the segments, defining a second subset of the set of segments, is secured in the recess by only the outer part, so that in use: removal of the inner part of the retainer, by an erosive effect of the burden material thereon, releases the first subset such that burden material may occupy that portion of the recess which is vacated by the first subset; and removal of the outer part of the retainer, by an erosive effect of the burden material thereon, releases the second subset such that burden material may occupy that portion of the recess which is vacated by the second subset, the stave protection system further comprising a locator element which is configured to locate the first subset of the set of segments in the recess, the locator element being configured to support the inner and outer parts of the retainer.
  • the inserts provide a cladding for the front face (or hot face) of the stave which encourages a protective layer of furnace burden material to form on the front face.
  • the inserts are attached to the recesses by means of friction only, thereby avoiding any need to modify the surface of the front face in order to attach the inserts.
  • blast material refers to one or both of (i) iron-bearing materials in the blast furnace, for example iron-ore or iron-ore pellets, and (ii) blast furnace slag, i.e. slag which is formed when iron-ore or iron pellets, coke and a flux (e.g. limestone or dolomite) are melted together in the blast furnace and then solidified.
  • iron-bearing materials in the blast furnace for example iron-ore or iron-ore pellets
  • blast furnace slag i.e. slag which is formed when iron-ore or iron pellets, coke and a flux (e.g. limestone or dolomite) are melted together in the blast furnace and then solidified.
  • the retainer comprises an inner part and an outer part; at least one of the segments, defining a first subset of the set of segments, is secured in the recess by the inner part; at least one of the segments, defining a second subset of the set of segments, is secured in the recess by only the outer part, so that in use: removal of the outer part of the retainer, by an erosive effect of the burden material thereon, releases the second subset such that burden material may occupy that portion of the recess which is vacated by the second subset; and removal of the inner part of the retainer, by an erosive effect of the burden material thereon, releases the first subset such that burden material may occupy that portion of the recess which is vacated by the first subset.
  • the stave protection system comprises as well a locator element which is configured to locate the first subset of the set of segments in the recess.
  • the locator element may be configured to support the inner and outer parts of the retainer.
  • Each one of the recesses may have a hexagonal shape and the set of segments may comprise six segments which are arranged in a hexagon to complement the respective recess.
  • the first subset of the set of segments may comprise four segments and the second subset of the set of segments may comprise two segments.
  • the segments and/or the retainer of each insert may comprise an abrasion resistant refractory material.
  • the abrasion resistant refractory material may comprise silicon carbide or alumina.
  • the segments and/or the retainer of each insert may comprise a metallic material.
  • the metallic material may comprise copper, copper alloy, steel, or cast iron.
  • Each one of the segments may be separated from an adjacent segment by a gap.
  • a metallurgical furnace stave body comprising: a front face, a rear face, and edges which connect the front and rear faces; at least one cooling passage which extends through the body; and a plurality of discrete recesses arranged on the front face, at least one of the recesses being surrounded by a portion of the front face, so that in use furnace burden material is received and retained by the recesses to provide a protective layer of the burden material on the front face.
  • the recesses may be formed by machining the front face.
  • the stave body may be a casting.
  • the stave body may be constructed from copper, copper alloy, steel, or cast iron.
  • the recesses may have a hexagonal shape.
  • One or more of the recesses may be configured to receive a protruding insert for trapping furnace burden material.
  • the recesses may be arranged in a uniform pattern.
  • the uniform pattern may comprise an array having rows and columns.
  • the stave body may have the same bending stiffness in a first direction and a second direction which is perpendicular to the first direction.
  • the recesses have a hexagonal shape and are arranged in an array having rows and columns, thereby providing a honeycomb pattern of the recesses.
  • the honeycomb pattern endows the stave body with an inherent stiffness and the stave body will tend to have more uniform stiffness than a conventional grooved stave of the kind shown in Figure 1 .
  • a rectangular cooling plate or stave 100 comprises a front face (or hot face) 102, a rear face 104, and edges 106a-d.
  • the stave 100 is intended to be one of a plurality of similar staves for use in a blast furnace.
  • the stave 100 is constructed from copper alloy.
  • Alternative materials include, but are not limited to, copper, steel, and cast iron.
  • the stave has a length of about 1.5 m, a width of about 1.0 m, and a thickness of about 120 mm.
  • the interior of the stave 100 comprises water-cooling passages (not shown).
  • the stave 100 body is otherwise generally solid.
  • a plurality of recesses 110 is formed in the front face 102 of the stave 100.
  • the recesses 110 are formed by machining. Alternatively the recesses 110 may be formed by casting.
  • Each one of the recesses 110 comprises a base or floor 110a and a wall 110b.
  • the floor 110a is flat such as to be parallel with the front face 102 of the stave 100.
  • each of the recesses 110 has a width of about 165 mm at the opening and a depth (from the opening to the floor 110a) of about 45 mm. In other embodiments the depth may be about 35 to 55 mm.
  • each recess 110 has a taper such as to be convergent between the floor 110a and the opening of the recess 110 at the front face 102. Accordingly the cross-sectional area of the recess 110 is greater at the floor 110a than at the opening.
  • the recesses 110 are discrete recesses. That is, each one of the recesses 110 is separated from all of the other recesses 110 by the material of the body of the stave 100. Thus the recesses 110 may be regarded as pockets in the stave 100, each of the pockets being isolated from the rest of the pockets.
  • a majority of the recesses 110 are entirely surrounded at their openings by a portion of the front face 102 (the few exceptions being those recesses 110 which are located at the edges of the stave 100). In other words, the majority of the recesses 110 are each bounded and defined by an endless perimeter.
  • each of the recesses 110 extends across only a small portion or fraction of the front face 102 of the stave 100; none of the recesses 110 extends across the entirety of the length or width of the front face 102.
  • the recesses 110 are arranged in a pattern, more particularly a uniform pattern, more particularly still an array.
  • the rectangular stave has the same bending stiffness in the longitudinal (lengthwise Y) direction as the transverse (widthwise X) direction.
  • the array of recesses 110 comprises 15 (horizontal) rows and four (vertical) columns.
  • the array may comprise a different number of rows and columns, for example as many as 20 rows and 5 columns.
  • the recesses are hexagonal (in frontal view) such as to form a honeycomb pattern.
  • one or more of the recesses 110 may take other shapes, including but not limited to a circle, a triangle, a rectangle including a square, a pentagon, a heptagon, or an octagon.
  • inserts 200 are installed in the recesses 110 of the stave 100.
  • the stave 100 and the inserts 200 comprise a stave protection system.
  • Each of the inserts 200 comprises a plurality of component pieces or segments, there being six segments 202a-f per insert 200 in this embodiment.
  • the segments 202a-f are arranged around a central axis Z of the respective recess 110, the central axis Z being perpendicular to the front face 102 of the stave 100.
  • each of the segments 202a-f comprises silicon carbide.
  • the segments 202a-f may comprise cast iron or steel.
  • Each insert 200 further comprises a retainer which in this embodiment includes an inner part 204 and an outer part 206.
  • each of the inner part 204 and the outer part 206 of the retainer comprises steel.
  • the inner part 204 and the outer part 206 may comprise silicon carbide.
  • the insert 200 also comprises a locator piece 208.
  • the locator piece 208 comprises steel.
  • the locator piece 208 may comprise silicon carbide.
  • each of the inserts comprises a number of component parts and may be regarded as an assembly of those parts.
  • the parts of the insert 200 will now be described in more detail with particular reference to Figures 6a-d .
  • the locator piece 208 comprises generally flat upper and lower surfaces 208a, 208b which are parallel with each other and are connected by a peripheral wall 208c.
  • the wall 208c is convex and furthermore is divergently tapered from the upper surface 208a to the lower surface 208b.
  • the wall 208c is perpendicular to the upper and lower surfaces 208a, 208b such that the side parts 208e are flat.
  • the locator piece 208 also comprises an upstanding stem 208f.
  • the outer part 206 of the retainer comprises a circular body having generally flat upper and lower surfaces 206a, 206b, which are parallel with each other and are connected by a peripheral wall 206c which is convergently tapered from the upper surface 206a to the lower surface 206b.
  • the outer part 206 of the retainer is a (shallow) frustrum of a cone.
  • the outer part 206 also comprises a central through-hole 206d which is sized to snugly receive the upstanding stem 208f of the locator piece 208.
  • the inner part 204 of the retainer comprises a body which is shaped similarly to a portion of the outer part 206, such that the inner part 204 comprises generally flat upper and lower surfaces 204a, 204b which are parallel with each other and are connected by a peripheral wall 204c which is convergently tapered from the upper surface 204a to the lower surface 204b.
  • the inner part 204 differs from the outer part 206 however in that a segment of the circle (i.e. of the outer part 206) is absent such that the inner part 204 forms a D shape.
  • the inner part 204 includes a flat edge 204d which is perpendicular to the upper and lower surfaces 204a, 204b.
  • the inner part 204 also comprises a central through-hole 204e which is sized to snugly receive the upstanding 208f stem of the locator piece 208.
  • an exemplary segment 202a comprises generally flat upper and lower surfaces 202a1, 202a2 which are connected by a peripheral wall.
  • the peripheral wall comprises inner and outer faces 202a3, 202a4 which are connected by two side faces 202a5.
  • the outer face 202a4 is shaped to complement the tapered wall 110b of the recess 110 of the stave 100.
  • the side faces 202a5 are generally flat and are configured to abut similar side faces of adjacent segments.
  • the inner face 202a3 comprises a radius which corresponds to the radii of the peripheral walls 204c, 206c of each of the inner and outer parts 204, 206 of the retainer.
  • a lower portion of the inner face 202a3 is provided with a shallow undercut 202a6 which extends to the lower surface 202a2.
  • the undercut 202a6 is concavely shaped to complement the convex wall 208c of one of the end parts 208d of the locator piece 208.
  • Another portion of the inner face 202a3, which extends between the undercut 202a6 and the upper surface 202a1, is shaped to complement the sloping peripheral walls 204c, 206c of each of the inner and outer parts 204, 206 of the retainer.
  • An apex 202a7 separates the lower portion of the inner face 202a3 (which is provided with a shallow undercut 202a6 which extends to the lower surface 202a2) from the other portion of the inner face 202a3 (which extends between the undercut 202a6 and the upper surface 202a1).
  • the stave 100 is most conveniently first arranged in a horizontal position for the purpose of installation of the insert 200. That is, the front face 102 will lie in the horizontal plane. It will be understood that in this position the central axis Z of the recess 110 will extend vertically from the front face 102.
  • the locator piece 208 is placed upright in the recess 110, such that the lower surface 208b of the locator piece 208 rests on the floor 110a of the recess 110. Initially the locator piece 208 is laterally offset from the four segments 202c-f.
  • the locator piece 208 is then slid over the floor 110a of the recess 110, through an opening between the exposed side faces of the endmost segments 202c, 202f, and is rotated into position between the two endmost segments 202c, 202f such that the convex peripheral wall 208c of each one of the end parts 208d of the locator piece 208 is brought into contact with a respective one of the complementary concave undercuts 202c6, 202f6 of the two endmost segments 202c, 202f. In this position the stem 208f of the locator piece 208 is coincident with the central axis Z of the recess 110.
  • the locator piece 208 exerts an outward radial force on the two endmost segments 202c, 202f to hold those segments 202c, 202f - and thereby also the two innermost segments 202d, 202e - snugly in place against the wall 110b of the recess 110.
  • the inner part 204 of the retainer is briefly positioned over a central (partial) hole which is formed by the four segments 202c-f.
  • the inner part 204 is oriented with its upper surface 204a uppermost, the through-hole 204e being coincident with the axis Z of the recess 110.
  • the curved, sloping peripheral wall 204c of the inner part 204 overlies the inner faces 202c3-202f3 of the four segments 202c-f and the flat edge 204d of the D-shaped inner part 204 overlies one of the flat side parts 208e of the locator piece 208.
  • the inner part 204 of the retainer is then lowered so that the through-hole 204e is passed over the upstanding stem 208f of the locator piece 208.
  • the stem 208f serves as a guide for the inner part 204 during its descent between the segments 202c-f.
  • the inner part 204 is pressed downwardly (e.g. by hand or with the use of a suitable pressing tool) until the lower surface 204b of the inner part 204 comes into contact with the upper surface 208a of the locator piece 208. In this position a radial force is transmitted from the curved, sloping peripheral wall 204c of the inner part 204 to the curved, sloping inner face 202c3-202f3 of each one of the four segments 202c-f. This causes the four segments 202c-f to be displaced outwardly of the central axis Z so that the outer faces 202c4-202f4 of the four segments 202c-f are pressed against the wall 110b of the recess 110.
  • the four segments 202c-f are driven against the wall 110b of the recess 110 and are effectively squeezed between the inner part 204 of the retainer and the wall 110b. In this way the four segments 202c-f are fully secured in the recess 110 by the inner part 204 of the retainer.
  • the four segments 202c-f which are secured in the recess 110 by the inner part 204 of the retainer, form a first subset S1 of the set of six segments 202a-f of the insert 200, as will be further explained later herein.
  • the two segments 202a, 202b are positioned such that one side face 202a5, 202b5 of each of the two segments 202a, 202b is adjacent to a side face 202a5, 202b5 of the other of the two segments 202a, 202b, while the other side face 202a5, 202b5 is adjacent to a side face 202c5, 202f5 of one of the adjacent segments 202c, 202f.
  • the outer face 202a4, 202b4 of the peripheral wall of each of the two segments 202a, 202b is in abutment with the wall 110b of the recess 110.
  • the six segments 202a-f fully surround the central axis Z of the recess 110 so as to form a hexagon.
  • the outer part 206 of the retainer is briefly positioned over the central hole which is formed by the six segments 202a-f.
  • the outer part 206 is oriented with its upper surface 206a uppermost, the through-hole 206d being coincident with the axis Z of the recess 110.
  • the curved, sloping peripheral wall 206c of the outer part 206 overlies the inner faces 202a3-202f3 of the six segments 202a-f.
  • the outer part 206 of the retainer is then lowered so that the through-hole 206d is passed over the upstanding stem 208f of the locator piece 208.
  • the stem 208f serves as a guide for the outer part 206 during its descent between the segments 202a-f.
  • the outer part 206 is pressed downwardly (e.g. by hand or with the use of a suitable pressing tool) such that the curved, sloping peripheral wall 206c of the outer part 206 is brought into contact with the curved, sloping inner face 202a3-202f3 of each one of the six segments 202a-f. In this position there exists a small gap (not visible in Figure 7e ) between the lower surface 206b of the outer part 206 and the upper surface 204a of the inner part 204 of the retainer.
  • the two segments 202a, 202b are driven against the wall 110b of the recess 110 and are effectively squeezed between the outer part 206 of the retainer and the wall 110b.
  • the four segments 202c-f of the first subset S1 of segments are also secured in the recess 110 by the outer part 204 in the same manner. In this way the six segments 202a-f are fully secured in the recess 110 by the outer part 206 of the retainer.
  • the two segments 202a, 202b which are secured in the recess 110 by only the outer part 206 of the retainer (i.e. not also by the inner part 204) form a second subset S2 of the set of six segments 202a-f of the insert 200, as will be further explained later herein.
  • the wall 110b is convergently tapered between the floor 110a of the recess 110 and the opening of the recess 110 at the front face 102.
  • the taper has a wedging effect on the six segments 202a-f which enhances the tightness of the fit of the segments 202a-f in the recess 110.
  • the taper in combination with the complementary shaped outer face 202a4-202f4 of each one of the segments 202a-f, provides a strong "dovetail" joint which resists displacement of the segments 202a-f out of the recess 110 in a direction away from the front face 102.
  • the mating surfaces that is the respective peripheral walls 204c, 206c of the inner and outer parts 204, 206 of the retainer and the inner faces 202a3-202f3 of the segments 202a-f, are arranged to provide a sufficient degree of friction to prevent slippage between them.
  • the required amount of friction may be achieved, for example, by the careful selection of materials and/or treatment of the mating surfaces.
  • one or both of the inner and outer parts 204, 206 of the retainer may be secured in position by a suitable fixing, such as a wedge lock washer, for example a Nord-Lock (RTM) washer.
  • each one of the six segments 202a-f of the set of inserts is fully secured in the recess 110. More particularly still:
  • the segments 202a-f are secured in the recess 110 by friction between the outer surfaces 202a4-202f4 of the segments 202a-f and the surface of the wall 110b of the recess 110.
  • This friction arises because the inner and outer parts, 204, 206 of the retainer apply outward radial forces which push the segments 202a-f firmly against the wall 110b.
  • the insert 200 may be regarded as a reverse clamp or spreader.
  • each of the inner part 204 and the outer part 206 of the retainer may be regarded as a fixing plug.
  • connection between the installed insert 200 and the recess 110 is essentially an interference fit (also known as a press fit or a friction fit). That is, the insert 200 is attached to the wall 110b of the recess 110 by friction rather than by any other means of fastening. Accordingly the insert does not rely upon conventional fasteners such as screws, bolts or rivets, which would require threads or holes to be provided in the material of the stave 100. This is highly advantageous, since it is undesirable to provide threads or holes because this can leave a weak section of the stave material in the vicinity of the water-cooling passage which could lead to structural failure and thereby a catastrophic water leak in service.
  • conventional fasteners such as screws, bolts or rivets
  • insert 200 is attached to the recess 110 in such a way that there is no need for the surface material of the stave 100 to be modified in any way in order to accept the insert 200.
  • Each of the inner and outer parts 204, 206 of the retainer can be separated and removed from the inner faces 202a3-202f3 of the segments 202a-f, preferably without destruction of the inner and outer parts 204, 206, so that the insert 200 can be removed in an uninstallation procedure which is essentially the reverse of the installation procedure described herein above. It will therefore be understood that, once installed, the insert 200 is removably attached in the recess 110.
  • the installed inserts 200 project or protrude from the front face 102 of the stave 100 and together the inserts 200 form a protective cladding for the front face 102.
  • the use of the cladding with a stave 100 installed in a blast furnace will now be described with particular reference to Figures 8a-d .
  • the panel-like stave 100 is installed at an interior wall of the furnace in an upright fashion. It will be understood that only a portion of the stave 100 is shown in the figure.
  • the front face 102 faces into the interior of the furnace such that the inserts 200 project from the front face 102 in a substantially horizontal direction.
  • burden material While the furnace is being used, burden material will pass downwardly through the interior of the furnace under gravity.
  • the burden material may include, for example, condensed vapours, solidified slag, and metal.
  • the mass flow rate of the bulk burden material through the furnace is typically around 240 to 1,100 tonnes per hour.
  • An outer portion of the burden material will flow over the front face 102 of the stave 100 and between the inserts 200. Some of this burden material will become trapped by the inserts 200. The trapped burden material will be held in contact with the cooled surface of the front face 102 of the stave 100 (as well as with the surfaces of the insert 200) and will adhere to the surface so as to form a protective layer when the burden material is in a reduced, liquid or semi-liquid state.
  • the capability of the inserts 200 to trap the burden material is optimised by the specific form of the inserts 200 and their arrangement on the front face 102 of the stave 100, as follows.
  • the hexagonal inserts 200 are arranged so as to define channels C between the inserts 200. That is, the exposed portions of the outer faces 202a4-202f4 of the protruding segments 202a-f define walls of the channels C while the front face 102 of the stave 100 forms the bases of the channels C.
  • exemplary first and second channels C1, C2 are defined between a first hexagonal insert 200 and two adjacent hexagonal inserts 200, each of these inserts 200 belonging to a first (and uppermost) row of inserts 200 on the stave 100.
  • exemplary third and fourth channels C3, C4 are defined between the first hexagonal insert 200 and two other adjacent hexagonal inserts 200, each of these other inserts 200 belonging to a second row of inserts 200 which is below the first row of inserts 200.
  • Each one of the first and second channels C1, C2 is bifurcated, one of the branches of the first channel C1 leading into the third channel C3 and one of the branches of the second channel C2 leading into the fourth channel C4.
  • the third and fourth channels C3, C4 converge.
  • a flow stream F of burden material (not itself shown) will flow through each one of the first and second channels C1, C2 and will emerge at the bifurcation point of each of the channels C1, C2.
  • a flow stream F of burden material (not itself shown) will flow through each one of the first and second channels C1, C2 and will emerge at the bifurcation point of each of the channels C1, C2.
  • the two streams of the burden material will meet at the point where the third and fourth channels C3, C4 converge.
  • the distance between any two of the three points P is about 55 mm, since that is the size of a typical particle contained in the burden material. It will be understood that this spacing can be made to suit any size of burden material specification.
  • FIG 8c a set of six segments 202a-f of an insert 200 is newly fitted in a recess 110 of the stave 100 in accordance with the installation procedure described herein above.
  • the stave 100 comprises a plurality of similar recesses 110 and inserts 200, as shown in Figure 8a for example).
  • the insert 200 shown in Figure 8c represents a new insert 200 at the commencement of the service of the stave 100 in the furnace.
  • each one of the segments 202a-f of the inserts 200 comprises silicon carbide.
  • this is a very hard-wearing material, the harsh conditions in the furnace are such that the segments 202a-f can be expected to be gradually eroded by the abrasive burden material which passes over and around them. Thus over time the segments 202a-f will be worn down by the burden material.
  • the uppermost segments 202a, 202b will be eroded at a faster rate than the other segments 202c-f, since it is the uppermost segments 202a, 202b which will take the brunt of the force of the burden material as it descends through the furnace and down over the stave 100.
  • the two uppermost segments 202a, 202b form a second subset S2 of the set of six segments 202a-f which is secured in the recess 110 by only the outer part 206 of the retainer.
  • the outer part 206 has been destroyed by the erosive effect of the burden material, there is nothing to hold (what remains of) the two uppermost segments 202a, 202b in the recess 110 and they will therefore be released from the recess 110.
  • the two segments 202a, 202b will become entrained in the flowing burden material and will thus be carried away from the recess 110. In time they will be carried some considerable distance from the front face 102 of the stave 100.
  • Figure 8d shows the insert 200 in the partly worn condition, at the stage that the outer part 206 has been destroyed and the two uppermost segments 202a, 202b have been released and carried away from the recess 110. As can be seen, a portion of the recess 110 is left empty by the vacated segments 202a, 202b.
  • Burden material will tend to flow into the empty portion of the recess 110 and adhere to the floor 110a and wall 110b thereof. In this way the burden material provides a protective layer for the stave 100, even after a portion of the insert 200 has been lost.
  • the four segments 202c-f form a first subset S1 of the set of six segments 202a-f which is secured in the recess by the inner part 204 of the retainer (as well as by the outer part 206 at the point of installation of the insert 200).
  • a portion of the recess 110 will be left empty by the vacated segments 202c-f. Burden material will tend to flow into the empty portion of the recess 110 and adhere to the floor 110a and wall 110b thereof. In this way the burden material provides a protective layer for the stave 100, even after the entire insert 200 has been lost.
  • the invention provides inserts which trap burden material so that the burden material will adhere to the front face of the stave so as to form a protective layer thereon.
  • the uppermost segments of each insert which are most prone to wear by the erosive action of the flowing bulk of the burden material, are configured to be released from the recess at a certain stage of wear, so that burden material may take their place in the recess to become adhered to the front face.
  • the remaining segments of the insert are also configured to be released from the recess, at a later time, once they too have reached a certain stage of wear.
  • the part of the recess that was occupied by those remaining segments then becomes occupied by the burden material which adheres to the front face.
  • the recess, when occupied by the burden material is a "stonebox" which protects the stave even after all of the segments of the insert have been worn down and lost.
  • the insert provides for a staged release of the segments.
  • the stages of wear, at which the segments are released, are predetermined by the relative position (i.e. the distance from the front face of the stave) of the parts of the retainer and the end faces of the segments. In other words, the degree to which the parts of the retainer are recessed between the segments from the end faces of the segments. As the segments are worn down the depth of the recess is reduced, until the parts of the retainer are exposed to the flow of the abrasive burden and are thereby eroded away.
  • each of the inserts can accept thermal cycling without releasing from the recess prematurely. This is because the insert is made up of a plurality of segments that can flex independently under thermal stress yet be fixed as a whole for ease of assembly. It will be recalled that there exists a small gap between each pair of the adjacent side faces of the secured segments. It is these gaps which enable the segments to flex independently. Furthermore the gaps encourage material ingress in the form of dust to act as an elastic dividing membrane, thus adding resilience to the effects of thermal cycling. In another embodiment, which is less preferred, the gaps are omitted such that the segments abut one another.
  • the inner part 204 of the retainer secures four segments 202c-f (the first subset S1) and the outer part 206 secures six segments 202a-f, such that two segments 202a, 202b (the second subset S2) are secured by only the outer part 206. Accordingly the two segments 202a, 202b are released when the outer part 206 is destroyed, followed by the four segments 202c-f when the inner part 204 is destroyed.
  • subsets S1, S2 of the set of segments 202 of the insert 200 may be differently comprised, provided that at least one of the segments 202 which defines the first subset S1 is secured in the recess 110 by the inner part 204 and at least one of the segments 202 which defines the second subset S2 is secured in the recess 110 by only the outer part 206.
  • the insert may alternatively be secured using only one retainer part.
  • the sole retainer part will then secure all of the segments of the insert.
  • an embodiment comprising only one retainer part is not configured to provide a staged release of segments in the manner described herein above. Rather, once the sole retainer part has been destroyed all of the segments will be released from the recess at substantially the same time.
  • an insert may comprise more than two retainer parts.
  • segments may be released in multiple stages over time according to the number of retainer parts.
  • each insert may comprise any number of segments and these may be arranged in any shape.
  • an insert may comprise two segments, which may be arranged in a circle.
  • the insert may comprise three segments, which may be arranged in a triangle.
  • the insert may comprise four segments, which may be arranged in a rectangle, for example a square.
  • the insert may comprise five segments, which may be arranged in a pentagon.
  • the insert may comprise seven segments, which may be arranged in a heptagon.
  • the insert may comprise eight segments, which may be arranged in an octagon. And so on.
  • the plurality of inserts may include inserts of dissimilar shape and/or size. Furthermore a set of segments of an insert may include segments of dissimilar shape and/or size.
  • the locator piece 208 is omitted. It will be understood that the locator piece 208 is not essential for securing the insert 200 in the recess 110 since it does not serve to fully secure the segments 200a-f to the wall 110b of the recess 110; rather that is the function of the inner and outer parts 204, 206 of the retainer. In this embodiment the undercut (at the lower portion of the inner face of the segment) is also omitted, since the undercut serves only to interface with the locator piece 208.
  • the inner and/or outer parts of the retainer are additionally secured by means other than frictional contact with the inner faces of the segments, for example by a screw, bolt or other kind of fastener, or by a weld.
  • the upstanding stem of the locator piece includes a thread and one or both of the inner and/or outer parts of the retainer is secured by a nut which engages the thread.
  • the wall 110b of the recess 110 is parallel with the central axis Z of the recess 110 and so does not include a taper. This can make machining the recess more straightforward. On the other hand, this embodiment is less preferred because, while the outer faces of the segments 202a-f will be secured against the wall of the recess 110 by the radial forces applied to them, the advantageous wedge effect and strong dovetail joint will be absent.
  • one or more of the segments of each insert is enlarged (compared to the other segments of the insert), and comprises an outer surface for contact with a similar outer surface of a similarly enlarged segment of another insert when the inserts are installed in a stave.
  • This enables the inserts of two adjacent rows in the stave to contact each other to form a continuous ledge which can prevent the passage of burden material between the inserts.
  • This may be particularly useful at the bottom of the stave, as shown in Figure 10b , since it is desirable to try to retain as much burden material as possible on the stave before the burden material descends through the furnace below the stave.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Manufacturing & Machinery (AREA)
  • Materials Engineering (AREA)
  • Metallurgy (AREA)
  • Organic Chemistry (AREA)
  • Blast Furnaces (AREA)
  • Furnace Housings, Linings, Walls, And Ceilings (AREA)
  • Connection Of Plates (AREA)

Claims (12)

  1. Stave-Schutzsystem für einen metallurgischen Ofen, Folgendes umfassend:
    einen Stave (100) mehrere Aussparungen (110) umfassend, die in einer Vorderfläche (102) des Staves (100) angeordnet sind; und
    mehrere Einsätze (200), die jeweils durch eine entsprechende der Aussparungen (110) aufgenommen werden, wobei die so aufgenommenen Einsätze (200) von der Vorderfläche (102) des Staves (100) so vorstehen, dass im Gebrauch Ofenbeschickungsmaterial von den Einsätzen (200) eingefangen wird, um eine Schutzschicht des Beschickungsmaterial auf der Vorderfläche (102) des Staves (100) bereitzustellen,
    wobei jeder Einsatz (200) einen Satz von Segmenten und einen Halter, der die Segmente gegen eine Oberfläche der jeweiligen Aussparung (110) drückt, umfasst, sodass die Segmente in der Aussparung (110) durch Reibkontakt mit der Oberfläche der Aussparung (110) gesichert sind,
    und wobei:
    der Halter einen inneren Teil (204) und einen äußeren Teil (206) umfasst;
    mindestens eines der Segmente, das einen ersten Teilsatz (S1) des Satzes von Segmenten definiert, durch den inneren Teil (204) in der Aussparung (110) befestigt ist;
    mindestens eines der Segmente, das einen zweiten Teilsatz (S2) des Satzes von Segmenten definiert, nur durch den äußeren Teil (206) in der Aussparung (110) befestigt ist,
    sodass im Gebrauch:
    das Entfernen des äußeren Teils (206) des Halters durch eine erosive Wirkung des Beschickungsmaterials darauf den zweiten Teilsatz (S2) freigibt, sodass Beschickungsmaterial den Abschnitt der Aussparung (110) besetzen kann, der von dem zweiten Teilsatz (S1) freigelegt wird; und
    das Entfernen des inneren Teils (204) des Halters durch eine erosive Wirkung des Beschickungsmaterials darauf den ersten Teilsatz (S1) freigibt, sodass Beschickungsmaterial den Abschnitt der Aussparung (110) besetzen kann, der von dem ersten Teilsatz (S2) freigelegt wird,
    wobei das Stave-Schutzsystem ferner ein Lokalisierungselement (208) umfasst, das dazu konfiguriert ist, den ersten Teilsatz des Satzes von Segmenten in der Aussparung (110) zu lokalisierern, wobei das Lokalisierungselement (208) dazu konfiguriert ist, den inneren und den äußeren Teil (204, 206) des Halters zu stützen.
  2. Stave-Schutzsystem nach Anspruch 1, wobei jede der Aussparungen (110) eine sechseckige Form aufweist und der Satz von Segmenten sechs Segmente (202a-f) umfasst, die in einem Sechseck angeordnet sind, um die jeweilige Aussparung (110) auszufüllen.
  3. Stave-Schutzsystem nach Anspruch 2, wobei der erste Teilsatz (S1) des Satzes von Segmenten vier Segmente (202c-f) umfasst und der zweite Teilsatz (S2) des Satzes von Segmenten zwei Segmente (202a-b) umfasst.
  4. Stave-Schutzsystem nach einem der vorhergehenden Ansprüche, wobei die Segmente und/oder der Halter eines jedes Einsatzes (200) ein abriebfestes feuerfestes Material umfassen.
  5. Stave-Schutzsystem nach Anspruch 4, wobei das abriebfeste feuerfeste Material Siliziumcarbid oder Aluminiumoxid umfasst.
  6. Stave-Schutzsystem nach einem der Ansprüche 1 bis 3, wobei die Segmente und/oder der Halter eines jeden Einsatzes (200) ein Metallmaterial umfassen.
  7. Stave-Schutzsystem nach Anspruch 6, wobei das Metallmaterial Kupfer, Kupferlegierung, Stahl oder Gusseisen umfasst.
  8. Stave-Schutzsystem nach einem der vorhergehenden Ansprüche, wobei jedes der Segmente von einem benachbarten Segment durch einen Spalt getrennt ist.
  9. Stave-Körper (100) für einen metallurgischen Ofen, Folgendes umfassend:
    eine Vorderfläche (102), eine Rückfläche (104) und Kanten (106a-d), die die Vorderfläche und die Rückfläche (102, 104) miteinander verbinden;
    mindestens einen Kühlkanal, der sich durch den Körper (100) hindurch erstreckt; und
    mehrere diskrete Aussparungen (110), die auf der Vorderfläche (102) angeordnet sind, wobei mindestens eine der Aussparungen (110) von einem Abschnitt der Vorderfläche (102) umgeben ist, sodass im Gebrauch Ofenbeschickungsmaterial von den Aussparungen (110) aufgenommen und zurückgehalten wird, um eine Schutzschicht des Beschickungsmaterials auf der Vorderfläche (102) bereitzustellen.
  10. Stave-Körper (100) für einen metallurgischen Ofen nach Anspruch 9, wobei der Stave-Körper (100) aus Kupfer, Kupferlegierung, Stahl oder Gusseisen gefertigt ist.
  11. Stave-Körper für einen metallurgischen Ofen nach Anspruch 9 oder 10, wobei die Aussparungen (110) eine sechseckige Form aufweisen.
  12. Stave-Körper (100) für einen metallurgischen Ofen nach einem der Ansprüche 9 bis 11, wobei die Aussparungen (110) in einem regelmäßigen Muster angeordnet sind, sodass der Stave-Körper (100) in einer ersten Richtung und in einer zweiten Richtung, die senkrecht zu der ersten Richtung ist, die gleiche Biegesteifigkeit aufweist.
EP18161931.3A 2018-03-15 2018-03-15 Plattenkühlerschutzsystem Active EP3540081B1 (de)

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EP22157392.6A EP4043589B1 (de) 2018-03-15 2018-03-15 Plattenkühlerschutzsystem
EP18161931.3A EP3540081B1 (de) 2018-03-15 2018-03-15 Plattenkühlerschutzsystem
JP2020549025A JP7237977B2 (ja) 2018-03-15 2019-03-13 ステーブ保護システム
PCT/EP2019/056290 WO2019175245A1 (en) 2018-03-15 2019-03-13 Stave protection system
KR1020207026129A KR20200132867A (ko) 2018-03-15 2019-03-13 스테이브 보호 시스템
CN201910197902.1A CN110273034B (zh) 2018-03-15 2019-03-15 狭板保护系统
CN201920329994.XU CN210826223U (zh) 2018-03-15 2019-03-15 狭板保护系统和冶金炉狭板本体

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EP3540081B1 (de) * 2018-03-15 2022-09-21 Primetals Technologies Limited Plattenkühlerschutzsystem
WO2022016094A1 (en) * 2020-07-17 2022-01-20 Berry Metal Company Structural matrix for stave
US20230366048A1 (en) * 2020-09-15 2023-11-16 Arcelormittal Blast furnace for ironmaking production
EP4279616A1 (de) * 2022-05-16 2023-11-22 Primetals Technologies Limited Plattenkühlerschutzsystem

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JP2021518522A (ja) 2021-08-02
WO2019175245A1 (en) 2019-09-19
EP4043589A1 (de) 2022-08-17
CN210826223U (zh) 2020-06-23
EP4043589B1 (de) 2023-08-30
EP3540081A1 (de) 2019-09-18
JP7237977B2 (ja) 2023-03-13
KR20200132867A (ko) 2020-11-25
CN110273034B (zh) 2023-04-28
CN110273034A (zh) 2019-09-24

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