Claims
- 1. A metallurgical furnace comprising:
a furnace shell having a dished hearth, a generally cylindrical side wall above said hearth, and a generally circular roof at the top thereof; an exhaust system attached to said furnace shell, said system having an opening and at least one fume duct connected to said vent; an off gas chamber connected to said furnace shell by said fume duct of said exhaust system; and a plurality of pipes disposed throughout the furnace shell and the exhaust system for cooling the furnace during operation, wherein said fume duct and said plurality of pipes are comprised at least of an aluminum-bronze alloy.
- 2. The metallurgical furnace of claim I wherein the aluminum-bronze alloy comprises at least Cu, Al, Sn, and Fe; and
wherein said alloy further comprises at least about 89% copper and no more than about 95% copper.
- 3. The metallurgical furnace of claim 1 wherein said off-gas chamber further comprises a series of water cooled panels secured to the interior side of the side wall.
- 4. The metallurgical furnace of claim 1 wherein said plurality of pipes and said plurality of fume ducts are each formed by extrusion into seamless components.
- 5. A method of extending the operational life of a metallurgical furnace, comprising the steps of:
providing a plurality of pipes thereby forming a cooling panel and a plurality of fumes ducts, said plurality of pipes and said plurality of fume ducts being formed at least partially of an aluminum-bronze alloy; attaching said cooling panel and said plurality of fume ducts to the interior of the furnace; cooling the furnace by running fluid through said plurality of pipes during an operational phase of the furnace; and evacuating gases from the furnace shell through the exhaust system into the gas cleaning system during the operational phase of the furnace.
- 6. The method according to claim 5 wherein the aluminum-bronze alloy comprises Cu, Al, Sn, and Fe; and
wherein said alloy further comprises at least about 89% copper and no more than about 95% copper.
- 7. The method according to claim 5 wherein the furnace is provided with a furnace shell, an exhaust system, and a gas cleaning system.
- 8. The method according to claim 7 wherein the furnace shell is further provided with a dished hearth, a generally cylindrical side wall, and a generally circular roof.
- 9. The method of claim 7 wherein the gas cleaning system is provided with a series of water cooled panels secured therein.
- 10. A furnace wall structure for a metallurgical furnace wherein a cooling panel comprised of a plurality of pipes made at least partially of an aluminum-bronze alloy is provided on the interior of the furnace for cooling the same.
- 11. The furnace wall structure of claim 10 wherein said alloy comprises at least 5% Al and no more than 11% Al.
- 12. The furnace wall structure of claim 10 wherein said alloy comprises at least 89% copper and no more than 95% copper.
- 13. A method of extending the operational life of an off-gas system used in steel making, comprising the steps of:
providing a plurality of pipes and a plurality of fumes ducts, said plurality of pipes and said plurality of fume ducts being formed at least partially of an aluminum-bronze alloy; attaching said plurality of pipes and said plurality of fume ducts to the interior wall structure of the off-gas system; and cooling the off-gas system by running fluid through said plurality of pipes during an operational phase of the off-gas system;
- 14. The off-gas system according to claim 13 wherein the aluminum-bronze alloy comprises Cu, Al, Sn, and Fe; and
wherein said alloy further comprises at least about 89% copper and no more than about 95% copper.
- 15. The off-gas system wall structure of claim 13 wherein said alloy comprises at least 5% Al and no more than 11% Al.
- 16. The off-gas system wall structure of claim 13 wherein said alloy comprises at least 89% copper and no more than 95% copper.
- 17. A cooling panel for an electric arc furnace, comprising:
a back panel; a plurality of hollow pipes formed in a serpentine channel through which a coolant is flowable attached to said back panel; and wherein said plurality of hollow pipes is comprised at least partially of an aluminum-bronze alloy.
- 18. The cooling panel according to claim 17 wherein the aluminum-bronze alloy comprises Cu, Al, Sn, and Fe; and
wherein said alloy further comprises at least about 89% copper and no more than about 95% copper.
- 19. The cooling panel wall structure of claim 17 wherein said alloy comprises at least 5% Al and no more than 11% Al.
- 20. The cooling panel wall structure of claim 17 wherein said alloy comprises at least 89% copper and no more than 95% copper.
CROSS REFERENCE TO RELATED APPLICATION
[0001] This application claims the benefit of U.S. Provisional Application No. 60/323,265, filed Sep. 19, 2001.
Provisional Applications (1)
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Number |
Date |
Country |
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60323265 |
Sep 2001 |
US |