Claims
- 1. Method of reducing oxides on the surface of metal comprising moving said metal through an enclosure having an entrance and an exit for said metal, heating at least the surface of said metal to a temperature of at least 300° F. in a heating zone near said entrance of said enclosure, introducing reducing gas to a cooling zone near said exit of said enclosure, directing said reducing gas toward said surface of said metal in a vigorous and turbulent manner in a reducing zone in said enclosure, whereby at least 5% of said reducing gas is consumed in reducing said oxides, and burning unreacted reducing gas below a flue near said entrance for said metal to create a draft of said reducing gas in said enclosure countercurrent to the movement of said metal.
- 2. Method of claim 1 including contacting at least one surface of said metal with elemental carbon.
- 3. Method of claim 1 wherein said exit for said metal includes a fabric curtain.
- 4. Method of claim 1 wherein inert gas is mixed with said reducing gas.
- 5. Method of claim 1 wherein inert gas is mixed with said reducing gas in a ratio of 1:99 to 99:1.
- 6. Method of claim 1 wherein at least a portion of said reducing gas is heated before being introduced in said reducing zone
- 7. Method of claim 1 whereby said reducing gas is heated within said enclosure before being directed toward said metal.
- 8. Method of claim 1 wherein said reducing gas comprises hydrogen.
- 9. Method of claim 1 wherein said reducing gas comprises carbon monoxide.
- 10. Method of claim 1 wherein at least about 50% of said reducing gas is consumed in reducing said oxides.
- 11. Method of claim 1 wherein at least about 90% of said reducing gas is consumed in reducing said oxides.
- 12. Method of claim 1 wherein air is introduced near said entrance to said enclosure to assist in burning said unreacted reducing gas.
- 13. Method of claim 1 wherein said metal is steel strip.
- 14. Method of claim 1 wherein said metal is copper.
- 15. Method of reducing oxide scale on metal wherein said metal is contacted with reducing gas, said process comprising (a) heating said metal to at least 300° F., (b) contacting said metal with turbulent reducing gas in at least two successive reducing zones having increasing concentrations of reducing gas, to make (i) metal having a reduced surface and (ii) a used reducing gas, and (c) combusting said used reducing gas.
- 16. Method of claim 15 wherein said metal is hot rolled steel strip
- 17. Method of claim 15 wherein said metal is copper.
- 18. Method of claim 15 wherein said reducing gas comprises hydrogen.
- 19. Method of claim 15 wherein said reducing gas is passed counter currently through said at least two successive reducing zones.
- 20. Method of claim 19 which is continuous, including continuously removing said used reducing gas in a stabilized flow prior to combusting it.
- 21. Method of claim 19 further including cooling said metal having a reduced surface to a temperature no higher than 150° C.
- 22. Method of claim 19 wherein said metal is copper and further including the steps of cooling said copper to a temperature no higher than 150° C.
- 23. Method of claim 22 further including brushing said copper.
- 24. Method of claim 21 wherein said cooling is accomplished by contacting said metal having a reduced surface with cooling water containing a corrosion inhibitor.
- 25. Method of claim 19 wherein turbulence is induced in said reducing zones by a plurality of fans.
- 26. Method of claim 19 followed by cooling and scrubbing said metal having a reduced surface.
- 27. Apparatus for dry reduction of moving metal comprising at least a first reducing compartment and a second reducing compartment, said reducing compartments being arranged in tandem for contacting reducing gas with said metal, each of said reducing compartments having a metal entrance and a metal exit, means for introducing reducing gas near the metal exit of said second reducing compartment, means for introducing reducing gas near the metal exit of said first reducing compartment, means for generating and maintaining turbulence within said reducing compartments, means for maintaining a higher concentration of reducing gas in said second reducing compartment than in said first reducing compartment, and a gas exit in said first reducing compartment near said metal entrance for withdrawing used reducing gas and combusting it.
- 28. Apparatus of claim 27 wherein said means for maintaining a higher concentration of reducing gas in said second reducing compartment than in said first reducing compartment comprise sealing rolls.
- 29. Apparatus of claim 27 wherein said gas exit includes an inverted U-shaped duct for conveying said used reducing gas from said first reducing compartment and a combustion chamber having an entrance for said used reducing gas from said inverted U-shaped duct which is lower than said gas exit.
- 30. Apparatus for removing oxide scale from moving metal comprising (a) a furnace for heating said metal, (b) a dry reduction apparatus of claim 27, and (c) means for cooling said metal under substantially inert or reducing conditions.
- 31. Apparatus of claim 27 further including means for scrubbing said metal after cooling.
- 32. Method of reducing oxides on moving metal comprising passing a reducing gas countercurrently in contact with said moving metal in a high concentration reducing gas contact zone, substantially sealing gas in said high concentration reducing gas contact zone while permitting some gas therefrom to proceed to a lower concentration reducing gas contact zone for further contacting with said moving metal, and substantially sealing said gas in said lower concentration reducing gas contact zone while drawing some gas therefrom to a combustion zone.
- 33. Method of claim 32 wherein said substantial sealing is accomplished with sealing rolls.
- 34. Method of claim 32 wherein said metal is heated prior to entering said lower concentration reducing gas contact zone, and passed to a cooling zone after leaving said higher concentration reducing gas contact zone.
- 35. Method of claim 32 wherein said reducing gas comprises hydrogen.
- 36. Method of claim 32 wherein said metal is hot rolled steel strip.
- 37. Method of claim 32 having at least three reducing gas contact zones.
- 38. Method of claim 29 wherein said metal is copper.
RELATED APPLICATION
[0001] This is a divisional application of Application Ser. No. 09/584,931 that was filed on Jun. 1, 2000, which is a Continuation-in-Part Application of Application Ser. No. 09/144,003 filed on Aug. 31, 1998.
Divisions (1)
|
Number |
Date |
Country |
Parent |
09584931 |
Jun 2000 |
US |
Child |
10024676 |
Dec 2001 |
US |
Continuation in Parts (1)
|
Number |
Date |
Country |
Parent |
09144003 |
Aug 1998 |
US |
Child |
09584931 |
Jun 2000 |
US |