Metallurgical apparatus – Means for introducing fluent into vessel – e.g. – tuyere – Having means preventing damage to introducing means – e.g.,...
Patent
1986-09-16
1988-05-10
Rutledge, L. Dewayne
Metallurgical apparatus
Means for introducing fluent into vessel, e.g., tuyere
Having means preventing damage to introducing means, e.g.,...
266218, C21C 548
Patent
active
047429950
DESCRIPTION:
BRIEF SUMMARY
TECHNICAL FIELD AND BACKGROUND
The present invention relates generally to the treatment of elevated temperature liquids by injection of gases or of gases accompanied by non-gaseous substances. More particularly, the invention concerns apparatus useful for injecting substances into molten non-ferrous or ferrous metals such as iron and steel while the metals are stationary in a vessel or flowing in a conduit. The invention is not limited to the treatment of liquids that are metals, however.
The liquids to be treated will be at such high temperatures that they may be regarded as aggressive or dangerous. The apparatus we have now developed has been designed to be safe in operation as well as adequately protected from the liquid up to the time treatment is to begin.
The apparatus to be described could also be used in winning or refining selected metals from their ores. For example, tungsten can be won by reduction in an arc furnace of the ore or an oxide thereof to the molten metallic state. The present apparatus can be employed to blow fresh powdered ore or oxide into the metallic melt of the furnace.
The apparatus disclosed hereinafter in detail can be employed when making steel from iron. It is suitable for use in vacuum degassing as a convenient means to introduce alloying additions. Primary and secondary refining, deoxidizing and desulphurizing can be performed to advantage with the aid of the apparatus. Compositions of steels (and other metals) can be controlled or modified by introducing gaseous and non-gaseous substances at any time before solidification. For instance, the melt can be treated in the furnace, in the ingot mould, as well as in vessels such as steelmaking vessels, ladles of various kinds, degassers and tundishes.
Before or during teeming in a metal casting operation, it may be necessary or desirable to introduce gas into the molten metal in a container or vessel. Gas is injected, e.g. into the bottom area of a vessel, for diverse purposes. These include rinsing; clearing the relatively cool bottom area of solidification products, to help remove them from the vicinity of a vessel bottom outlet from which the metal may be teemed; equalising the temperature throughout the melt; and stirring to help disperse alloying additions uniformly in the melt. Usually an inert gas such as argon is used. Reactive gases such as oxygen, carbon dioxide and hydrocarbon gases are sometimes substituted, depending on the melt chemistry.
Previous gas injection proposals have envisaged porous bricks in the refractory lining of a vessel, solid porous plugs in sliding gate teeming valves, and conventional consumable lances. Installations featuring porous bricks have the virtue of simplicity. Unfortunately, a porous brick exposed to the interior of the vessel may be rendered inoperative if metal slags or metal oxides freeze on it, e.g. between emptying the vessel and refilling it. Moreover, when refilling, these bricks could be damaged through impact of the molten metal thereon or through thermal shock. Unexpected failure of the brick can have extremely dangerous consequences. Visual inspection to detect the onset of failure is far from easy from a distance, looking down into the vessel.
Sliding gate valves adapted for gas injection may be safer, but unless overly complicated they are not able to offer the possibility of gas injection simultaneously with teeming.
Conventional lances are somewhat cumbersome, costly and not without their dangers in view of the splashing their use engenders.
Among other things, the present invention aims to overcome the above drawbacks associated with prior gas injection systems. The apparatus disclosed hereinafter is capable of introducing substances deep into a metal melt in a particularly cost-effective manner and provides benefits not so readily attainable by the consumable lances conventionally employed.
In ferrous metallurgy, the melt must often be deoxidised and desulphurised by introducing aluminum and calcium or its alloys. Composition control or "trimming" is commonly perform
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Injectall Limited
McDowell Robert L.
Rutledge L. Dewayne
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