Specialized metallurgical processes – compositions for use therei – Processes – Producing or treating free metal
Reexamination Certificate
2001-06-28
2004-10-05
Andrews, Melvyn (Department: 1742)
Specialized metallurgical processes, compositions for use therei
Processes
Producing or treating free metal
C075S487000, C075S499000, C075S500000, C266S144000, C266S176000, C266S197000
Reexamination Certificate
active
06800113
ABSTRACT:
DESCRIPTION OF THE INVENTION
The present invention relates to apparatus for distribution of charges in shaft furnaces of rectangular cross section intended for the production of pig iron, cast iron, or any other alloyed cast metal, from agglomerates, which may or may not be self-reducing, or a metallic charge to provide by means of a controlled distribution of the charge an efficient fluid dynamic pattern.
The conventional equipment and methods used for feeding and distribution of charges in circular cross section shaft furnaces are already known, such as for example those used with blast furnaces, electric reduction furnaces, cupola furnaces, and the like.
In shaft furnaces, the gasses formed by the combustion of the solid or gaseous fuel with the blowing air ascend through the furnace shaft in countercurrent flow to the charge, preheat the same, cool down and leave through an upper portion of the furnace. The refining efficiency of the shaft furnaces of this type is therefore dependent on the contact between these gasses and the charge.
In blast furnaces the charge formed of classified ore, pellets, sintered or other conventional agglomerates, coke and limestone is charged sequentially through the upper part of the furnace to form a continuous column of charge. The charge is distributed uniformly along the furnace cross section depending on the granular size of its constituents to ensure good permeability and distribution of the ascending gasses in counter current flow to the charge. This is achieved by the use of rotating distributors and/or deflectors that are fed with charge material from a single location.
In furnaces having rectangular cross sections, such as for example in self-reduction furnaces, the charge comprised of self-reducing agglomerates is charged through the central upper shaft while the fuel is charged laterally through a shaft which is concentric to the central upper shaft. In order to improve the efficiency of the thermal exchange between the ascending gasses and the charge by minimizing the wall effect it is important to build a central column made of coke located along the longitudinal cross section. Since the length of these furnaces is quite longer than the width thereof, the use of the distributors employed in circular cross section furnaces may not be adequate for these furnaces. A greater number of distributors may be required along the longer side of the furnace cross section.
SUMMARY OF THE INVENTION
In accordance with the invention, apparatus is provided for introducing and distributing a charge including a metal oxide and solid fuel to a shaft furnace having a rectangular interior cross section for the production of molten metal from said metal oxide. Means are provided for feeding the charge to means for conveying the charge to the shaft furnace. Means are provided for distributing the charge from the conveying means to the shaft furnace to form in the interior cross section of the furnace a vertical column of the charge in a selected pattern of said metal oxide and solid fuel to maximize exchange of heat between ascending hot gas within the interior cross section and the vertical column of the charge.
The metal oxide may include self-reducing agglomerates thereof, self fluxing agglomerates or both.
The vertical column of the charge may comprise a longitudinal central portion of solid fuel surrounded by a longitudinal portion of metal oxide.
Particles of the solid fuel may be distributed within the longitudinal portion of the metal oxide to increase the permeability thereof to improve flow of the ascending hot gas through the vertical column of the charge.
The present invention relates to apparatus for feeding and distributing charge and fuels for shaft furnaces of rectangular cross section, resulting in a stacked configuration with a more efficient fluid dynamic pattern in order to maximize the exchange of heat between the ascending hot gasses and the descending charge. This apparatus achieves uniform distribution of charge material and fuel along the longitudinal section and the cross section of the furnace, both in terms of type (fuel or charge) and of granular size (finer or coarser), with the charge material being fed to the furnace from a single location.
Therefore, the present invention provides an apparatus for the distribution and feeding of charge and fuel in shaft furnaces having a rectangular cross section that includes an assembly comprising at least one of a hopper, sealing and proportioning valves and fixed tube to provide for the distribution along the longitudinal section and the cross section of the furnace, both of a charge comprised of self-reducing agglomerates, ore, scrap or any other metallic material, and of fuel.
The distributing means may include at least one movable tube journaled for movement along a single plane and may include at least one movable tube journaled for movement along two planes.
In accordance with the method of the invention, a charge including a metal oxide and a solid fuel is distributed in a shaft furnace having a rectangular interior cross section, with the charge being used for the production of molten metal from the metal oxide of the charge. In accordance with this method, a vertical column of the charge is formed in the interior cross section of the shaft furnace. The metal oxide and the solid fuel is distributed to produce a selected cross sectional pattern therefrom in the vertical column of the charge to maximize exchange of heat between ascending hot gas and the vertical column of the charge. This is continued to maintain this selected cross sectional pattern during the production of the molten metal.
The metal oxide may include self-reducing agglomerates, self-fluxing agglomerates, or agglomerates that are both self-reducing and self-fluxing.
The pattern preferably comprises a central portion of the solid fuel surrounded by an outer portion of the metal oxide.
Preferably, particles of the solid fuel may be distributed within the outer portion of the metal oxide to increase the permeability thereof and thus improve flow of the ascending hot gas through the vertical column of the charge.
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Contrucci Marcos de Albuquerque
Costa Pedro Henrique Carpinetti
Andrews Melvyn
Ladas & Parry
Startec Iron LLC
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