Method and apparatus for preparing agglomerates suitable for use in a blast furnace
First Claim
1. A method for preparing agglomerates suitable for charging into a blast furnace comprising rotating a cylinder having open ends about its longitudinal axis while said axis is inclined with the horizontal, charging into the upper open end of said cylinder while said cylinder is rotating a stream of iron oxide bearing material containing 5 to 15 weight percent of combustible material, said material being in particulate form and of a size such that substantially all of said iron oxide bearing material will pass a 3/8 inch screen, whereby said iron oxide bearing material is caused to move downwardly in said cylinder in a tumbling stream toward the lower end of said cylinder, subjecting said charged material at the upper end portion of said cylinder to contact with a flame whereby to ignite said material in said portion, passing an oxygen containing gas in a confined stream to an area below said stream of material as the material passes downwardly in said cylinder, passing said gas from said area through the wall of said cylinder and upwardly through said stream to support combustion of materials in said stream and heat said material to from 2200°
- F to 2600°
F and discharging from the lower end of said cylinder agglomerates formed of said material during its passage through the said cylinder.
0 Assignments
0 Petitions
Accused Products
Abstract
Processes for preparing agglomerates containing iron oxide and suitable for charging as a feed material into a blast furnace and apparatus for effectively carrying out these processes. Waste matter from commercial iron and steel operations containing iron oxide and combustible matter is charged as feed into a rotating cylinder where it is ignited by flame from a jet; then an oxygen containing gas is passed under pressure through a wind box upwardly through passages through the walls of the cylinder and upwardly through particles of burning, tumbling particles of feed matter as this matter moves as a stream and comes into agglomerate form. The treated material is discharged in agglomerate form at the end of the rotating cylinder. These agglomerates may be effectively utilized as iron bearing feed material by charging them along with other charge materials into a blast furnace.
106 Citations
8 Claims
-
1. A method for preparing agglomerates suitable for charging into a blast furnace comprising rotating a cylinder having open ends about its longitudinal axis while said axis is inclined with the horizontal, charging into the upper open end of said cylinder while said cylinder is rotating a stream of iron oxide bearing material containing 5 to 15 weight percent of combustible material, said material being in particulate form and of a size such that substantially all of said iron oxide bearing material will pass a 3/8 inch screen, whereby said iron oxide bearing material is caused to move downwardly in said cylinder in a tumbling stream toward the lower end of said cylinder, subjecting said charged material at the upper end portion of said cylinder to contact with a flame whereby to ignite said material in said portion, passing an oxygen containing gas in a confined stream to an area below said stream of material as the material passes downwardly in said cylinder, passing said gas from said area through the wall of said cylinder and upwardly through said stream to support combustion of materials in said stream and heat said material to from 2200°
- F to 2600°
F and discharging from the lower end of said cylinder agglomerates formed of said material during its passage through the said cylinder. - View Dependent Claims (2, 3, 4)
- F to 2600°
- 5. A rotary kiln for the preparation of agglomerates suitable as a feed material for a blast furnace comprising a cylinder having its upper end open for the feeding of materials into said cylinder and having its lower end open for the discharge of agglomerates therefrom, said cylinder being rotatable about an inclined longitudinal axis, means for producing at an upper portion of said cylinder a flame in a position to contact combustible material so fed into said cylinder at its upper end so as to ignite the same, said cylinder being lined with refractory material and having an annular area between said flame producing means and said lower end at which area said cylinder contains radially spaced passages through said cylinder and refractory material, a cylindrical wall concentric with and spaced from said cylinder, and end pieces extending radially from said cylindrical wall toward said cylinder, said cylindrical wall and end pieces forming an enclosure which embraces said area, conduit means for passing oxygen-containing gas into said enclosure and through said passages into the interior of said cylinder for supporting combustion of said combustible materials therein.
Specification