US3212877A - Method of agglomerating ore - Google Patents

Method of agglomerating ore Download PDF

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US3212877A
US3212877A US253604A US25360463A US3212877A US 3212877 A US3212877 A US 3212877A US 253604 A US253604 A US 253604A US 25360463 A US25360463 A US 25360463A US 3212877 A US3212877 A US 3212877A
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mixture
percent
temperature
carbonaceious
ore
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US253604A
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Roger L Rueckl
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United States Steel Corp
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United States Steel Corp
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    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22BPRODUCTION AND REFINING OF METALS; PRETREATMENT OF RAW MATERIALS
    • C22B1/00Preliminary treatment of ores or scrap
    • C22B1/14Agglomerating; Briquetting; Binding; Granulating
    • C22B1/24Binding; Briquetting ; Granulating

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  • An object of the invention is to provide an improved extrusion method of forming finely divided ore material into agglomerates suitable for charging to a blast furnace.
  • a more specific object is to provide an extrusion method of forming agglomerates in which a finely divided ore material is mixed with a carbonaceous binder having a softening temperature in the range of about 210 to 725 F., and the mixture is extruded at a temperature within this range without coking the binder.
  • the single figure is a schematic fiowsheet of my ag glomerating method.
  • the drawing shows schematically a source of a finely divided ore material and a source 12 of carbonaceous material.
  • the ore material should be substantially 100 percent minus A5 inch and at least 50 percent minus 100 mesh, but can be selected from a wide choice of materials, such as iron ore, finely divided iron-bearing concentrates, sinter returns, ores of other metals like manganese or zinc, or by-product dusts of potential economic value like ferromanganese downcomer dust.
  • the carbonaceous material must soften yet remain viscous at a moderate temperature in the range of about 210 to 725 F.; otherwise it does not have the desired lubricating and shock-absorbent action. It should have a residual carbon content of at least 55 percent. Examples of suitable carbonaceous materials are pitch (coal tar or petroleum) and high volatile coal.
  • the carbonaceous material should be minus 50 mesh or finer, since coarser sizes cannot be depended upon to mix uniformly with the ore material.
  • I transfer the ore and carbonaceous materials from the sources 10 and 12 to a mixing device 13, conveniently a pugmill or a ball mill, where I mix the particles intimately.
  • a mixing device 13 conveniently a pugmill or a ball mill, where I mix the particles intimately.
  • I provide conventional automatic metering devices 14 and 15 to regulate the proportions of the two materials going into the mixing device.
  • the final mixture contains about 6 to 21 percent by weight of carbonaceous material.
  • I use pitch the proportion is in the lower end of this range, that is, about 6 to 15 percent.
  • I use coal the proportion is in the upper end, that is, about 15 to 21 percent.
  • the lower limit is determined by the minimum quantity of binder needed to produce a strong agglomerate.
  • the upper limit is determined only by practical and economic considerations, since a large excess of binder serves no purpose.
  • pitch As pitch is heated, it softens gradually without having a sharp melting point, but specifications of pitch sold commercially usually include a nominal softening temperature. This is the temperature at which a /2 inch cube of the material suspended from a length of B. and S. Gage No. 12 copper wire and heated in an air bath at the rate of 5 C. per minute falls from the wire.
  • I use pitch I heat the mixture to a temperature at least 10 F. above the softening temperature of the pitch, but not high enough to cause any significant devolatilization, that is, not more than about 50 F. above the softening temperature.
  • I use coal I heat the mixture to a 3,212,877 Patented Oct. 19, 1965 temperature of about 600 to 725 F., or preferably 650 to 700 F.
  • a conventional extrusion press for particulate material customarily includes a pugmill into which the extrusion materials are fed and mixed, a screw or plunger means for urging material from the pugmill into a chamber, and a die through which material is forced as it leaves the chamber.
  • a die of relatively small diameter commonly to 1 inch.
  • I can apply heat to both the pugmill section and to the auger or plunger sec tion by conventional means, such as electrical heating tape, or gas-fired heaters or a circulating heat transfer medium.
  • the material discharges from the extrusion press in the form of a rod R which can be broken or cut into pieces of appropriate length in any known manner, such as with a cutter 17.
  • Example 11 I mixed parts by weight of Lac Jeannine iron ore concentrate (75% minus 325 mesh) with 15 parts by weight of Maple Creek coal minus 50 mesh), a high-volatile coal. I performed the mixing in a ball mill. I heated the mixture to about 650 F. and extruded it through a die inch in diameter at a rate of about 15 inches per minute. The resulting agglomerates again appeared satisfactory for blast furnace use.
  • my invention affords a simple inexpensive method of agglomerating ore materials and making a product suitable for charging to a blast furnace. It is critical to the successful practice of the invention that prior to the extrusion step the carbonaceous material is heated only to a temperature at which it softens, and not to a temperature at which there is any significant coking. The softened material acts as a lubricant in the extrusion press, while coke is hard and brittle and cannot be extruded.
  • Agglomerates produced by my method contain pitch or coal as a binder in substantially their original state, although of course the binder cokes later when the agglomerates are charged to a blast furnace. For this reason the binder should have a residual carbon content of at least 55 percent.
  • a method of agglomerating ore material fines comprising mixing minus Ms inch fines with a carbonaceous material which has a softening temperature in the range of about 210 to 725 F. and a residual carbon content of at least 55 percent in proportions to provide about 6 to 21 percent by weight of carbonaceous material in the resulting mixture, heating the mixture to a temperature within the range of about 220 to 725 F. to soften the carbonaceous material without significantly coking it, and extruding the heated mixture with the softened carbonaceous material acting as a lubricant during extrusion, said carbonaceous material acting as a binder in substantially its originl state in the extruded product after the product cools and the carbonaceous material solidifies.
  • carbonaceous material is selected from the group which consists of coal tar pitch, petroleum pitch and high volatile coal.
  • a method of agglomerating ore material fines comprising mixing minus /s inch fines with pitch having a residual carbon content of at least 55 percent and a nominal softening temperature of at least 210 F. in proportions to provide about 6 to 15 percent by weight of pitch in the resulting mixture, heating the mixture to a temperature at least 10 F. above the softening temperature of the pitch but to a maximum of about 50 F. thereabove, thus softening the pitch without significantly coking it, and extruding the heated mixture with the softened pitch acting as a lubricant during extrusion, said pitch acting as a binder in substantially its original state in the extruded product after the product cools and the pitch solidifies.
  • a method of agglomerating ore material fines comprising mixing minus inch fines with high volatile coal which has a residual carbon content of at least percent 25 in proportions to provide about 15 to 21 percent by weight of coal in the resulting mixture, heating the mixture to a temperature in the range of about 600 to 725 F. to soften the coal without significantly coking it, and extruding the heated mixture with the softened coal acting as a lubricant during extrusion, said coal acting as a binder in substantially its original state in the extruded product after the product cools and the coal solidifies.

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Description

Oct. 19, 1965 u c 3,212,877
METHOD OF AGGLOMERATING ORE Filed Jan. 24, 1963 CARBO/VA c5005 ORE MA TEE/AL MA TEE/AL MIX/N6 AND HEAT/N6 DEV/CE INVENTOR ROGER L. RUECKL Attorney United States Patent 3,212,877 METHOD OF AGGLOMERATING ORE Roger L. Rueckl, Penn Hills Township, Allegheny County, Pa., assiguor to United States Steel Corporation, a corporation of New Jersey Filed Jan. 24, 1963, Ser. No. 253,604 5 Claims. (Cl. 75--3) This invention relates to an improved method of agglomerating ore fines or the like.
An object of the invention is to provide an improved extrusion method of forming finely divided ore material into agglomerates suitable for charging to a blast furnace.
A more specific object is to provide an extrusion method of forming agglomerates in which a finely divided ore material is mixed with a carbonaceous binder having a softening temperature in the range of about 210 to 725 F., and the mixture is extruded at a temperature within this range without coking the binder.
In the drawing:
The single figure is a schematic fiowsheet of my ag glomerating method.
The drawing shows schematically a source of a finely divided ore material and a source 12 of carbonaceous material. The ore material should be substantially 100 percent minus A5 inch and at least 50 percent minus 100 mesh, but can be selected from a wide choice of materials, such as iron ore, finely divided iron-bearing concentrates, sinter returns, ores of other metals like manganese or zinc, or by-product dusts of potential economic value like ferromanganese downcomer dust. The carbonaceous material must soften yet remain viscous at a moderate temperature in the range of about 210 to 725 F.; otherwise it does not have the desired lubricating and shock-absorbent action. It should have a residual carbon content of at least 55 percent. Examples of suitable carbonaceous materials are pitch (coal tar or petroleum) and high volatile coal. The carbonaceous material should be minus 50 mesh or finer, since coarser sizes cannot be depended upon to mix uniformly with the ore material.
I transfer the ore and carbonaceous materials from the sources 10 and 12 to a mixing device 13, conveniently a pugmill or a ball mill, where I mix the particles intimately. Preferably I provide conventional automatic metering devices 14 and 15 to regulate the proportions of the two materials going into the mixing device. The final mixture contains about 6 to 21 percent by weight of carbonaceous material. When I use pitch, the proportion is in the lower end of this range, that is, about 6 to 15 percent. When I use coal, the proportion is in the upper end, that is, about 15 to 21 percent. The lower limit is determined by the minimum quantity of binder needed to produce a strong agglomerate. The upper limit is determined only by practical and economic considerations, since a large excess of binder serves no purpose.
I heat the mixture of particles to a temperature within a range of about 220 to 725 R, either by applying heat externally to the mixing device or in a separate heater. As pitch is heated, it softens gradually without having a sharp melting point, but specifications of pitch sold commercially usually include a nominal softening temperature. This is the temperature at which a /2 inch cube of the material suspended from a length of B. and S. Gage No. 12 copper wire and heated in an air bath at the rate of 5 C. per minute falls from the wire. When I use pitch, I heat the mixture to a temperature at least 10 F. above the softening temperature of the pitch, but not high enough to cause any significant devolatilization, that is, not more than about 50 F. above the softening temperature. When I use coal, I heat the mixture to a 3,212,877 Patented Oct. 19, 1965 temperature of about 600 to 725 F., or preferably 650 to 700 F.
Next I transfer the heated mixture to a conventional extrusion press 16. Although the drawing shows the mixing device and extrusion press as separate items, conveniently they are formed as a single piece of equipment. A conventional extrusion press for particulate material, such as extrudable refractories, customarily includes a pugmill into which the extrusion materials are fed and mixed, a screw or plunger means for urging material from the pugmill into a chamber, and a die through which material is forced as it leaves the chamber. I use a die of relatively small diameter, commonly to 1 inch. I can apply heat to both the pugmill section and to the auger or plunger sec tion by conventional means, such as electrical heating tape, or gas-fired heaters or a circulating heat transfer medium. The material discharges from the extrusion press in the form of a rod R, which can be broken or cut into pieces of appropriate length in any known manner, such as with a cutter 17.
Example I Example 11 I mixed parts by weight of Lac Jeannine iron ore concentrate (75% minus 325 mesh) with 15 parts by weight of Maple Creek coal minus 50 mesh), a high-volatile coal. I performed the mixing in a ball mill. I heated the mixture to about 650 F. and extruded it through a die inch in diameter at a rate of about 15 inches per minute. The resulting agglomerates again appeared satisfactory for blast furnace use.
From the foregoing description it is seen that my invention affords a simple inexpensive method of agglomerating ore materials and making a product suitable for charging to a blast furnace. It is critical to the successful practice of the invention that prior to the extrusion step the carbonaceous material is heated only to a temperature at which it softens, and not to a temperature at which there is any significant coking. The softened material acts as a lubricant in the extrusion press, while coke is hard and brittle and cannot be extruded. Agglomerates produced by my method contain pitch or coal as a binder in substantially their original state, although of course the binder cokes later when the agglomerates are charged to a blast furnace. For this reason the binder should have a residual carbon content of at least 55 percent.
While I have shown and described certain preferred embodiments of my invention, it is apparent that other modifications may arise. Therefore, I do not wish to be limited to the disclosure set forth but only by the scope of the appended claims.
I claim:
1. A method of agglomerating ore material fines comprising mixing minus Ms inch fines with a carbonaceous material which has a softening temperature in the range of about 210 to 725 F. and a residual carbon content of at least 55 percent in proportions to provide about 6 to 21 percent by weight of carbonaceous material in the resulting mixture, heating the mixture to a temperature within the range of about 220 to 725 F. to soften the carbonaceous material without significantly coking it, and extruding the heated mixture with the softened carbonaceous material acting as a lubricant during extrusion, said carbonaceous material acting as a binder in substantially its originl state in the extruded product after the product cools and the carbonaceous material solidifies.
2. A method as defined in claim 1 in which the carbonaceous material is selected from the group which consists of coal tar pitch, petroleum pitch and high volatile coal.
3. A method of agglomerating ore material fines comprising mixing minus /s inch fines with pitch having a residual carbon content of at least 55 percent and a nominal softening temperature of at least 210 F. in proportions to provide about 6 to 15 percent by weight of pitch in the resulting mixture, heating the mixture to a temperature at least 10 F. above the softening temperature of the pitch but to a maximum of about 50 F. thereabove, thus softening the pitch without significantly coking it, and extruding the heated mixture with the softened pitch acting as a lubricant during extrusion, said pitch acting as a binder in substantially its original state in the extruded product after the product cools and the pitch solidifies.
4. A method of agglomerating ore material fines comprising mixing minus inch fines with high volatile coal which has a residual carbon content of at least percent 25 in proportions to provide about 15 to 21 percent by weight of coal in the resulting mixture, heating the mixture to a temperature in the range of about 600 to 725 F. to soften the coal without significantly coking it, and extruding the heated mixture with the softened coal acting as a lubricant during extrusion, said coal acting as a binder in substantially its original state in the extruded product after the product cools and the coal solidifies.
5. A method as defined in claim 4 in Which the mixture is heated to a temperature in the range of about 650 to 700 F.
References Cited by the Examiner UNITED STATES PATENTS 748,739 1/04 Huffelmann -3 1,158,363 10/15 Bibb 75-3 1,478,215 12/23 Giesecke 75-3 1,863,507 6/32 Southgate 75-3 2,834,660 5/58 Eisenhui 75-3 2,918,364 12/59 Lesher 75-4 FOREIGN PATENTS 219,706 6/ 25 Great Britain.
679,165 9/52 Great Britain.
BENJAMIN HENKIN, Primary Examiner.

Claims (1)

1. A METHOD OF AGGLOMERATING ORE MATERIAL FINES COMPRISING MIXING MINUS 1/8 INCH FINES WITH A CARBONACEOUS MATERIAL WHICH HAS A SOFTENING TEMPERATURE IN THE RANGE OF ABOUT 210* TO 725*F. AND A RESIDUAL CARBON CONTENT OF AT LEAST 55 PERCENT IN PROPORTIONS TO PROVIDE ABOUT 6 TO 21 PERCENT BY WEIGHT OF CARBONACEIOUS MATERIAL IN THE RESULTING MIXTURE, HEATING THE MIXTURE TO A TEMPERATURE WITHIN THE RANGE OF ABOUT 220* TO 725*F. TO SOFTEN THE CARBONACEIOUS MATERIAL WITHOUT SIGNIFICANTLY COKING IT, AND EXTRUDING THE HEATED MIXTURE WITH THE SOFTENED CARBONACEOUS MATERIAL ACTING AS A LUBRICANT DURING EXTRUSION, SAID CARBONACEIOUS MATERIAL ACTING AS A BINDER IN SUBSTANTIALLY ITS ORIGINAL STATE IN THE EXTRUDED PRODUCT AFTER THE PRODUCT COOLS AND THE CARBONACEIOUS MATERIAL SOLIDIFIES.
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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3308219A (en) * 1963-05-16 1967-03-07 Metallgesellschaft Ag Method for making briquettes containing coal
US3374085A (en) * 1966-06-13 1968-03-19 Kaiser Ind Corp Process for producing aggregate containing oxygen steel process dust
US3753683A (en) * 1970-12-28 1973-08-21 Dravo Corp Method and apparatus for carbonizing and desulfurizing coal-iron compacts
US3960543A (en) * 1973-07-13 1976-06-01 Metallgesellschaft Aktiengesellschaft Process of producing self-supporting briquettes for use in metallurgical processes
US4474603A (en) * 1982-09-24 1984-10-02 Vadis Marty K Method of producing an ore pellet
US4517014A (en) * 1982-09-24 1985-05-14 Vadis Marty K Method of producing an ore pellet
US6342089B1 (en) 1997-09-02 2002-01-29 Mcgaa John R. Direct reduced iron pellets

Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US748739A (en) * 1904-01-05 Ho model
US1158363A (en) * 1914-04-01 1915-10-26 Continental Process Corp Cohering mass and process or forming the same.
US1478215A (en) * 1921-02-17 1923-12-18 Giesecke Carl Process for making agglomerates of fine ores
GB219706A (en) * 1923-07-27 1925-06-11 Henning Gustav Flodin Improvements in methods for producing metals and metal alloys low in carbon
US1863507A (en) * 1930-08-26 1932-06-14 George T Southgate Process of agglomerating and reducing ores
GB679165A (en) * 1946-07-13 1952-09-17 American Cyanamid Co Treatment of iron ore flotation concentrates
US2834660A (en) * 1952-03-19 1958-05-13 Gelsenkirchener Bergwerks Ag Process of briquetting
US2918364A (en) * 1957-10-30 1959-12-22 Lesher And Associates Inc Method of forming pellets of finely divided coked carbonaceous material and finely divided non-fusing material

Patent Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US748739A (en) * 1904-01-05 Ho model
US1158363A (en) * 1914-04-01 1915-10-26 Continental Process Corp Cohering mass and process or forming the same.
US1478215A (en) * 1921-02-17 1923-12-18 Giesecke Carl Process for making agglomerates of fine ores
GB219706A (en) * 1923-07-27 1925-06-11 Henning Gustav Flodin Improvements in methods for producing metals and metal alloys low in carbon
US1863507A (en) * 1930-08-26 1932-06-14 George T Southgate Process of agglomerating and reducing ores
GB679165A (en) * 1946-07-13 1952-09-17 American Cyanamid Co Treatment of iron ore flotation concentrates
US2834660A (en) * 1952-03-19 1958-05-13 Gelsenkirchener Bergwerks Ag Process of briquetting
US2918364A (en) * 1957-10-30 1959-12-22 Lesher And Associates Inc Method of forming pellets of finely divided coked carbonaceous material and finely divided non-fusing material

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3308219A (en) * 1963-05-16 1967-03-07 Metallgesellschaft Ag Method for making briquettes containing coal
US3374085A (en) * 1966-06-13 1968-03-19 Kaiser Ind Corp Process for producing aggregate containing oxygen steel process dust
US3753683A (en) * 1970-12-28 1973-08-21 Dravo Corp Method and apparatus for carbonizing and desulfurizing coal-iron compacts
US3960543A (en) * 1973-07-13 1976-06-01 Metallgesellschaft Aktiengesellschaft Process of producing self-supporting briquettes for use in metallurgical processes
US4474603A (en) * 1982-09-24 1984-10-02 Vadis Marty K Method of producing an ore pellet
US4517014A (en) * 1982-09-24 1985-05-14 Vadis Marty K Method of producing an ore pellet
US6342089B1 (en) 1997-09-02 2002-01-29 Mcgaa John R. Direct reduced iron pellets

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