Industrial electric heating furnaces – Plural diverse heating means – Induction
Reexamination Certificate
2003-04-04
2004-12-14
Hoang, Tu (Department: 3742)
Industrial electric heating furnaces
Plural diverse heating means
Induction
C373S004000, C373S008000, C373S140000, C373S142000
Reexamination Certificate
active
06831939
ABSTRACT:
TECHNICAL FIELD
The present invention relates to induction furnaces and more particularly to the use of an induction furnace to produce hot metal or pig iron while, at the same time, recover iron and volatile metals (such as zinc, lead and cadmium) value from iron and volatile metal containing materials such as electric arc furnace dust (EAF), basic oxygen furnace sludge, mill scale, galvanizing sludge/dust, batteries and other materials. This invention is focused on the expansion of U.S. Pat. No. 6,136,059 (Zoppi) that provides for the processing of EAF dust in an induction furnace to produce zinc and pig iron products. This expansion covers the use of a broader range of feed materials containing iron and volatile metals, plus the production of hot metal in addition to pig iron for use in the steel industry. It also addresses the continuous operation of an induction furnace for this purpose.
BACKGROUND ART
There are many waste materials that are generated during the production of steel and in other manufacturing processes. During the production of steel, electric arc furnace dust and basic oxygen furnace (BOF) dust/sludge are captured and collected for either disposal or recycle. Volitiles and particulate resulting from the BOF process are frequently subjected to a water scrubber, consequently unless the solids are dried, solids accumulated by a water scrubber form a sludge.
The major components in these dusts are iron (up to 60 wt. %) and zinc (up to 30 wt. %), usually in the oxide form. In addition, these dusts contain smaller quantities of calcium, magnesium, manganese, chloride, lead, cadmium and other trace elements. The steel industry generates about 30 to 40 pounds of these types of dust for each ton of steel produced in steel making facilities. The estimated generation of these dusts in the United States in 1997 was in excess of one million tons with nearly half of it being disposed in landfills.
EAF dust is a listed hazardous waste (K061) under United States environmental regulations. Under this regulatory program, EAF dust is subject to specific record keeping, handling requirements and processing costs when it is recycled or disposed of. BOF sludge/dust is not a listed hazardous waste, but the lack of adequate reuse options results in a large quantity of this material being disposed of in landfills.
However, both of these materials contains significant quantities of iron that make it valuable for use directly in steel making processes as a substitute for other iron containing materials such as scrap steel, hot metal, sinter dust, and other iron oxides present at steel making facilities. In addition, EAF dust also contains significant quantities of zinc, which makes it valuable as a feed for zinc manufacturing processes. BOF sludge contains smaller quantities of zinc, but the zinc present can be recovered for reuse as a zinc product.
Present methods for handling EAF dust include processing it in Waelz kilns, rotary hearth furnaces, and flame reactor processes to recover zinc. EAF dust is also subject to stabilization processes followed by landfill disposal. A small quantity of BOF sludge is returned to the BOF steel making process in some locations and some is recycled in other manners, but a large volume is disposed as a waste material in landfills.
Generally, it can be economical to subject EAF dust having a high zinc content to existing zinc recovery procedures, and send EAF dust having a low zinc content to landfills for disposal as a waste. Since hot metal is the only energy source in BOF facilities, only a limited quantity (approximately 20% of the total steel production rate) of scrap and other solid feed materials that require energy for their use in the BOF process can be added to the charge mix. This limits the quantity of BOF sludge that can be returned to the BOF steel making process. As a result some portion of the BOF sludge is usually sent to landfills for disposal.
Other process methods for recovering zinc and/or iron from EAF dust and BOF sludge have been attempted with limited success. Such processes include thermal processes, hydrometallurgical processes or combinations thereof. In most cases, these processes were not successful because they are expensive to build, expensive to operate and/or they cannot be used to process all of the EAF dust and BOF sludge/dust material, so that waste material remains that still must be disposed of in landfills.
In addition, any processes that treat EAF dust are subject to significant environmental regulatory requirements under the Resource Conservation and Recovery Act (“RCRA”). This is due to the fact that current processes have been specifically developed for the sole purpose of processing EAF dust as a hazardous waste. To date, those in the steel industry view EAF dust as a listed hazardous waste, and accordingly logically conclude that using EAF dust as any type of feed or reactant will necessarily result in the formation, generation or preservation of a hazardous material.
Southwick, “Recovery of Iron and Zinc From Steel Mill Wastes,” a presentation from a Conference Organized by Gorham/Inertech in Pittsburgh. Pa. on May 17-19, 1999 provides a summary of various processes proposed to recover iron and zinc from mill wastes. In addition, U.S. Pat. Nos. 4,605,435, 5,013,532, 5,082,493, 5,435,835, 5,439,505, 5,493,580, 5,538,532, 5,667,553, 5,879,617, 5,993,512, 6,102,982, 6,120,577, and 6,221,124 are directed to various methods and apparatus for processing EAF dust.
U.S. Pat. No. 6,136,059 to Zoppi, incorporated herein by reference, discloses the use of an induction furnace for the sole purpose of processing EAF dust. That is, the only feed into the induction furnace after providing a “heel” for the required oxidation and reduction reactions is a half charge of cast iron which is not replenished, but rather to which pellets of EAF dust is added together with coal and small amounts of slagging agents. Zoppi mentions that induction furnaces of the prior art are generally only used as a smelting means in secondary steel and non-ferrous metals processing.
Other patents that discuss the use of induction furnaces in smelting processes that involve steel processing dust include U.S. Pat. Nos. 5,980,606, 5,304,230, 5,249,198, 5,188,658, 4,878,944, 4,802,919, 4,762,554, 4,612,041, and 4,403,327.
The present invention is directed to a method operating an induction furnace to both produce a hot metal or pig iron product and to process iron and volatile metal containing materials such as EAF dust and BOF sludge/dust to recover iron value and concentrate metals which are volatile at the operating temperature of the induction furnace: above 1200° C., metals such as zinc, lead, cadmium, etc.
DISCLOSURE OF THE INVENTION
According to various features, characteristics and embodiments of the present invention which will become apparent as the description thereof proceeds, the present invention provides a method of processing iron and volatile metal containing materials such as electric arc furnace dust and BOF sludge/dust as a feedstock on a batch, continuous or semi-continuous basis which involves:
Providing feed materials from a source thereof, the feed material containing iron and volatile metal components (such as zinc);
Providing an induction furnace;
feeding an iron and volatile metal containing material into the induction furnace on a batch, continuous or semi-continuous basis; and
obtaining an iron-containing product and recovering volatile metals (such as zinc) from the electric arc furnace dust and/or BOF sludge/dust.
The present invention further provides a method of recovering iron value from electric arc furnace dust and BOF sludge/dust on a batch, continuous or semi-continuous basis which involves:
Providing feed material containing iron and volatile metal components (such as zinc);
providing an induction furnace;
feeding an iron-containing material into the induction furnace on a batch, continuous or semi-continuous basis;
feeding the iron and volatile metal containing materials into the induction furnace togethe
Bratina James E.
Fehsenfeld, Sr. Fred M.
Baker & Daniels
Heritage Environmental Services LLC
Hoang Tu
LandOfFree
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