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4655436 Method and apparatus for recovering and reusing energy from a melting furnace
361
New Patents
from the coal ash, the processed ash comprises a quality pozzolan.
4655436 METHOD AND APPARATUS FOR RECOVERING AND REUSING ENERGY FROM A MELTING FURNACE Thomas W Williams A heat recovery and storage system for use in connection with a melting furnace. In such system, heat from the exhaust gas of a melting furnace is recovered and used to preheat scrap metal and to maintain such preheated scrap metal in its preheated form until it is charged into the melting furnace.
The apparatus comprises an insulated storage tank adapted to hold a liquified cryogenic fluid and vapor emanating from the liquified cryogenic fluid, an insulated working chamber adapted to hold an object to be treated, and a vacuum pump for evacuating the interior of the working chamber. The storage tank is in fluid communication with the working chamber, either directly, or through a vapor reservoir adapted to hold the vapor emanating from the cryogenic fluid. The method comprises introducing the vapor and/or liquid cryogen into the working chamber either in discrete or continuous amounts. The working chamber can be evacuated to a specific negative pressure either prior to introducing the vapor and/or liquid cryogen or simultaneously as the cryogens are introduced. The apparatus also provides the capability of heating materials from cryogenic levels to room-or-higher-temperature levels in a choice of ambient gases.
4666575 METHOD OF RECOVERING GALLIUM FROM SCRAP CONTAINING GALLIUM Shigeki Kubo, Niihama, Japan assigned to Sumitomo Metal Mining Company Limited Scrap containing gallium and arsenic is treated with chlorine gas to form a crude gallium and arsenic chloride mixture. Arsenic chloride and impurities having a lower boiling point than that of arsenic chloride are removed from the mixture by vaporization so that crude gallium chloride may be obtained. The crude gallium chloride is purified by distillation. The purified gallium chloride is electrolyzed to yield metallic gallium. If the scrap has a molar gallium/arsenic ratio exceeding 1, arsenic chloride or metallic arsenic or both are added to the scrap before it if treated with chlorine gas.
4667478 APPARATUS AND METHOD FOR THE CRYOGENIC TREATMENT AND HEATING OF MATERIALS Robert H Jones assigned to Durotech Corporation
4667832 APPARATUS FOR PROCESSING AND RECOVERY OF THE METAL CONTAINERS FROM TRASH Nyles V Reinfeld A magnetic can separator where a supply device drops crushed cans onto a mechanism that includes a non-magnetic separator disc positioned by a shaft for permitting rotation of the disc at a controlled speed, a plurality of magnetic members secured to the under surface of the disc for attracting magnetic cans and retaining them on the disc, and a guide secured adjacent to and above the top surface of the disc to engage any articles thereon and extending generally radially of the disc offset from its center to engage cans or articles on the upper surface of the disc and as the disc is rotated, the crushed cans are progressively stripped from the upper surface of the disc by the guide whereas the non-magnetic cans are thrown circumferentially from the disc substantially immediately upon deposit thereon. The separator disc can be positioned at an angle of up to about 50 degrees to the horizontal for improved operation.
New Patents
from the coal ash, the processed ash comprises a quality pozzolan.
4655436 METHOD AND APPARATUS FOR RECOVERING AND REUSING ENERGY FROM A MELTING FURNACE Thomas W Williams A heat recovery and storage system for use in connection with a melting furnace. In such system, heat from the exhaust gas of a melting furnace is recovered and used to preheat scrap metal and to maintain such preheated scrap metal in its preheated form until it is charged into the melting furnace.
The apparatus comprises an insulated storage tank adapted to hold a liquified cryogenic fluid and vapor emanating from the liquified cryogenic fluid, an insulated working chamber adapted to hold an object to be treated, and a vacuum pump for evacuating the interior of the working chamber. The storage tank is in fluid communication with the working chamber, either directly, or through a vapor reservoir adapted to hold the vapor emanating from the cryogenic fluid. The method comprises introducing the vapor and/or liquid cryogen into the working chamber either in discrete or continuous amounts. The working chamber can be evacuated to a specific negative pressure either prior to introducing the vapor and/or liquid cryogen or simultaneously as the cryogens are introduced. The apparatus also provides the capability of heating materials from cryogenic levels to room-or-higher-temperature levels in a choice of ambient gases.
4666575 METHOD OF RECOVERING GALLIUM FROM SCRAP CONTAINING GALLIUM Shigeki Kubo, Niihama, Japan assigned to Sumitomo Metal Mining Company Limited Scrap containing gallium and arsenic is treated with chlorine gas to form a crude gallium and arsenic chloride mixture. Arsenic chloride and impurities having a lower boiling point than that of arsenic chloride are removed from the mixture by vaporization so that crude gallium chloride may be obtained. The crude gallium chloride is purified by distillation. The purified gallium chloride is electrolyzed to yield metallic gallium. If the scrap has a molar gallium/arsenic ratio exceeding 1, arsenic chloride or metallic arsenic or both are added to the scrap before it if treated with chlorine gas.
4667478 APPARATUS AND METHOD FOR THE CRYOGENIC TREATMENT AND HEATING OF MATERIALS Robert H Jones assigned to Durotech Corporation
4667832 APPARATUS FOR PROCESSING AND RECOVERY OF THE METAL CONTAINERS FROM TRASH Nyles V Reinfeld A magnetic can separator where a supply device drops crushed cans onto a mechanism that includes a non-magnetic separator disc positioned by a shaft for permitting rotation of the disc at a controlled speed, a plurality of magnetic members secured to the under surface of the disc for attracting magnetic cans and retaining them on the disc, and a guide secured adjacent to and above the top surface of the disc to engage any articles thereon and extending generally radially of the disc offset from its center to engage cans or articles on the upper surface of the disc and as the disc is rotated, the crushed cans are progressively stripped from the upper surface of the disc by the guide whereas the non-magnetic cans are thrown circumferentially from the disc substantially immediately upon deposit thereon. The separator disc can be positioned at an angle of up to about 50 degrees to the horizontal for improved operation.