Patents Represented by Attorney Dickie, McCamey & Chilcote, P.C.
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Patent number: 5831673Abstract: A process for creating the look of broadcast motion picture film comprising the steps of increasing the scan rate of CCD image sensors to output non-interlaced video images, converting the video images from analog to digital form, writing the video images to memory, adding a selective, adjustable amount of two dimensional, electronic artifacts to simulate film grain, reading the video images from memory banks to a video output data bus at predetermined rates, and converting the video images from digital to analog form for recording or broadcast.Type: GrantFiled: December 11, 1995Date of Patent: November 3, 1998Inventors: Glenn B. Przyborski, Robert F. Gibson, John H. Harn, Lloyd R. Hucke, III
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Coal tar pitch blend having low polycyclic aromatic hydrocarbon content and method of making thereof
Patent number: 5746906Abstract: A coal tar pitch/petroleum pitch blend is disclosed together with a method of making the same. In accordance with the invention, a crude coal tar material is selected according to specific properties including QI, specific gravity, water and ash content. A petroleum pitch material is also selected according to its softening point, QI, coking value and sulfur content. The coal tar pitch is distilled to a uncharacteristically high softening point which is then mixed with the petroleum pitch to a desired softening end point. The material retains significant QI and coking value characteristics of pure coal tar pitch particularly for use in Soderberg-type anodes for aluminum smelting as well as electric arc furnace electrodes. PAH emissions, and more specifically B(a)P equivalent emissions, are all reduced by approximately 40%.Type: GrantFiled: August 10, 1995Date of Patent: May 5, 1998Assignee: Koppers Industries, Inc.Inventors: E. Ronald McHenry, William E. Saver -
Patent number: 5724897Abstract: An improved pulverized coal burner that reduces the formation of nitrogen oxides. The coal burner includes fuel splitters that separate a mixture of primary air and coal into a plurality of streams while the mixture is discharged through a diffuser having a plurality of partially open areas and a plurality of blocked areas. After passing through the diffuser, the plurality of streams are discharged into a furnace to be burned. The plurality of partially open areas and blocked areas are created by removing sections of the diffuser and replacing the removed sections with fuel spiders. Creation of these discrete streams delays mixing with secondary air. Because primary air is supplied in sub-stoichiometric quantities, the coal in these split streams will be burned under fuel-rich conditions for the first 100 to 200 milliseconds of combustion, until the delayed mixing of secondary air occurs. Combustion in a fuel-rich environment retards formation of nitrogen oxides in two ways.Type: GrantFiled: October 28, 1996Date of Patent: March 10, 1998Assignees: Duquesne Light Company, Energy Systems AssociatesInventors: Bernard P. Breen, John P. Bionda, James E. Gabrielson, Anthony Hallo
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Patent number: 5694869Abstract: An improved method and apparatus for supplying combustion air in a roof-fired furnace. Part of the combustion air, overfire air, enters through the roof of a roof-fired furnace at positions separate from the coal burners. The separated entry of overfire air ensures that the initial stages of combustion occur in a fuel-rich environment. A fuel-rich environment during the early stages of combustion favors the formation of molecular nitrogen and disfavors the formation of nitrogen oxides during combustion. The overfire air flows roughly parallel to the flow of combustion products emanating from the coal burners. The overfire air can be angled by vanes either slightly towards or slightly away from the combustion products, depending on how long combustion needs to be retarded in order to inhibit the formation of nitrogen oxides.Type: GrantFiled: December 29, 1994Date of Patent: December 9, 1997Assignee: Duquesne Light Company and Energy Systems AssociatesInventors: Bernard P. Breen, John P. Bionda, Jr., James E. Gabrielson, Anthony Hallo, John M. Koltick, Jr.
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Patent number: 5633502Abstract: A plasma processing method and apparatus are disclosed in which a low energy, high frequency plasma is utilized to remove both amorphous damage resulting from various specimen preparation techniques and contamination, mainly in form of hydrocarbons, from transmission electron microscopy specimens and specimen holders. The system comprises a vacuum system, a plasma chamber into which the specimen and the specimen holder are inserted, a housing having an access port with removable inner sleeve components, and a high frequency power supply which is coupled to the plasma chamber and enables both the generation and maintenance of the plasma. The inner sleeve components are preferably capable of accepting specimen holders produced by all manufacturers of transmission electron microscopes. In the preferred embodiment, the vacuum system comprises an oil-free vacuum system. To commence processing, the vacuum system is engaged for the evacuation of the plasma chamber for subsequent formation of the plasma.Type: GrantFiled: August 11, 1995Date of Patent: May 27, 1997Assignee: E. A. Fischione Instruments, Inc.Inventor: Paul E. Fischione
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Patent number: 5568777Abstract: An improved pulverized coal burner that reduces the formation of nitrogen oxides. The coal burner includes fuel splitters that separate a mixture of primary air and coal into a plurality of streams while the mixture is discharged through a diffuser having a plurality of partially open areas and a plurality of blocked areas. After passing through the diffuser, the plurality of streams are discharged into a furnace to be burned. The plurality of partially open areas and blocked areas are created by removing sections of the diffuser and replacing the removed sections with fuel splitters. Creation of these discrete streams delays mixing with secondary air. Because primary air is supplied in sub-stoichiometric quantities, the coal in these split streams will be burned under fuel-rich conditions for the first 100 to 200 milliseconds of combustion, until the delayed mixing of secondary air occurs. Combustion in a fuel-rich environment retards formation of nitrogen oxides in two ways.Type: GrantFiled: December 20, 1994Date of Patent: October 29, 1996Assignees: Duquesne Light Company, Energy Systems AssociatesInventors: Bernard P. Breen, John P. Bionda, Jr., James E. Gabrielson, Anthony Hallo
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Patent number: 5567226Abstract: The present invention provides an apparatus and method to improve the performance of a variety of particulate collection devices. Gaseous ammonia is injected by one or more injectors into a waste gas upstream from a particulate collection device. The amount of ammonia injected from each injector is controlled so that the local concentration of ammonia in the waste gas is approximately the same as the corresponding local concentration of sulfur trioxide in the waste gas. The flow of ammonia from each injector is controlled by measuring several local sulfur trioxide concentrations in the waste stream after the ammonia has been injected. The sulfur trioxide can occur naturally or result from injection. By keeping the concentration of ammonia approximately equal to the concentration of sulfur trioxide, ammonia and sulfur trioxide react to form a liquid product. This liquid reaction product coats the surfaces of particles entrained in the gas stream.Type: GrantFiled: November 14, 1994Date of Patent: October 22, 1996Inventors: Aziz A. Lookman, Roger W. Glickert, James E. Gabrielson
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Patent number: 5546874Abstract: A method and apparatus for reducing the formation of nitrogen oxides during combustion in a roof-fired furnace is disclosed. By blocking at least some of the fuel nozzles associated with a roof-fired burner while leaving open the secondary air openings associated with the blocked fuel nozzles, reduction in NOX emissions from roof-fired furnaces is accomplished. This blocking results in the creation of a localized fuel-rich or just slightly fuel-lean environment near open fuel nozzles because part of the secondary air needed for combustion is being added at a location distant from where the initial combustion occurs. By creating a localized fuel-rich or slightly fuel-lean environment near the open fuel nozzles, the initial stages of combustion occur with little or no excess oxygen present. Because much of the fuel-bound nitrogen is liberated during the initial stages of combustion, it will preferentially react to form molecular nitrogen rather than nitrogen oxides because of the lack of available oxygen.Type: GrantFiled: December 22, 1994Date of Patent: August 20, 1996Assignees: Duquesne Light Company, Energy Systems AssociatesInventors: Bernard P. Breen, John P. Bionda, Jr., James E. Gabrielson, Roger W. Glickert, Anthony Hallo