Patents by Inventor Andrew J. Olsen
Andrew J. Olsen has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 10844791Abstract: A gas turbine may include a rotatable shaft, a compressor disposed about the rotatable shaft and configured to output compressed air, and a combustor disposed about the rotatable shaft. The combustor may be configured to receive the compressed air and output high temperature compressed gas. The gas turbine may further include a power turbine disposed about the rotatable shaft and configured to receive the high temperature compressed gas, and a first liner defining a plurality of holes and disposed around the combustor. The power turbine may be configured to expand the high temperature compressed gas and rotate the rotatable shaft. The first liner may have a first end and a longitudinally opposite second end. The first end may be coupled to an inner surface of the casing at or adjacent an upstream end of the combustor and the second end may be substantially free from any connection with the casing.Type: GrantFiled: March 6, 2017Date of Patent: November 24, 2020Assignee: DRESSER-RAND COMPANYInventors: Andrew J. Olsen, Ivar Austrem, Serkan Yildirim, Zheji Liu
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Patent number: 10578307Abstract: A gas turbine assembly and method for operating the gas turbine assembly are provided. The method for operating the gas turbine assembly may include compressing a process fluid containing inlet air through a compressor to produce compressed inlet air, combining fuel from a main fuel source with the process fluid, and preheating the process fluid containing the inlet air and the fuel in a warmer disposed downstream from the compressor. The method may also include heating an oxidizer by flowing the preheated process fluid from the warmer to the oxidizer, and oxidizing the process fluid containing the compressed inlet air and the fuel in the oxidizer to produce an oxidation product. The method may further include expanding the oxidation product in a turbine to generate rotational energy, and preventing the process fluid from flowing upstream to the compressor with a check valve.Type: GrantFiled: August 30, 2016Date of Patent: March 3, 2020Assignee: DRESSER-RAND COMPANYInventors: Andrew J. Olsen, George C. Talabisco, Scott David Wisler, Silvano R. Saretto
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Publication number: 20170175641Abstract: A gas turbine may include a rotatable shaft, a compressor disposed about the rotatable shaft and configured to output compressed air, and a combustor disposed about the rotatable shaft. The combustor may be configured to receive the compressed air and output high temperature compressed gas. The gas turbine may further include a power turbine disposed about the rotatable shaft and configured to receive the high temperature compressed gas, and a first liner defining a plurality of holes and disposed around the combustor. The power turbine may be configured to expand the high temperature compressed gas and rotate the rotatable shaft. The first liner may have a first end and a longitudinally opposite second end. The first end may be coupled to an inner surface of the casing at or adjacent an upstream end of the combustor and the second end may be substantially free from any connection with the casing.Type: ApplicationFiled: March 6, 2017Publication date: June 22, 2017Inventors: Andrew J. Olsen, Ivar Austrem, Serkan Yildirim, Zheji Liu
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Patent number: 9625158Abstract: A gas turbine may include a rotatable shaft, a compressor disposed about the rotatable shaft and configured to output compressed air, and a combustor disposed about the rotatable shaft. The combustor may be configured to receive the compressed air and output high temperature compressed gas. The gas turbine may further include a power turbine disposed about the rotatable shaft and configured to receive the high temperature compressed gas, and a first liner defining a plurality of holes and disposed around the combustor. The power turbine may be configured to expand the high temperature compressed gas and rotate the rotatable shaft. The first liner may have a first end and a longitudinally opposite second end. The first end may be coupled to an inner surface of the casing at or adjacent an upstream end of the combustor and the second end may be substantially free from any connection with the casing.Type: GrantFiled: December 11, 2014Date of Patent: April 18, 2017Assignee: Dresser-Rand CompanyInventors: Andrew J. Olsen, Ivar Austrem, M. Serkan Yildirim, Zheji Liu
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Publication number: 20170102148Abstract: A gas turbine assembly and method for operating the gas turbine assembly are provided. The method for operating the gas turbine assembly may include compressing a process fluid containing inlet air through a compressor to produce compressed inlet air, combining fuel from a main fuel source with the process fluid, and preheating the process fluid containing the inlet air and the fuel in a warmer disposed downstream from the compressor. The method may also include heating an oxidizer by flowing the preheated process fluid from the warmer to the oxidizer, and oxidizing the process fluid containing the compressed inlet air and the fuel in the oxidizer to produce an oxidation product. The method may further include expanding the oxidation product in a turbine to generate rotational energy, and preventing the process fluid from flowing upstream to the compressor with a check valve.Type: ApplicationFiled: August 30, 2016Publication date: April 13, 2017Inventors: Andrew J. Olsen, George C. Talabisco, Scott David Wisler, Silvano R. Saretto
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Publication number: 20150233580Abstract: A gas turbine may include a rotatable shaft, a compressor disposed about the rotatable shaft and configured to output compressed air, and a combustor disposed about the rotatable shaft. The combustor may be configured to receive the compressed air and output high temperature compressed gas. The gas turbine may further include a power turbine disposed about the rotatable shaft and configured to receive the high temperature compressed gas, and a first liner defining a plurality of holes and disposed around the combustor. The power turbine may be configured to expand the high temperature compressed gas and rotate the rotatable shaft. The first liner may have a first end and a longitudinally opposite second end. The first end may be coupled to an inner surface of the casing at or adjacent an upstream end of the combustor and the second end may be substantially free from any connection with the casing.Type: ApplicationFiled: December 11, 2014Publication date: August 20, 2015Applicant: DRESSER-RAND COMPANYInventors: Andrew J. Olsen, Ivar Austrem, M. Serkan Yildirim, Zheji Liu
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Patent number: 8453253Abstract: A method of operating a controller device of an electronic cutting machine. The method includes writing a controller device identifier to memory of the cartridge, writing a cartridge identifier to memory of the controller device, and permitting communication between the controller device and the cartridge.Type: GrantFiled: February 22, 2010Date of Patent: May 28, 2013Assignee: Provo Craft and Novelty, Inc.Inventors: Matthew B. Strong, Paul J. Hepworth, Mark L. Gray, Andrew J. Olsen, Tim Pruss
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Patent number: 7959710Abstract: A method of removing siloxanes from a gas that contains siloxanes and water, the method comprising: (a) expanding the gas to cool the gas and freeze at least some of the water in the gas; and (b) removing the siloxanes and frozen water from the expanded and cooled gas. The method may also include compressing the gas prior to expanding it. The step of expanding the gas may include expanding it through a turbine. The method may also include using an energy input mechanism to drive one or both of the compressor or turbine. The ice and siloxanes may be removed from the gas with a cyclonic separator.Type: GrantFiled: December 29, 2009Date of Patent: June 14, 2011Assignee: FlexEnergy Energy Systems, Inc.Inventors: Andrew J. Olsen, Shaun D. Sullivan
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Publication number: 20100217428Abstract: A system for controlling an electronic cutting machine. The system comprises a cartridge having an interfacing connector and memory and a controller device. The controller device comprises a cartridge connector for establishing an electrical connection with the interfacing connector, memory, and a processor executing a controller application. The controller application writes a controller device identifier to the memory of the connected cartridge, writes a cartridge identifier to the memory of the controller device, and permits usage on the controller device of content associated with the cartridge.Type: ApplicationFiled: February 22, 2010Publication date: August 26, 2010Applicant: Provo Craft and Novelty, Inc.Inventors: Matthew B. Strong, Mark L. Gray, Andrew J. Olsen, Paul J. Hepworth, Tim Pruss
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Publication number: 20100217427Abstract: A method of operating a controller device of an electronic cutting machine. The method includes writing a controller device identifier to memory of the cartridge, writing a cartridge identifier to memory of the controller device, and permitting communication between the controller device and the cartridge.Type: ApplicationFiled: February 22, 2010Publication date: August 26, 2010Applicant: Provo Craft and Novelty, Inc.Inventors: Mark L. Gray, Andrew J. Olsen, Paul J. Hepworth, Tim Pruss, Matthew B. Strong
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Publication number: 20100217719Abstract: A method of validating a cartridge for use with a controller device. The method includes reading a cartridge identifier from at least one of memory of the cartridge and memory of the controller device, obtaining known content associated with the cartridge based on the cartridge identifier, reading actual content from memory of the cartridge, comparing the known content with the actual content, and permitting communication between the controller device and the cartridge when the known content matches the actual content.Type: ApplicationFiled: February 22, 2010Publication date: August 26, 2010Applicant: Provo Craft and Novelty, Inc.Inventors: Andrew J. Olsen, Paul J. Hepworth, Mark L. Gray, Matthew B. Strong
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Publication number: 20100214607Abstract: A method of using a controller device for an electronic cutting machine. The method includes associating at least one of cutting operations and printing operations with glyphs, retrieving the glyphs from at least one of memory of a cartridge in communication with the controller device and memory of the controller device, arranging the glyphs in a screen overlay, and rendering the screen overlay on a screen of the controller device.Type: ApplicationFiled: February 22, 2010Publication date: August 26, 2010Applicant: Provo Craft and Novelty, Inc.Inventors: Paul J. Hepworth, Andrew J. Olsen, Mark L. Gray, Matthew B. Strong
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Publication number: 20100107876Abstract: A method of removing siloxanes from a gas that contains siloxanes and water, the method comprising: (a) expanding the gas to cool the gas and freeze at least some of the water in the gas; and (b) removing the siloxanes and frozen water from the expanded and cooled gas. The method may also include compressing the gas prior to expanding it. The step of expanding the gas may include expanding it through a turbine. The method may also include using an energy input mechanism to drive one or both of the compressor or turbine. The ice and siloxanes may be removed from the gas with a cyclonic separator.Type: ApplicationFiled: December 29, 2009Publication date: May 6, 2010Inventors: Andrew J. Olsen, Shaun D. Sullivan
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Patent number: 7645322Abstract: A method of removing siloxanes from a gas that contains siloxanes and water, the method comprising: (a) expanding the gas to cool the gas and freeze at least some of the water in the gas; and (b) removing the siloxanes and frozen water from the expanded and cooled gas. The method may also include compressing the gas prior to expanding it. The step of expanding the gas may include expanding it through a turbine. The method may also include using an energy input mechanism to drive one or both of the compressor or turbine. The ice and siloxanes may be removed from the gas with a cyclonic separator.Type: GrantFiled: September 15, 2006Date of Patent: January 12, 2010Assignee: Ingersoll Rand Energy Systems CorporationInventors: Andrew J. Olsen, Shaun D. Sullivan
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Publication number: 20080066618Abstract: A method of removing siloxanes from a gas that contains siloxanes and water, the method comprising: (a) expanding the gas to cool the gas and freeze at least some of the water in the gas; and (b) removing the siloxanes and frozen water from the expanded and cooled gas. The method may also include compressing the gas prior to expanding it. The step of expanding the gas may include expanding it through a turbine. The method may also include using an energy input mechanism to drive one or both of the compressor or turbine. The ice and siloxanes may be removed from the gas with a cyclonic separator.Type: ApplicationFiled: September 15, 2006Publication date: March 20, 2008Inventors: Andrew J. Olsen, Shaun D. Sullivan
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Patent number: 6968702Abstract: A radial flow turbine including a rotor having a plurality of vanes defining an inlet, an outlet, and a flow path therebetween. A shroud is positioned to cover at least a portion of the flow path and a housing is positioned to at least partially support the rotor for rotation about a rotational axis. The housing at least partially defines a chamber for the receipt of a flow of products of combustion. A plurality of nozzle guide vane assemblies are positioned to provide fluid communication between the chamber and the inlet. Each of the plurality of nozzle guide vane assemblies is positioned adjacent another nozzle guide vane assembly to at least partially define one of a plurality of converging flow paths. Each nozzle guide vane assembly includes a guide vane positioned between the shroud and the housing and including an aperture therethrough. A bolt engages with the shroud and extends through the aperture to sandwich the guide vane between the shroud and the housing.Type: GrantFiled: December 8, 2003Date of Patent: November 29, 2005Assignee: Ingersoll-Rand Energy Systems CorporationInventors: Malcolm S. Child, Andrew J. Olsen
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Patent number: 6897578Abstract: A microturbine engine comprising a turbine including a first housing and a turbine rotor. The engine also includes a generator having a second housing and a generator rotor. The generator rotor is supported for low-speed rotation by a low-speed bearing. The engine also includes a gearbox having a third housing connected to the first housing and the second housing, a pinion gear, and a low-speed gear connected to the generator rotor and at least partially supported by the low-speed bearing. A shaft is connected to the turbine rotor and the pinion gear and a first high-speed bearing and a second high-speed bearing are positioned to support the turbine rotor and the shaft for high-speed rotation.Type: GrantFiled: December 8, 2003Date of Patent: May 24, 2005Assignee: Ingersoll-Rand Energy Systems CorporationInventors: Andrew J. Olsen, Malcolm S. Child, Ernest J. Sandoe
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Patent number: 6814537Abstract: The invention recites a power turbine assembly including a turbine rotor and a plurality of turbine blades mounted to said rotor and adapted to rotate said rotor in response to a flow of hot gas over said blades. A support structure having a journal bearing and at least one other bearing supports said rotor for rotation, said journal bearing having a proximal end and a distal end with respect to said turbine blades. A supply of lubricant communicates with said journal bearing to provide lubricant between said rotor and an inner surface of said journal bearing, said lubricant damping rotational frequencies of said rotor and creating a temperature gradient from greater than about 1000° F. at said blades to less than about 350° F. at said distal end.Type: GrantFiled: September 24, 2002Date of Patent: November 9, 2004Assignee: Ingersoll-Rand Energy Systems CorporationInventor: Andrew J. Olsen
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Patent number: 6735952Abstract: The invention recites a microturbine system comprising a housing and a turbine including a rotary element having a shaft supported by the housing and rotatable about a rotary axis. A starter wheel is coupled to the shaft and rotatable in response to a stream of high-pressure fluid flowing from a high-pressure flow path. A pump is operable to provide a supply of lubricating fluid. The engine further includes a starter valve receiving the supply of lubricating fluid and being selectively operable to provide one of the stream of high-pressure fluid to the high-pressure flow path and a stream of low-pressure fluid to a low-pressure flow path.Type: GrantFiled: September 10, 2002Date of Patent: May 18, 2004Assignee: Ingersoll-Rand Energy SystemsInventor: Andrew J. Olsen
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Patent number: 6598400Abstract: A cogenerating recuperated microturbine includes a recuperator, an air compressor and a combustor. The combustor burns a fuel along with the compressed air received from the recuperator to create products of combustion. A turbine generator operates in response to expansion of the products of combustion to generate electricity. The products of combustion then flow through the recuperator to preheat the compressed air. The products of combustion then flow out of the recuperator as an exhaust flow. A heat exchanger is movable into and out of the exhaust flow to selectively heat a fluid in the heat exchanger. The heat exchanger is actuated by a piston-cylinder type actuator that operates under the influence of compressed air selectively bled from the air compressor. The actuator may be a single-acting cylinder used in conjunction with a biasing spring, or may be a double-acting cylinder.Type: GrantFiled: October 1, 2001Date of Patent: July 29, 2003Assignee: Ingersoll-Rand Energy Systems CorporationInventors: James S. Nash, James B. Kesseli, Andrew J. Olsen