Patents by Inventor Alexander Gofer
Alexander Gofer 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: 11522413Abstract: A turbine and a turbine-generator device for use in electricity generation. The turbine has a universal design and so may be relatively easily modified for use in connection with generators having a rated power output in the range of 50 KW to 5 MW. Such modifications are achieved, in part, through use of a modular turbine cartridge built up of discrete rotor and stator plates sized for the desired application with turbine brush seals chosen to accommodate radial rotor movements from the supported generator. The cartridge may be installed and removed from the turbine relatively easily for maintenance or rebuilding. The rotor housing is designed to be relatively easily machined to dimensions that meet desired operating parameters.Type: GrantFiled: June 8, 2020Date of Patent: December 6, 2022Assignee: Concepts NREC, LLCInventors: David Japikse, Alexander Gofer
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Publication number: 20200303993Abstract: A turbine and a turbine-generator device for use in electricity generation. The turbine has a universal design and so may be relatively easily modified for use in connection with generators having a rated power output in the range of 50 KW to 5 MW. Such modifications are achieved, in part, through use of a modular turbine cartridge built up of discrete rotor and stator plates sized for the desired application with turbine brush seals chosen to accommodate radial rotor movements from the supported generator. The cartridge may be installed and removed from the turbine relatively easily for maintenance or rebuilding. The rotor housing is designed to be relatively easily machined to dimensions that meet desired operating parameters.Type: ApplicationFiled: June 8, 2020Publication date: September 24, 2020Inventors: David Japikse, Alexander Gofer
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Patent number: 10715008Abstract: A turbine and a turbine-generator device for use in electricity generation. The turbine has a universal design and so may be relatively easily modified for use in connection with generators having a rated power output in the range of 50 KW to 5 MW. Such modifications are achieved, in part, through use of a modular turbine cartridge built up of discrete rotor and stator plates sized for the desired application with turbine brush seals chosen to accommodate radial rotor movements from the supported generator. The cartridge may be installed and removed from the turbine relatively easily for maintenance or rebuilding. The rotor housing is designed to be relatively easily machined to dimensions that meet desired operating parameters.Type: GrantFiled: September 3, 2018Date of Patent: July 14, 2020Assignee: Concepts NREC, LLCInventors: David Japikse, Alexander Gofer
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Patent number: 10526964Abstract: Hydrogen gas compression systems that each include a multistage centrifugal compressor in which each stage has an inlet-to-outlet pressure rise ratio of about 1.20 or greater. In one embodiment, the multistage compressor includes six high-speed centrifugal compressors driven at a speed of about 60,000 rpm. The compressor has an output of more than 200,000 kg/day at a pressure of more than 1,000 psig. The compressors for the compression stages are distributed on both sides of a common gearbox, which has gearing that allows axial thrusts from the compressors to be handled effectively. Each stage's compressor has a unique impeller, which is secured to a support shaft using a tension-rod-based attachment system. In another embodiment, the multistage compressor is driven by a combustion turbine and one or more intercoolers are provided between compression stages. Each intercooler is cooled by coolant from an absorption chiller utilizing exhaust gas from the combustion turbine.Type: GrantFiled: April 8, 2016Date of Patent: January 7, 2020Assignee: Concepts NREC, LLCInventors: Frederick E. Becker, Francis A. DiBella, Alexander Gofer, Sharon E. Wight, Karl D. Wygant, Kerry N. Oliphant
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Publication number: 20190068027Abstract: A turbine and a turbine-generator device for use in electricity generation. The turbine has a universal design and so may be relatively easily modified for use in connection with generators having a rated power output in the range of 50 KW to 5 MW. Such modifications are achieved, in part, through use of a modular turbine cartridge built up of discrete rotor and stator plates sized for the desired application with turbine brush seals chosen to accommodate radial rotor movements from the supported generator. The cartridge may be installed and removed from the turbine relatively easily for maintenance or rebuilding. The rotor housing is designed to be relatively easily machined to dimensions that meet desired operating parameters.Type: ApplicationFiled: September 3, 2018Publication date: February 28, 2019Inventors: David Japikse, Alexander Gofer
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Patent number: 10069378Abstract: A turbine-generator device for use in electricity generation using heat from industrial processes, renewable energy sources and other sources. The generator may be cooled by introducing into the gap between the rotor and stator liquid that is vaporized or atomized prior to introduction, which liquid is condensed from gases exhausted from the turbine. The turbine has a universal design and so may be relatively easily modified for use in connection with generators having a rated power output in the range of 50 KW to 5 MW. Such modifications are achieved, in part, through use of a modular turbine cartridge built up of discrete rotor and stator plates sized for the desired application with turbine brush seals chosen to accommodate radial rotor movements from the supported generator. The cartridge may be installed and removed from the turbine relatively easily for maintenance or rebuilding. The rotor housing is designed to be relatively easily machined to dimensions that meet desired operating parameters.Type: GrantFiled: August 3, 2016Date of Patent: September 4, 2018Assignee: Concepts NREC, LLCInventors: David Japikse, Alexander Gofer
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Publication number: 20160344258Abstract: A turbine-generator device for use in electricity generation using heat from industrial processes, renewable energy sources and other sources. The generator may be cooled by introducing into the gap between the rotor and stator liquid that is vaporized or atomized prior to introduction, which liquid is condensed from gases exhausted from the turbine. The turbine has a universal design and so may be relatively easily modified for use in connection with generators having a rated power output in the range of 50 KW to 5 MW. Such modifications are achieved, in part, through use of a modular turbine cartridge built up of discrete rotor and stator plates sized for the desired application with turbine brush seals chosen to accommodate radial rotor movements from the supported generator. The cartridge may be installed and removed from the turbine relatively easily for maintenance or rebuilding. The rotor housing is designed to be relatively easily machined to dimensions that meet desired operating parameters.Type: ApplicationFiled: August 3, 2016Publication date: November 24, 2016Inventors: David Japikse, Alexander Gofer
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Publication number: 20160222970Abstract: Hydrogen gas compression systems that each include a multistage centrifugal compressor in which each stage has an inlet-to-outlet pressure rise ratio of about 1.20 or greater. In one embodiment, the multistage compressor includes six high-speed centrifugal compressors driven at a speed of about 60,000 rpm. The compressor has an output of more than 200,000 kg/day at a pressure of more than 1,000 psig. The compressors for the compression stages are distributed on both sides of a common gearbox, which has gearing that allows axial thrusts from the compressors to be handled effectively. Each stage's compressor has a unique impeller, which is secured to a support shaft using a tension-rod-based attachment system. In another embodiment, the multistage compressor is driven by a combustion turbine and one or more intercoolers are provided between compression stages. Each intercooler is cooled by coolant from an absorption chiller utilizing exhaust gas from the combustion turbine.Type: ApplicationFiled: April 8, 2016Publication date: August 4, 2016Inventors: Frederick E. Becker, Francis A. DiBella, Alexander Gofer, Sharon E. Wight, Karl D. Wygant, Kerry N. Oliphant
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Patent number: 9316228Abstract: Hydrogen gas compression systems that each include a multistage centrifugal compressor in which each stage has an inlet-to-outlet pressure rise ratio of about 1.20 or greater. In one embodiment, the multistage compressor includes six high-speed centrifugal compressors driven at a speed of about 60,000 rpm. The compressor has an output of more than 200,000 kg/day at a pressure of more than 1,000 psig. The compressors for the compression stages are distributed on both sides of a common gearbox, which has gearing that allows axial thrusts from the compressors to be handled effectively. Each stage's compressor has a unique impeller, which is secured to a support shaft using a tension-rod-based attachment system. In another embodiment, the multistage compressor is driven by a combustion turbine and one or more intercoolers are provided between compression stages. Each intercooler is cooled by coolant from an absorption chiller utilizing exhaust gas from the combustion turbine.Type: GrantFiled: March 24, 2010Date of Patent: April 19, 2016Assignee: Concepts NREC, LLCInventors: Frederick E. Becker, Jamin J. Bitter, Francis A. DiBella, Alexander Gofer, Robert J. Pelton, Sharon E. Wight, Karl D. Wygant, Kerry N. Oliphant
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Publication number: 20150322811Abstract: A turbine-generator device for use in electricity generation using heat from industrial processes, renewable energy sources and other sources. The generator may be cooled by introducing into the gap between the rotor and stator liquid that is vaporized or atomized prior to introduction, which liquid is condensed from gases exhausted from the turbine. The turbine has a universal design and so may be relatively easily modified for use in connection with generators having a rated power output in the range of 50 KW to 5 MW. Such modifications are achieved, in part, through use of a modular turbine cartridge built up of discrete rotor and stator plates sized for the desired application with turbine brush seals chosen to accommodate radial rotor movements from the supported generator. The cartridge may be installed and removed from the turbine relatively easily for maintenance or rebuilding. The rotor housing is designed to be relatively easily machined to dimensions that meet desired operating parameters.Type: ApplicationFiled: July 13, 2015Publication date: November 12, 2015Inventors: Kevin Fairman, Francis A. Di Bella, David Japikse, Frederick E. Becker, Alexander Gofer
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Patent number: 9083212Abstract: A turbine-generator device for use in electricity generation using heat from industrial processes, renewable energy sources and other sources. The generator may be cooled by introducing into the gap between the rotor and stator liquid that is vaporized or atomized prior to introduction, which liquid is condensed from gases exhausted from the turbine. The turbine has a universal design and so may be relatively easily modified for use in connection with generators having a rated power output in the range of 50 KW to 5 MW. Such modifications are achieved, in part, through use of a modular turbine cartridge built up of discrete rotor and stator plates sized for the desired application with turbine brush seals chosen to accommodate radial rotor movements from the supported generator. The cartridge may be installed and removed from the turbine relatively easily for maintenance or rebuilding. The rotor housing is designed to be relatively easily machined to dimensions that meet desired operating parameters.Type: GrantFiled: July 9, 2013Date of Patent: July 14, 2015Assignee: Concepts ETI, Inc.Inventors: Kevin Fairman, Francis A. Di Bella, David Japikse, Frederick E. Becker, Alexander Gofer
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Publication number: 20150135696Abstract: An axial-flow turbine assembly that includes one or more features for enhancing the efficiency of the turbine's operation. In one embodiment, the turbine assembly includes a turbine rotor having blades that adjust their pitch angle in direct response to working fluid pressure on the blades themselves or other part(s) of the rotor. In other embodiments, the turbine assembly is deployable in an application, such as an oscillating water column system, in which the flow of working fluid varies over time, for example, as pressure driving the flow changes. In a first of these embodiments, the turbine assembly includes a valve that allows the pressure to build so that the flow is optimized for the turbine's operating parameters. In a second of these embodiments, one or more variable-admission nozzle and shutter assemblies are provided to control the flow through the turbine to optimize the flow relative to the turbine's operating parameters.Type: ApplicationFiled: January 30, 2015Publication date: May 21, 2015Inventors: Frederick E. Becker, Francis A. DiBella, Kevin D. Fairman, Alexander Gofer
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Publication number: 20150121868Abstract: In a geothermal power system that includes a turbine generator, a down-hole heat exchanger, and a turbine pump assembly, various arrangements for the turbine pump assembly are described. Those arrangements address considerations related to the design of the down-hole turbine pump. In such a system, the turbine generator receives a high pressure working fluid from the down-hole system to drive a generator. The turbine generator is in fluid communication with the down-hole heat exchanger and with the turbine portion of a removably disposed down-hole turbine pump assembly. The pump portion of the down-hole turbine pump assembly is in fluid communication with the down-hole heat exchanger and a source of geothermal fluid.Type: ApplicationFiled: October 19, 2012Publication date: May 7, 2015Applicant: GEOTEK ENERGY, LLCInventors: Kenneth W. Fryrear, Michael Pierce, Dave Marshall, Frederick E. Becker, Sharon Wight, Jamin Bitter, Alexander Gofer
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Patent number: 8974184Abstract: An axial-flow turbine assembly that includes one or more features for enhancing the efficiency of the turbine's operation. In one embodiment, the turbine assembly includes a turbine rotor having blades that adjust their pitch angle in direct response to working fluid pressure on the blades themselves or other part(s) of the rotor. In other embodiments, the turbine assembly is deployable in an application, such as an oscillating water column system, in which the flow of working fluid varies over time, for example, as pressure driving the flow changes. In a first of these embodiments, the turbine assembly includes a valve that allows the pressure to build so that the flow is optimized for the turbine's operating parameters. In a second of these embodiments, one or more variable-admission nozzle and shutter assemblies are provided to control the flow through the turbine to optimize the flow relative to the turbine's operating parameters.Type: GrantFiled: February 17, 2012Date of Patent: March 10, 2015Assignee: Concepts ETI, Inc.Inventors: Frederick E. Becker, Francis A. DiBella, Kevin D. Fairman, Alexander Gofer
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Publication number: 20150037136Abstract: A turbine-generator device for use in electricity generation using heat from industrial processes, renewable energy sources and other sources. The generator may be cooled by introducing into the gap between the rotor and stator liquid that is vaporized or atomized prior to introduction, which liquid is condensed from gases exhausted from the turbine. The turbine has a universal design and so may be relatively easily modified for use in connection with generators having a rated power output in the range of 50 KW to 5 MW. Such modifications are achieved, in part, through use of a modular turbine cartridge built up of discrete rotor and stator plates sized for the desired application with turbine brush seals chosen to accommodate radial rotor movements from the supported generator. The cartridge may be installed and removed from the turbine relatively easily for maintenance or rebuilding. The rotor housing is designed to be relatively easily machined to dimensions that meet desired operating parameters.Type: ApplicationFiled: July 9, 2013Publication date: February 5, 2015Inventors: Kevin Fairman, Francis A. Di Bella, David Japikse, Frederick E. Becker, Alexander Gofer
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Publication number: 20130145753Abstract: An axial-flow turbine assembly that includes one or more features for enhancing the efficiency of the turbine's operation. In one embodiment, the turbine assembly includes a turbine rotor having blades that adjust their pitch angle in direct response to working fluid pressure on the blades themselves or other part(s) of the rotor. In other embodiments, the turbine assembly is deployable in an application, such as an oscillating water column system, in which the flow of working fluid varies over time, for example, as pressure driving the flow changes. In a first of these embodiments, the turbine assembly includes a valve that allows the pressure to build so that the flow is optimized for the turbine's operating parameters. In a second of these embodiments, one or more variable-admission nozzle and shutter assemblies are provided to control the flow through the turbine to optimize the flow relative to the turbine's operating parameters.Type: ApplicationFiled: February 17, 2012Publication date: June 13, 2013Applicant: Concepts ETI, Inc.Inventors: Frederick E. Becker, Francis A. DiBella, Kevin D. Fairman, Alexander Gofer
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Publication number: 20120011857Abstract: Hydrogen gas compression systems that each include a multistage centrifugal compressor in which each stage has an inlet-to-outlet pressure rise ratio of about 1.20 or greater. In one embodiment, the multistage compressor includes six high-speed centrifugal compressors driven at a speed of about 60,000 rpm. The compressor has an output of more than 200,000 kg/day at a pressure of more than 1,000 psig. The compressors for the compression stages are distributed on both sides of a common gear-box, which has gearing that allows axial thrusts from the compressors to be handled effectively. Each stage's compressor has a unique impeller, which is secured to a support shaft using a tension-rod-based attachment system. In another embodiment, the multistage compressor is driven by a combustion turbine and one or more intercoolers are provided between compression stages. Each intercooler is cooled by coolant from an absorption chiller utilizing exhaust gas from the combustion turbine.Type: ApplicationFiled: March 24, 2010Publication date: January 19, 2012Applicant: CONCEPTS ETI, INC.Inventors: Frederick E. Becker, Jamin J. Bitter, Francis A. DiBella, Alexander Gofer, Robert J. Pelton, Sharon E. Wight, Karl D. Wygant, Kerry N. Oliphant
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Publication number: 20090068512Abstract: The present invention is a hydrogen refueling station incorporating a fuel cell system serving simultaneously as the power generator and an electrochemical extractor of the pure hydrogen from the hydrogen-rich gas (reformate) produced in steam hydrocarbon reforming process. The hydrogen is stored in a high pressure receiver to be dispensed to vehicles as a fuel. The hydrogen refueling station of the present invention does not require the refilling with DI water.Type: ApplicationFiled: March 10, 2008Publication date: March 12, 2009Inventors: Alexander Gofer, Konstantin Korytnikov
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Publication number: 20080217795Abstract: A device of the present invention transfers the moisture and heat from an exhaust delivered from a fuel cell cathode to the air introduced to a fuel cell as a cathode reactant. The device includes at least one moisture exchange unit having reactant compartment, an exhaust compartment, and a polymer member permeable for water vapor separating these compartments. A reactant inlet manifold and a reactant outlet manifold of the device are in fluid communication through the reactant compartment of the moisture exchange unit. An exhaust inlet manifold and an exhaust outlet manifold of the device are also in fluid communication with the exhaust compartment the moisture exchange unit.Type: ApplicationFiled: March 7, 2008Publication date: September 11, 2008Inventors: Alexander Gofer, Konstantin Korytnikov
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Publication number: 20080067700Abstract: A humidifier of the present invention includes a bundle of hollow porous tubes made of synthetic material disposed in a housing having a plurality of inlet and outlet ports. The humidifier of the present invention is used to control humidity in a fuel cell and is used in various industrial applications. A method of producing the humidifier is disclosed herein.Type: ApplicationFiled: July 2, 2007Publication date: March 20, 2008Inventors: Konstantin Korytnikov, Alexander Gofer