Patents by Inventor Timothy P. GUSHANAS
Timothy P. GUSHANAS 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: 12092392Abstract: A main heat exchanger receives and partially condenses an effluent fluid stream so that a mixed phase effluent stream is formed. A primary separation device receives and separates the mixed phase effluent stream into a primary vapor stream including hydrogen and a primary liquid stream including an olefinic hydrocarbon. The main heat exchanger receives and warms at least a portion of the primary vapor stream to provide refrigeration for partially condensing the effluent fluid stream. The main heat exchanger also receives, warms and partially vaporizes the primary liquid stream. A mixed refrigerant compression system also provides refrigeration in the main heat exchanger.Type: GrantFiled: November 25, 2020Date of Patent: September 17, 2024Assignee: Chart Energy & Chemicals, Inc.Inventors: Douglas A. Ducote, Jr., Brent A. Heyrman, Timothy P. Gushanas, Richard Hopewell
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Patent number: 12000653Abstract: A system for removing freezing components from a feed gas includes a heat exchanger, a scrub column and a return vapor expansion device. The heat exchanger includes a reflux cooling passage and a return vapor passage. Vapor from the scrub column is directed through the return vapor expansion device, where the temperature and pressure are lowered. The resulting cooled fluid then travels to the return vapor passage of the heat exchanger and is used to cool a vapor stream in the reflux cooling passage to create a reflux fluid stream that is directed to the scrub column.Type: GrantFiled: April 8, 2020Date of Patent: June 4, 2024Assignee: Chart Energy & Chemicals, Inc.Inventors: Douglas A. Ducote, Jr., Timothy P. Gushanas, Mark R. Glanville
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Publication number: 20230375260Abstract: A system for cooling a gas with a mixed refrigerant includes a heat exchanger that receives and cools a feed of the gas so that a product is produced. The system includes a mixed refrigerant processing system having compression devices and aftercoolers as well as a low pressure accumulator and a high pressure accumulator. Liquid from the low pressure accumulator is subcooled, expanded and directed to the primary refrigeration passage. Liquid from the high pressure accumulator is subcooled, expanded and directed to the primary refrigeration passage. Vapor from the high pressure accumulator is liquefied, expanded and directed to the primary refrigeration passage.Type: ApplicationFiled: August 3, 2023Publication date: November 23, 2023Inventors: Peter J. Turner, Michael Malsam, Douglas A. Ducote, JR., Timothy P. Gushanas
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Publication number: 20230366620Abstract: A system for cooling a feed stream including hydrogen or helium with a mixed refrigerant includes a pre-cooling heat exchanger. A compression system has an inlet in fluid communication with the pre-cooling heat exchanger and receives and increases a pressure of a refrigerant vapor stream including hydrogen and/or helium mixed with at least one other refrigerant such that the molecular weight of the mixture is greater than 6 kg/kgmol. The compression system has an outlet in fluid communication with the pre-cooling heat exchanger. A first refrigerant separation device receives fluid from the pre-cooling heat exchanger and has a liquid outlet in fluid communication with the pre-cooling heat exchanger and a vapor outlet. A refrigerant purifier has a purifier inlet in fluid communication with the vapor outlet of the first refrigerant separation device and an outlet in fluid communication with the pre-cooling heat exchanger.Type: ApplicationFiled: May 15, 2023Publication date: November 16, 2023Inventors: Douglas A. Ducote, JR., Timothy P. Gushanas, Brent A. Heyrman, Joseph M. Schwartz, Mathew R. Watt
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Patent number: 11781809Abstract: Provided are mixed refrigerant systems and methods and, more particularly, to a mixed refrigerant system and methods that provides greater efficiency and reduced power consumption via control of a liquid level in a cold vapor separator device.Type: GrantFiled: August 4, 2022Date of Patent: October 10, 2023Assignee: Chart Energy & Chemicals, Inc.Inventors: Douglas A. Ducote, Jr., Timothy P. Gushanas, Peter J. Turner, Michael Malsam
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Patent number: 11732962Abstract: A system for cooling a gas with a mixed refrigerant includes a heat exchanger that receives and cools a feed of the gas so that a product is produced. The system includes a mixed refrigerant processing system having compression devices and aftercoolers as well as a low pressure accumulator and a high pressure accumulator. A cold vapor separator receives vapor from the high pressure accumulator and features a vapor outlet and a liquid outlet. Vapor from the cold vapor separator vapor outlet is cooled, expanded and directed to a primary refrigeration passage of the heat exchanger. Liquid from the liquid outlet of the cold vapor separator is subcooled, expanded and directed to the primary refrigeration passage. Liquid from the low pressure accumulator is subcooled, expanded and directed to the primary refrigeration passage. Liquid from the high pressure accumulator is subcooled, expanded and directed to the primary refrigeration passage.Type: GrantFiled: June 14, 2021Date of Patent: August 22, 2023Assignee: Chart Energy & Chemicals, Inc.Inventors: Douglas A. Ducote, Jr., Timothy P. Gushanas
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Patent number: 11686528Abstract: A system for removing nitrogen from a natural gas fluid feed stream includes a main heat exchanger that receives the natural gas fluid feed stream. A distillation column receives a cooled fluid stream from the main heat exchanger and features a return vapor outlet and a side vapor outlet port. The return vapor outlet provides nitrogen vapor to the main heat exchanger which is warmed therein. The side vapor outlet port provides vapor to the main heat exchanger and a reflux compressor receives and compresses the resulting fluid from the main heat exchanger. A reflux aftercooler receives and cools fluid from the reflux compressor, directs cooled fluid to the main heat exchanger and the resulting fluid is directed to a reflux separation device. The reflux separation device has a vapor outlet and a liquid outlet. The vapor outlet of the reflux separation device directs fluid to the main heat exchanger so that fluid is directed to the first reflux inlet port of the distillation column.Type: GrantFiled: April 1, 2020Date of Patent: June 27, 2023Assignee: Chart Energy & Chemicals, Inc.Inventors: Peter J. Turner, Douglas A. Ducote, Jr., Timothy P. Gushanas
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Patent number: 11629912Abstract: A main heat exchanger receives and partially condenses an effluent fluid stream so that a mixed phase effluent stream is formed. A primary separation device receives and separates the mixed phase effluent stream into a primary vapor stream including hydrogen and a primary liquid stream including an olefinic hydrocarbon. The main heat exchanger receives and warms at least a portion of the primary vapor stream to provide refrigeration for partially condensing the effluent fluid stream. The main heat exchanger also receives, warms and partially vaporizes the primary liquid stream. A mixed refrigerant compression system also provides refrigeration in the main heat exchanger.Type: GrantFiled: April 7, 2022Date of Patent: April 18, 2023Assignee: Chart Energy & Chemicals, Inc.Inventors: Douglas A. Ducote, Jr., Brent A. Heyrman, Timothy P. Gushanas, Richard Hopewell
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Publication number: 20230113414Abstract: A system for separating olefinic hydrocarbon and hydrogen in an effluent fluid stream from a dehydrogenation reactor includes a heat exchanger that receives and partially condenses the effluent fluid stream so that a mixed phase effluent stream is formed. A primary separation device receives and separates the mixed phase effluent stream into a primary vapor stream and a primary liquid product stream. A heat exchanger receives and partially condenses the primary vapor stream so that a mixed phase primary stream is formed. A secondary separation device receives and separates the mixed phase primary stream into a secondary vapor stream and a secondary liquid product stream. A heat exchanger receives and warms the secondary vapor stream to provide refrigeration for partially condensing the effluent fluid stream and a heat exchanger receives and warms the secondary vapor stream to provide refrigeration for partially condensing the primary vapor stream.Type: ApplicationFiled: December 9, 2022Publication date: April 13, 2023Inventors: Douglas A. Ducote, JR., Brent A. Heyrman, Timothy P. Gushanas, Richard Hopewell
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Patent number: 11543181Abstract: A system for separating olefinic hydrocarbon and hydrogen in an effluent fluid stream from a dehydrogenation reactor includes a heat exchanger that receives and partially condenses the effluent fluid stream so that a mixed phase effluent stream is formed. A primary separation device receives and separates the mixed phase effluent stream into a primary vapor stream and a primary liquid product stream. A heat exchanger receives and partially condenses the primary vapor stream so that a mixed phase primary stream is formed. A secondary separation device receives and separates the mixed phase primary stream into a secondary vapor stream and a secondary liquid product stream. A heat exchanger receives and warms the secondary vapor stream to provide refrigeration for partially condensing the effluent fluid stream and a heat exchanger receives and warms the secondary vapor stream to provide refrigeration for partially condensing the primary vapor stream.Type: GrantFiled: October 8, 2019Date of Patent: January 3, 2023Assignee: Chart Energy & Chemicals, Inc.Inventors: Douglas A. Ducote, Jr., Brent A. Heyrman, Timothy P. Gushanas, Richard Hopewell
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Publication number: 20220390169Abstract: A system and method for liquefying a hydrogen gas feed stream uses a pre-cooling refrigerant for pre-cooling the feed stream, where the pre-cooling refrigerant is compressed, cooled and then separated to provide high pressure mixed refrigerant vapor and liquid streams. The high pressure vapor stream is cooled and directed to a cold vapor separator where cold separator liquid and vapor streams are formed. The cold separator vapor stream is cooled and expanded to provide a pre-cool refrigeration stream in a heat exchanger system. The high pressure pre-cooling refrigerant liquid and cold separator liquid streams are cooled and expanded and directed to the pre-cool refrigeration stream. A high pressure primary refrigerant steam, after compression and cooling, is further cooled in the heat exchanger system and then expanded using warm and cold expanders, with the resulting expanded primary refrigerant streams used to liquefy the pre-cooled hydrogen feed stream via heat exchange in the heat exchanger system.Type: ApplicationFiled: June 8, 2022Publication date: December 8, 2022Inventors: Brent A. Heyrman, Timothy P. Gushanas, Ravikumar Vipperla, Mathew R. Watt, Douglas A. Ducote, JR.
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Publication number: 20220373255Abstract: Provided are mixed refrigerant systems and methods and, more particularly, to a mixed refrigerant system and methods that provides greater efficiency and reduced power consumption via control of a liquid level in a cold vapor separator device.Type: ApplicationFiled: August 4, 2022Publication date: November 24, 2022Inventors: Douglas A. Ducote, Jr., Timothy P. Gushanas, Peter J. Turner, Michael Malsam
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Publication number: 20220364789Abstract: A heavies removal heat exchanger cools at least a portion of a feed gas stream. A scrubbing section receives the cooled main feed gas stream. A stripping section receives a fluid stream from the scrubbing section. A stripping gas feed expansion device receives a portion of the feed gas stream and is in fluid communication with the stripping section. A side draw vapor line receives a vapor stream from the vapor outlet of the stripping section and is in fluid communication with a reflux stream cooling passage of the heavies removal heat exchanger. A reflux separation device receives fluid from the heavies removal heat exchanger and has a liquid outlet and a vapor outlet. The liquid outlet is in fluid communication with the scrubbing section. A return vapor expansion device receives a vapor stream from the scrubbing section and directs a cooled vapor stream to a return vapor stream warming passage of the heavies removal heat exchanger.Type: ApplicationFiled: May 13, 2022Publication date: November 17, 2022Inventors: Douglas A. Ducote, Jr., Timothy P. Gushanas, Mark R. Glanville, Ravikumar Vipperla, Peter J. Turner, Brent A. Heyrman
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Patent number: 11428463Abstract: Provided are mixed refrigerant systems and methods and, more particularly, to a mixed refrigerant system and methods that provides greater efficiency and reduced power consumption via control of a liquid level in a cold vapor separator device.Type: GrantFiled: August 20, 2019Date of Patent: August 30, 2022Assignee: Chart Energy & Chemicals, Inc.Inventors: Douglas A. Ducote, Jr., Timothy P. Gushanas, Peter J. Turner, Michael Malsam
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Patent number: 11408673Abstract: Provided are mixed refrigerant systems and methods and, more particularly, to a mixed refrigerant system and methods that provides greater efficiency and reduced power consumption.Type: GrantFiled: April 23, 2020Date of Patent: August 9, 2022Assignee: Chart Energy & Chemicals, Inc.Inventors: Douglas A. Ducote, Jr., Timothy P. Gushanas, Peter J. Turner, Brent Heyrman
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Publication number: 20220228802Abstract: A main heat exchanger receives and partially condenses an effluent fluid stream so that a mixed phase effluent stream is formed. A primary separation device receives and separates the mixed phase effluent stream into a primary vapor stream including hydrogen and a primary liquid stream including an olefinic hydrocarbon. The main heat exchanger receives and warms at least a portion of the primary vapor stream to provide refrigeration for partially condensing the effluent fluid stream. The main heat exchanger also receives, warms and partially vaporizes the primary liquid stream. A mixed refrigerant compression system also provides refrigeration in the main heat exchanger.Type: ApplicationFiled: April 7, 2022Publication date: July 21, 2022Inventors: Douglas A. Ducote, JR., Brent A. Heyrman, Timothy P. Gushanas, Richard Hopewell
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Patent number: 11187457Abstract: A system for cooling a gas with a mixed refrigerant includes a heat exchanger that receives and cools a feed of the gas so that a product is produced. The system includes a mixed refrigerant processing system having compression devices and aftercoolers as well as a low pressure accumulator and a high pressure accumulator. A cold vapor separator receives vapor from the high pressure accumulator and features a vapor outlet and a liquid outlet. Vapor from the cold vapor separator vapor outlet is cooled, expanded and directed to a primary refrigeration passage of the heat exchanger. Liquid from the liquid outlet of the cold vapor separator is subcooled, expanded and directed to the primary refrigeration passage. Liquid from the low pressure accumulator is subcooled, expanded and directed to the primary refrigeration passage. Liquid from the high pressure accumulator is subcooled, expanded and directed to the primary refrigeration passage.Type: GrantFiled: September 21, 2018Date of Patent: November 30, 2021Assignee: Chart Energy & Chemicals, Inc.Inventors: Douglas A. Ducote, Jr., Timothy P. Gushanas
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Publication number: 20210302095Abstract: A system for cooling a gas with a mixed refrigerant includes a heat exchanger that receives and cools a feed of the gas so that a product is produced. The system includes a mixed refrigerant processing system having compression devices and aftercoolers as well as a low pressure accumulator and a high pressure accumulator. A cold vapor separator receives vapor from the high pressure accumulator and features a vapor outlet and a liquid outlet. Vapor from the cold vapor separator vapor outlet is cooled, expanded and directed to a primary refrigeration passage of the heat exchanger. Liquid from the liquid outlet of the cold vapor separator is subcooled, expanded and directed to the primary refrigeration passage. Liquid from the low pressure accumulator is subcooled, expanded and directed to the primary refrigeration passage. Liquid from the high pressure accumulator is subcooled, expanded and directed to the primary refrigeration passage.Type: ApplicationFiled: June 14, 2021Publication date: September 30, 2021Inventors: Douglas A. Ducote, JR., Timothy P. Gushanas
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Publication number: 20210148632Abstract: A main heat exchanger receives and partially condenses an effluent fluid stream so that a mixed phase effluent stream is formed. A primary separation device receives and separates the mixed phase effluent stream into a primary vapor stream including hydrogen and a primary liquid stream including an olefinic hydrocarbon. The main heat exchanger receives and warms at least a portion of the primary vapor stream to provide refrigeration for partially condensing the effluent fluid stream. The main heat exchanger also receives, warms and partially vaporizes the primary liquid stream. A mixed refrigerant compression system also provides refrigeration in the main heat exchanger.Type: ApplicationFiled: November 25, 2020Publication date: May 20, 2021Inventors: Douglas A. Ducote, JR., Brent A. Heyrman, Timothy P. Gushanas, Richard Hopewell
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Publication number: 20200340740Abstract: A system for removing nitrogen from a natural gas fluid feed stream includes a main heat exchanger that receives the natural gas fluid feed stream. A distillation column receives a cooled fluid stream from the main heat exchanger and features a return vapor outlet and a side vapor outlet port, The return vapor outlet provides nitrogen vapor to the main heat exchanger which is warmed therein. The side vapor outlet port provides vapor to the main heat exchanger and a reflux compressor receives and compresses the resulting fluid from the main heat exchanger. A reflux aftercooler receives and cools fluid from the reflux compressor, directs cooled fluid to the main heat exchanger and the resulting fluid is directed to a reflux separation device. The reflux separation device has a vapor outlet and a liquid outlet. The vapor outlet of the reflux separation device directs fluid to the main heat exchanger so that fluid is directed to the first reflux inlet port of the distillation column.Type: ApplicationFiled: April 1, 2020Publication date: October 29, 2020Inventors: Peter J. Turner, Douglas A. Ducote, JR., Timothy P. Gushanas