Patents by Inventor Kyler Stitt
Kyler Stitt 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: 11925880Abstract: A method for separating liquids is disclosed. A feed stream is passed into a separator. The feed stream comprising an organic compound, carbon dioxide, and oxides selected from the group consisting of sulfur oxides, nitrogen oxides, ozone and combinations thereof. A portion an organic-rich stream is separated from a portion of an inorganic-rich stream through separation by gravity. The organic-rich stream contains a portion of the organic compound and a first portion of the carbon dioxide. The inorganic-rich stream contains a portion of the oxides and a second portion of the carbon dioxide.Type: GrantFiled: September 17, 2018Date of Patent: March 12, 2024Assignee: Sustainable Energy Solutions, Inc.Inventors: Larry Baxter, Chris Hoeger, Stephanie Burt, Kyler Stitt, Aaron Sayre, Skyler Chamberlain
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Patent number: 11794127Abstract: Methods and systems for separating a desublimatable compound from hydrocarbons is disclosed. A feed fluid stream, consisting of a hydrocarbon and a desublimatable compound, is passed into an upper chamber of a vessel. The feed fluid stream is cooled in the upper chamber, thereby desublimating a portion of the desublimatable compound out of the feed liquid stream to form a product gas stream and a desublimatable compound snow which is collected in the lower chamber of the vessel. A lower portion of the desublimatable compound snow is melted to form a liquid desublimatable compound stream such that an upper portion of the solid desublimatable compound snow remains as an insulative barrier between the upper chamber and the liquid desublimatable compound stream. The liquid desublimatable compound stream is removed at a rate that matches a production rate of the solid desublimatable compound snow, thereby maintaining the insulative barrier.Type: GrantFiled: March 30, 2020Date of Patent: October 24, 2023Assignee: Sustainable Energy Solutions, IncInventors: Larry Baxter, Stephanie Burt, Dave Frankman, Christopher Hoeger, Eric Mansfield, Skyler Chamberlain, Kyler Stitt
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Publication number: 20210299591Abstract: Methods and systems for separating a desublimatable compound from hydrocarbons is disclosed. A feed fluid stream, consisting of a hydrocarbon and a desublimatable compound, is passed into an upper chamber of a vessel. The feed fluid stream is cooled in the upper chamber, thereby desublimating a portion of the desublimatable compound out of the feed liquid stream to form a product gas stream and a desublimatable compound snow which is collected in the lower chamber of the vessel. A lower portion of the desublimatable compound snow is melted to form a liquid desublimatable compound stream such that an upper portion of the solid desublimatable compound snow remains as an insulative barrier between the upper chamber and the liquid desublimatable compound stream. The liquid desublimatable compound stream is removed at a rate that matches a production rate of the solid desublimatable compound snow, thereby maintaining the insulative barrier.Type: ApplicationFiled: March 30, 2020Publication date: September 30, 2021Applicant: Sustainable Energy Solutions, Inc.Inventors: Larry Baxter, Stephanie Burt, Dave Frankman, Christopher Hoeger, Eric Mansfield, Skyler Chamberlain, Kyler Stitt
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Patent number: 11035611Abstract: The disclosure provides a method for separating components of a gas. A feed gas stream is cooled in a first vessel. The feed gas stream includes methane, water, carbon dioxide, and Natural Gas Liquids. The feed gas stream is cooled in a first vessel. A portion of the water condenses to form a primary liquid stream, resulting in a first depleted gas stream, which is cooled in a second vessel. A portion of the NGLs condense to form a secondary liquid stream, resulting in a second depleted gas stream, which is cooled in a condensing exchanger. A first portion of the methane condenses to form a liquid methane stream, resulting in a third depleted gas stream, which is cooled in a third vessel. A portion of the carbon dioxide condenses, desublimates, or condenses and desublimates as a final product stream, also resulting in a fourth depleted gas stream.Type: GrantFiled: July 13, 2018Date of Patent: June 15, 2021Assignee: Sustainable Energy Solutions, Inc.Inventors: Larry Baxter, Chris Hoeger, Jacom Chamberlain, Kyler Stitt
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Patent number: 10995984Abstract: A method is disclosed for separating components of a gas. A feed gas stream is cooled in the first vessel. The feed gas stream comprises methane, carbon dioxide, and a secondary component. A first portion of the secondary component condenses, desublimates, or a combination thereof to form a primary stream, resulting in a first depleted gas stream. The first depleted gas stream is cooled in a condensing exchanger such that a first portion of the methane condenses as a first liquid methane stream, resulting in a second depleted gas stream. The second depleted gas stream is cooled in the second vessel such that a first portion of the carbon dioxide desublimates to form a solid product stream, resulting in a third depleted gas stream.Type: GrantFiled: July 13, 2018Date of Patent: May 4, 2021Assignee: Sustainable Energy Solutions, Inc.Inventors: Larry Baxter, Chris Hoeger, Jacom Chamberlain, Kyler Stitt
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Patent number: 10969169Abstract: A method is disclosed for separating components of a gas. A feed gas stream is passed into a vessel. The feed gas stream includes methane, carbon dioxide, and water. The feed gas stream is cooled in the vessel such that a portion of the methane and a portion of the carbon dioxide condense and a portion of the water desublimates, resulting in a product stream and a depleted gas stream exiting the vessel.Type: GrantFiled: July 13, 2018Date of Patent: April 6, 2021Assignee: Sustainable Energy Solutions, Inc.Inventors: Larry Baxter, Chris Hoeger, Jacom Chamberlain, Kyler Stitt
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Patent number: 10737225Abstract: A device for bubbling a gas into a liquid is disclosed. The device comprises a first bubbling apparatus nested inside a second bubbling apparatus. The first bubbling apparatus comprises a gas inlet for receiving the gas and a plurality of first openings for releasing the gas. The second bubbling apparatus at least partially encloses the plurality of first openings of the first bubbling apparatus. The second bubbling apparatus receives the gas from the plurality of first openings. The second bubbling apparatus comprises a plurality of second openings for bubbling the gas into the liquid.Type: GrantFiled: October 9, 2017Date of Patent: August 11, 2020Assignee: Hall Labs LLCInventors: Larry Baxter, Jacom Chamberlain, Kyler Stitt, David Frankman, Christopher Bence, Aaron Sayre
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Patent number: 10739067Abstract: In a first aspect, the disclosure provides a method for removing a component from a gas stream. A carrier gas stream is cooled by direct contact with a dehydrating solution stream. The dehydrating solution stream removes a portion of water present in the carrier gas stream and produces a dry gas stream and a wet solution stream. A portion of the component is removed from the dry gas stream by direct contact with a cold contact liquid stream. A depleted gas stream and a slurry stream are produced. Removing the portion of the component may include desublimating, freezing, condensing, depositing, or a combination thereof of the portion of the component out of the dry gas stream as a solid product. The slurry stream may include the solid product and a contact liquid. The solid product is separated from the contact liquid, producing a substantially pure solid product stream and the cold contact liquid stream.Type: GrantFiled: February 20, 2018Date of Patent: August 11, 2020Assignee: Hall Labs LLCInventors: Larry Baxter, Christopher Hoeger, Aaron Sayre, Jacom Chamberlain, Kyler Stitt
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Patent number: 10722812Abstract: A process to prevent fouling using a desublimating heat exchanger is disclosed. An outlet stream from the desublimating heat exchanger may be split into a plurality of parallel streams. The parallel streams may be sent through a plurality of discrete unit operations, and the unit operations may change the temperature of at least one of the parallel streams. Parallel streams of differing temperature may emerge from the unit operations. The parallel streams which are of a similar temperature may be mixed to form a warm stream and a cool stream. The warm stream and the cool stream may be sent to a mixing chamber. A mixed stream of substantially uniform temperature may emerge from the mixing chamber, and the mixed stream may be recycled back to the desublimating heat exchanger. The mixing chamber may be separate from the desublimating heat exchanger, or the parallel streams of differing temperature may be mixed in the desublimating heat exchanger.Type: GrantFiled: April 17, 2017Date of Patent: July 28, 2020Assignee: Hall Labs LLCInventors: Larry Baxter, Kyler Stitt, Aaron Sayre, Christopher Hoeger
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Publication number: 20200086238Abstract: A method for separating liquids is disclosed. A feed stream is passed into a separator. The feed stream comprising an organic compound, carbon dioxide, and oxides selected from the group consisting of sulfur oxides, nitrogen oxides, ozone and combinations thereof. A portion an organic-rich stream is separated from a portion of an inorganic-rich stream through separation by gravity. The organic-rich stream contains a portion of the organic compound and a first portion of the carbon dioxide. The inorganic-rich stream contains a portion of the oxides and a second portion of the carbon dioxide.Type: ApplicationFiled: September 17, 2018Publication date: March 19, 2020Applicant: Hall Labs LLCInventors: Larry Baxter, Chris Hoeger, Stephanie Burt, Kyler Stitt, Aaron Sayre, Skyler Chamberlain
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Patent number: 10543456Abstract: A process for forming a solid product or products is disclosed. The process is provided with n desublimating exchangers. An exchanger E1 being associated with a first exchanger and an exchanger En being associated with an nth exchanger, n representing the number of exchangers. The n exchangers comprise at least one direct-contact exchanger comprising a contact fluid. A process fluid is passed through the n exchangers in order from E1 through En. The process fluid comprises a product component or components. The solid product or products form from the product component or components in the plurality of exchangers by desublimation. The solid product or products are separated from the process fluid. In this manner, a solid product or products is formed.Type: GrantFiled: April 24, 2017Date of Patent: January 28, 2020Assignee: Hall Labs LLCInventors: Larry Baxter, Christopher Hoeger, Stephanie Burt, Kyler Stitt, Eric Mansfield, Aaron Sayre, David Frankman, Andrew Baxter, Nathan Davis
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Patent number: 10537823Abstract: A method for removing carbon dioxide from a carrier liquid using a heat exchanger. A carrier liquid, containing carbon dioxide, is heated through the heat exchanger, causing the carbon dioxide to vaporize. The carrier liquid and the carbon dioxide gas pass to a liquid removal vessel. The carrier liquid is removed and the carbon dioxide gas is compressed. The compressed carbon dioxide gas is provided to the heat exchanger, cooling the carbon dioxide gas opposite the carrier liquid, producing a carbon dioxide liquid.Type: GrantFiled: February 15, 2017Date of Patent: January 21, 2020Assignee: Hall Labs LLCInventors: Larry Baxter, Christopher Hoeger, Eric Mansfield, Kyler Stitt, Stephanie Burt, Nathan Davis
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Patent number: 10537828Abstract: A method for preventing fouling of a demister is disclosed. A process fluid is provided into a vessel. A gas is provided to a gas inlet of the vessel. The gas comprises a component that desublimates, crystallizes, solidifies, reacts, or a combination thereof, in the process fluid, forming a first solid. The gas is passed through the process fluid, the component of the gas forming the first solid, resulting in a component-depleted gas. The component-depleted gas is passed out of the process fluid, causing splashing or spurting of the process fluid and the first solid. The diverter section is provided between the demister and the gas inlet, the diverter section comprising a physical obstruction preventing the process fluid and the first solid from splashing or spurting onto the demister. In this manner, fouling of the demister is prevented.Type: GrantFiled: April 12, 2017Date of Patent: January 21, 2020Assignee: Sustainable Energy Solutions, LLCInventors: Larry Baxter, Andrew Baxter, Kyler Stitt, Aaron Sayre, Stephanie Burt, David Frankman, Nathan Davis
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Patent number: 10537843Abstract: A process for separating a mixture of components is disclosed. A liquid mixture is provided to a separation vessel substantially near a temperature at which a product component freezes. The liquid mixture comprises the product component and a carrier component. The product component and the carrier component are essentially immiscible substantially near the temperature. The liquid mixture is separated into two or more phases, the two or more phases comprising a product component-rich liquid phase and a product component-depleted liquid phase. In this manner, a mixture of components is separated.Type: GrantFiled: April 25, 2017Date of Patent: January 21, 2020Assignee: Hall Labs LLCInventors: Larry Baxter, Kyler Stitt, Stephanie Burt, Christopher Hoeger, Eric Mansfield, Nathan Davis
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Publication number: 20200018547Abstract: A method is disclosed for separating components of a gas. A feed gas stream is passed into a vessel. The feed gas stream includes methane, carbon dioxide, and water. The feed gas stream is cooled in the vessel such that a portion of the methane and a portion of the carbon dioxide condense and a portion of the water desublimates, resulting in a product stream and a depleted gas stream exiting the vessel.Type: ApplicationFiled: July 13, 2018Publication date: January 16, 2020Applicant: NewVistas Capital, LLCInventors: Larry Baxter, Chris Hoeger, Jacom Chamberlain, Kyler Stitt
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Publication number: 20200018546Abstract: A method is disclosed for separating components of a gas. A feed gas stream is cooled in the first vessel. The feed gas stream comprises methane, carbon dioxide, and a secondary component. A first portion of the secondary component condenses, desublimates, or a combination thereof to form a primary stream, resulting in a first depleted gas stream. The first depleted gas stream is cooled in a condensing exchanger such that a first portion of the methane condenses as a first liquid methane stream, resulting in a second depleted gas stream. The second depleted gas stream is cooled in the second vessel such that a first portion of the carbon dioxide desublimates to form a solid product stream, resulting in a third depleted gas stream.Type: ApplicationFiled: July 13, 2018Publication date: January 16, 2020Applicant: NewVistas Capital, LLCInventors: Larry Baxter, Chris Hoeger, Jacom Chamberlain, Kyler Stitt
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Publication number: 20200018545Abstract: The disclosure provides a method for separating components of a gas. A feed gas stream is cooled in a first vessel. The feed gas stream includes methane, water, carbon dioxide, and Natural Gas Liquids. The feed gas stream is cooled in a first vessel. A portion of the water condenses to form a primary liquid stream, resulting in a first depleted gas stream, which is cooled in a second vessel. A portion of the NGLs condense to form a secondary liquid stream, resulting in a second depleted gas stream, which is cooled in a condensing exchanger. A first portion of the methane condenses to form a liquid methane stream, resulting in a third depleted gas stream, which is cooled in a third vessel. A portion of the carbon dioxide condenses, desublimates, or condenses and desublimates as a final product stream, also resulting in a fourth depleted gas stream.Type: ApplicationFiled: July 13, 2018Publication date: January 16, 2020Applicant: NewVistas Capital, LLCInventors: Larry Baxter, Chris Hoeger, Jacom Chamberlain, Kyler Stitt
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Patent number: 10533796Abstract: A method for thickening a cryogenic slurry is disclosed. The method comprises providing a cryogenic slurry flow path, a cryogenic liquid discharge path, and a filter medium between the cryogenic slurry flow path and the cryogenic liquid discharge path. The cryogenic slurry comprises a solid and a cryogenic liquid. The cryogenic slurry is fed into the cryogenic slurry flow path, generally tangential to the filter medium. This causes a portion of the cryogenic liquid to cross the filter medium into the cryogenic liquid discharge path as a cryogenic liquid discharge and the cryogenic slurry to thicken to produce a thickened slurry. The filter medium comprises a cryogenically-stable material such that adsorption of gases is inhibited, deposition of solids is prevented, and temperature-change induced expansion and contraction of the filter medium is optimized.Type: GrantFiled: March 9, 2017Date of Patent: January 14, 2020Inventors: Larry Baxter, Eric Mansfield, Kyler Stitt, David Frankman, Skyler Chamberlain, Nathan Davis, Stephanie Burt, Steven Malone
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Patent number: 10533813Abstract: A method for semi-continuous operation of a heat exchange process that alternates between two heat exchangers is disclosed. The method comprises, first, providing a contact liquid to a first heat exchanger while the second heat exchanger is on standby. The contact liquid contains a dissolved gas, an entrained gas, or residual small particles that foul the first heat exchanger by condensing or depositing as a foulant onto the first heat exchanger, restricting free flow of the contact liquid. Second, detecting a pressure drop across the first heat exchanger. Third, switching flows of the coolant from the first to the second heat exchanger. Fourth, removing the foulant from the now standby first heat exchanger by providing heat to the heat exchanger, passing a non-reactive gas through the heat exchanger, or a combination thereof. In this manner, the heat exchange process operates semi-continuously.Type: GrantFiled: February 6, 2017Date of Patent: January 14, 2020Assignee: Hall Labs LLCInventors: Larry Baxter, Eric Mansfield, Christopher Hoeger, Kyler Stitt, David Frankman, Stephanie Burt, Aaron Sayre, Nathan Davis
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Patent number: 10465984Abstract: Condensable vapors such as carbon dioxide are separated from light gases in a process stream. The systems and methods employ a circulating fluidized particle bed cooled by an out-bed heat exchanger to desublimate the solid form of condensable vapors from the process stream. Gas and solids may be sorted in a separator, and the solids may then be subcooled in a heat exchanger. The condensable vapors may be condensed on the bed particles or in the heat exchanger while the light gases from the process stream, which are not condensed, form a separated light-gas stream.Type: GrantFiled: January 23, 2017Date of Patent: November 5, 2019Assignee: Hall Labs LLCInventors: Larry Baxter, Andrew Baxter, Eric Mansfield, Aaron Sayre, Kyler Stitt, Christopher Hoeger, Stephanie Burt, David Frankman