Patents by Inventor Alexander Thomas Frechette
Alexander Thomas Frechette 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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Publication number: 20240133586Abstract: A fluid heating system for heating a production fluid using a thermal transfer fluid, the production fluid being contained in a vessel includes an electric blower configured to receive ambient air and electrical input power and to provide output source air, a combustion system configured to receive the source air from the electric blower and to receive fuel and to provide the thermal transfer fluid, a heat exchanger configured to receive the thermal transfer fluid from the combustion system and configured to provide heat exchange from the thermal transfer fluid to the production fluid, and to provide output exhaust gas, and wherein the electric fan provides a predetermined volume flow rate of the output source air at a predetermined blower efficiency such that the fluid heating system has a Bulk Heat Flux of at least about 14.7 kBTU/Hr/ft2 and a Pressure Drop of at least about 0.7 psi.Type: ApplicationFiled: December 22, 2023Publication date: April 25, 2024Inventors: Alexander Thomas Frechette, Carl Nicholas Nett, Thomas William Tighe, Keith Richard Waltz
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Patent number: 11867427Abstract: A fluid heating system for heating a production fluid using a thermal transfer fluid, the production fluid being contained in a vessel includes an electric blower configured to receive ambient air and electrical input power and to provide output source air, a combustion system configured to receive the source air from the electric blower and to receive fuel and to provide the thermal transfer fluid, a heat exchanger configured to receive the thermal transfer fluid from the combustion system and configured to provide heat exchange from the thermal transfer fluid to the production fluid, and to provide output exhaust gas, and wherein the electric fan provides a predetermined volume flow rate of the output source air at a predetermined blower efficiency such that the fluid heating system has a Bulk Heat Flux of at least about 14.7 kBTU/Hr/ft2 and a Pressure Drop of at least about 0.7 psi.Type: GrantFiled: March 26, 2021Date of Patent: January 9, 2024Assignee: FULTON GROUP N.A., INC.Inventors: Alexander Thomas Frechette, Carl Nicholas Nett, Thomas William Tighe, Keith Richard Waltz
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Publication number: 20230390684Abstract: A system includes an array of connected disinfecting filter assembly modules arranged in a plane to filter air that passes through the array as the air flows along an airflow pathway through the array. Each module includes a housing that defines a first slot and a second slot, and a power control unit. A pre-filter can be slid in its operating position along the first slot of the housing, and an electrically enhanced filter can be slid in its operating position along the second slot. The electrically enhanced filter includes a high voltage wire and a ground grid to create an electric field the high voltage wire and the ground grid and an electrical contact pad that electrically connects the power control unit to the high voltage wire when the electrically enhanced filter is located in its operating position in the second slot of the housing.Type: ApplicationFiled: June 5, 2023Publication date: December 7, 2023Inventors: Timothy George Cusack, Jacob Michael D'Anna, Alexander Thomas Frechette, Xuchen Wang
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Publication number: 20220373202Abstract: The present disclosure is directed methods and apparatus that improve the energy efficiency of an air filtration apparatus while maintaining a high level of filtration capabilities. Air filtration apparatus consistent with the present disclosure may include an input, a fan, a pre-filter, and electrical conductors that provide a high voltage used to charge particles in an air flow. This apparatus may also include a secondary filter that traps charged particles. The pre-filter may filter air using conventional means, where a high energy electric field generated by high voltage conductors may charge particles in the air such that those particles may clump together and be captured in the secondary filter. These clumping effects may allow a less dense filter media to capture particles that would otherwise pass through the less dense filter. Micro-organisms attached to the captured particles may be degraded or destroyed after they are captured in the secondary filter.Type: ApplicationFiled: May 18, 2022Publication date: November 24, 2022Inventors: Vincent G. Lobdell, SR., Mitchell Raymond Lobdell, Xuchen Wang, Kevin GUERNSEY, Alexander Thomas Frechette, Timothy George Cusack, Brooke Alan Rowe
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Publication number: 20220339314Abstract: Methods and apparatus of the present disclosure monitor and change operation of an air filtering system or apparatus dynamically over time. Changes to the air filtering apparatus may be associated with a type of facility and air purity requirements associated with the type of facility. Examples of different types of facilities include an office building, a clean room, and a hospital. Apparatus of the present disclosure may include conventional air filters and may include disinfecting air filter sub-assemblies that use a high voltage to charge particles in the air such that those particles may conglomerate and be captured more easily in an air. Methods consistent with the present disclosure may change an air flow rate or may change the voltage used to charge the air particles as conditions associated with the air of a facility change over time.Type: ApplicationFiled: April 26, 2022Publication date: October 27, 2022Inventors: Vincent G. Lobdell, Mitchell Raymond Lobdell, Xuchen Wang, Kevin GUERNSEY, Alexander Thomas Frechette, Timothy George Cusack, Brooke Alan Rowe
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Publication number: 20220314155Abstract: The present invention is disinfecting air filtration apparatus that allows multiple disinfecting air filtration modules to function in parallel. The apparatus may provide energy to respective parts of a filtration apparatus, such as a V-Bank filter apparatus. The apparatus may also include a front-mounted pre-filter frame that can be secured to other parts of the apparatus without tools. The securing of the pre-filter frame grounds the air filtration module and creates an airtight interface between the air filtration module and the array. Methods consistent with the present disclosure allow for filter apparatus to be connected to or coupled to virtually any size air ducts of an air distribution or a high voltage alternating current air conditioning (HVAC) system.Type: ApplicationFiled: April 1, 2022Publication date: October 6, 2022Inventors: Timothy George Cusack, Alexander Thomas Frechette, Kevin Michael GUERNSEY, Mitchell Raymond Lobdell, Brooke Alan Rowe, Xuchen Wang, Vince Lobdell
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Publication number: 20210215392Abstract: A fluid heating system for heating a production fluid using a thermal transfer fluid, the production fluid being contained in a vessel includes an electric blower configured to receive ambient air and electrical input power and to provide output source air, a combustion system configured to receive the source air from the electric blower and to receive fuel and to provide the thermal transfer fluid, a heat exchanger configured to receive the thermal transfer fluid from the combustion system and configured to provide heat exchange from the thermal transfer fluid to the production fluid, and to provide output exhaust gas, and wherein the electric fan provides a predetermined volume flow rate of the output source air at a predetermined blower efficiency such that the fluid heating system has a Bulk Heat Flux of at least about 14.7 kBTU/Hr/ft2 and a Pressure Drop of at least about 0.7 psi.Type: ApplicationFiled: March 26, 2021Publication date: July 15, 2021Inventors: Alexander Thomas Frechette, Carl Nicholas Nett, Thomas William Tighe, Keith Richard Waltz
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Patent number: 10989441Abstract: A fluid heating system including: a pressure vessel shell com including prising a first inlet; a heat exchanger disposed in the pressure vessel shell, the heat exchanger including a second inlet and a second outlet, wherein the second inlet of the heat exchanger is connected to the first inlet of the pressure vessel shell; and an exhaust manifold disposed in the pressure vessel shell, the exhaust manifold including a third inlet and a third outlet, wherein the third inlet of the exhaust manifold is connected to the second outlet of the heat exchanger, wherein the third outlet of the exhaust manifold is outside of the pressure vessel shell, and wherein the exhaust manifold penetrates the pressure vessel shell.Type: GrantFiled: January 16, 2018Date of Patent: April 27, 2021Assignee: FULTON GROUP N.A., INC.Inventors: Alexander Thomas Frechette, Carl Nicholas Nett, Richard James Snyder, Thomas William Tighe, Keith Richard Waltz
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Patent number: 10962257Abstract: A fluid heating system for heating a production fluid using a thermal transfer fluid, the production fluid being contained in a vessel includes an electric blower configured to receive ambient air and electrical input power and to provide output source air, a combustion system configured to receive the source air from the electric blower and to receive fuel and to provide the thermal transfer fluid, a heat exchanger configured to receive the thermal transfer fluid from the combustion system and configured to be in thermal communication with the production fluid to provide convective heat exchange from the thermal transfer fluid to the production fluid, and to provide output exhaust gas, and wherein the electric fan provides a predetermined volume flow rate of the output source air at a predetermined blower efficiency such that the fluid heating system has a Bulk Heat Flux of at least about 14.7 kBTU/Hr/ft2 and a Pressure Drop of at least about 0.7 psi.Type: GrantFiled: June 15, 2018Date of Patent: March 30, 2021Assignee: FULTON GROUP N.A., INC.Inventors: Alexander Thomas Frechette, Carl Nicholas Nett, Thomas William Tighe, Keith Richard Waltz
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Patent number: 10612816Abstract: A fluid heating system including: a pressure vessel; an assembly comprising: a heat exchanger core including a second inlet and a second outlet; a first conduit having a first end connected to the second inlet of the heat exchanger core and a second end disposed outside of the pressure vessel; a second conduit having a first end connected to the second outlet of the heat exchanger core and a second end disposed outside of the pressure vessel; and a blower in fluid connection with the first end of the first conduit, wherein the fluid heating system satisfies the condition that a Bulk Heat Flux between the first end of the first conduit and the first end of the second conduit is between 45 kW/m2 and 300 kW/m2, and wherein the Pressure Drop between the first conduit and the second conduit is between 3 kiloPascals and 30 kiloPascals.Type: GrantFiled: December 9, 2016Date of Patent: April 7, 2020Assignee: FULTON GROUP N.A., INC.Inventors: Alexander Thomas Frechette, Carl Nicholas Nett, Thomas William Tighe, Keith Richard Waltz
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Publication number: 20200103174Abstract: A compliant heating system includes a dynamic component including a heat exchanger; a pressure vessel shell encompassing at least a portion of the dynamic component; and a metallic expansion joint that connects the dynamic component and the pressure vessel shell, wherein the metallic expansion joint includes a deformable section comprising a convolution.Type: ApplicationFiled: July 25, 2016Publication date: April 2, 2020Inventors: Alexander Thomas Frechette, Carl Nicholas Nett, James Pettiford, Richard James Snyder, Thomas William Tighe, Keith Richard Waltz
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Publication number: 20190360756Abstract: A fluid heating system assembly includes a first tube sheet, a second tube sheet opposite the first sheet, a plurality heat exchanger tubes, which connect the first tube sheet and the second tube sheet, and a plurality of baffles, comprising at least one plate baffle and at least one annular baffle disposed between the first tube sheet and the second tube sheet, wherein the heat exchanger tubes sealingly pass through the baffles, and wherein the tubes are arranged in a staggered ring configuration and the baffles have a baffle spacing, such that there is a substantially uniform temperature distribution and efficient exchange of thermal energy across the heat exchanger tube walls.Type: ApplicationFiled: August 5, 2019Publication date: November 28, 2019Inventors: Alexander Thomas Frechette, Carl Nicholas Nett, Thomas William Tighe, Keith Richard Waltz, Joel Richard Landry, Richard James Snyder, Alireza Bahrami
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Publication number: 20190285370Abstract: A compliant heating system includes a dynamic component including a heat exchanger; a pressure vessel shell encompassing at least a portion of the heat exchanger; and a accessible and detachable compressive seal expansion that connects the dynamic component and the pressure vessel shell.Type: ApplicationFiled: June 3, 2019Publication date: September 19, 2019Inventors: Alexander Thomas Frechette, Carl Nicholas Nett, James Pettiford, Richard James Snyder, Thomas William Tighe, Keith Richard Waltz
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Patent number: 10309731Abstract: A compliant heating system includes a dynamic component including a heat exchanger; a pressure vessel shell encompassing at least a portion of the heat exchanger; and a compressive seal expansion that connects the dynamic component and the pressure vessel shell.Type: GrantFiled: July 22, 2016Date of Patent: June 4, 2019Assignee: FULTON GROUP N.A., INC.Inventors: Alexander Thomas Frechette, Carl Nicholas Nett, James Pettiford, Richard James Snyder, Thomas William Tighe, Keith Richard Waltz
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Publication number: 20180292106Abstract: A fluid heating system for heating a production fluid using a thermal transfer fluid, the production fluid being contained in a vessel includes an electric blower configured to receive ambient air and electrical input power and to provide output source air, a combustion system configured to receive the source air from the electric blower and to receive fuel and to provide the thermal transfer fluid, a heat exchanger configured to receive the thermal transfer fluid from the combustion system and configured to be in thermal communication with the production fluid to provide convective heat exchange from the thermal transfer fluid to the production fluid, and to provide output exhaust gas, and wherein the electric fan provides a predetermined volume flow rate of the output source air at a predetermined blower efficiency such that the fluid heating system has a Bulk Heat Flux of at least about 14.7 kBTU/Hr/ft2 and a Pressure Drop of at least about 0.7 psi.Type: ApplicationFiled: June 15, 2018Publication date: October 11, 2018Inventors: Alexander Thomas Frechette, Carl Nicholas Nett, Thomas William Tighe, Keith Richard Waltz
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Publication number: 20180142918Abstract: A fluid heating system including: a pressure vessel shell com including prising a first inlet; a heat exchanger disposed in the pressure vessel shell, the heat exchanger including a second inlet and a second outlet, wherein the second inlet of the heat exchanger is connected to the first inlet of the pressure vessel shell; and an exhaust manifold disposed in the pressure vessel shell, the exhaust manifold including a third inlet and a third outlet, wherein the third inlet of the exhaust manifold is connected to the second outlet of the heat exchanger, wherein the third outlet of the exhaust manifold is outside of the pressure vessel shell, and wherein the exhaust manifold penetrates the pressure vessel shell.Type: ApplicationFiled: January 16, 2018Publication date: May 24, 2018Inventors: Alexander Thomas Frechette, Carl Nicholas Nett, Richard James Snyder, Thomas William Tighe, Keith Richard Waltz
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Publication number: 20170211895Abstract: A fluid heating system assembly including: a first tube sheet; a second tube sheet opposite the first sheet; a heat exchanger tube, which connects the first tube sheet and the second tube sheet; a baffle such as a plate baffle and/or an annular baffle disposed between the first tube sheet and the second tube sheet, wherein the heat exchanger tube passes through the baffle.Type: ApplicationFiled: January 23, 2017Publication date: July 27, 2017Inventors: Alexander Thomas Frechette, Carl Nicholas Nett, Richard James Snyder, Thomas William Tighe, Keith Richard Waltz
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Publication number: 20170167751Abstract: A fluid heating system including: a pressure vessel; an assembly comprising: a heat exchanger core including a second inlet and a second outlet; a first conduit having a first end connected to the second inlet of the heat exchanger core and a second end disposed outside of the pressure vessel; a second conduit having a first end connected to the second outlet of the heat exchanger core and a second end disposed outside of the pressure vessel; and a blower in fluid connection with the first end of the first conduit, wherein the fluid heating system satisfies the condition that a Bulk Heat Flux between the first end of the first conduit and the first end of the second conduit is between 45 kW/m2 and 300 kW/m2, and wherein the Pressure Drop between the first conduit and the second conduit is between 3 kiloPascals and 30 kiloPascals.Type: ApplicationFiled: December 9, 2016Publication date: June 15, 2017Inventors: Alexander Thomas Frechette, Carl Nicholas Nett, Thomas William Tighe, Keith Richard Waltz
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Publication number: 20170023316Abstract: A compliant heating system includes a dynamic component including a heat exchanger; a pressure vessel shell encompassing at least a portion of the heat exchanger; and a compressive seal expansion that connects the dynamic component and the pressure vessel shell.Type: ApplicationFiled: July 22, 2016Publication date: January 26, 2017Inventors: Alexander Thomas Frechette, Carl Nicholas Nett, James Pettiford, Richard James Snyder, Thomas William Tighe, Keith Richard Waltz