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51. 发明申请

US20180200666A1 Method and Apparatus for Continuous Removal of Carbon Dioxide Vapors from Gases 审中-公开
公开(公告)号：US20180200666A1
公开(公告)日：2018-07-19
申请号：US15410024
申请日：2017-01-19
申请人： Larry Baxter , Aaron Sayre , Stephanie Burt , Nathan Davis
发明人： Larry Baxter , Aaron Sayre , Stephanie Burt , Nathan Davis
IPC分类号： B01D53/14 , B01D53/62 , B01D53/96 , C10L3/10 , F25J3/06
CPC分类号： B01D53/1475 , B01D53/002 , B01D53/1493 , B01D53/62 , B01D2251/302 , B01D2251/306 , B01D2251/402 , B01D2251/404 , B01D2251/80 , B01D2252/102 , B01D2252/103 , B01D2252/202 , B01D2252/2021 , B01D2252/2023 , B01D2252/504 , B01D2257/504 , B01D2258/0283 , C10L3/104 , C10L2290/12 , C10L2290/541 , Y02C10/04 , Y02C10/06 , Y02C10/12
摘要： A method for continuously removing carbon dioxide vapor from a carrier gas is disclosed. This method includes, first, causing direct contact of the carrier gas with a liquid mixture in a separation chamber, the carrier gas condensing at a lower temperature than the carbon dioxide vapor. A combination of chemical effects cause the carbon dioxide to condense, complex, or both condense and complex with the liquid mixture. The liquid mixture is chosen from the group consisting of: first, a combination of components that can be maintained in a liquid phase at a temperature below the carbon dioxide vapor's condensation point, whereby the carbon dioxide condenses into the liquid mixture; second, a combination of components where at least one component forms a chemical complex with the carbon dioxide vapor and thereby extracts at least a portion of the carbon dioxide vapor from the carrier gas; and third, a combination of components that can both be maintained in a liquid phase at a temperature below the carbon dioxide's condensation point, and wherein at least one component forms a chemical complex with the carbon dioxide vapor and thereby extracts at least a portion of the carbon dioxide vapor from the carrier gas. The liquid mixture is then reconstituted after passing through the separation chamber by a chemical separation process chosen to remove an equivalent amount of the carbon dioxide vapor from the liquid mixture as was removed from the carrier gas. The reconstituted liquid mixture is restored to temperature and pressure through heat exchange, compression, and expansion, as necessary, in preparation for recycling back to the separation chamber. The liquid mixture is then returned to the separation chamber. In this manner, the carrier gas leaving the exchanger has between 1% and 100% of the carbon dioxide vapor removed.

52. 发明授权

US10307709B2 Method and apparatus for continuous removal of water vapors from gases 有权
公开(公告)号：US10307709B2
公开(公告)日：2019-06-04
申请号：US15410106
申请日：2017-01-19
申请人： Larry Baxter , Aaron Sayre , Stephanie Burt , Nathan Davis
发明人： Larry Baxter , Aaron Sayre , Stephanie Burt , Nathan Davis
IPC分类号： B01D53/26 , B01D5/00 , C10L3/10
摘要： A method for continuously removing water vapor from a carrier gas is disclosed. This method includes, first, causing direct contact of the carrier gas with a liquid mixture in a separation chamber, the carrier gas condensing at a lower temperature than the water vapor. A combination of chemical effects cause the water vapor to condense, complex, or both condense and complex with the liquid mixture. The liquid mixture is chosen from the group consisting of: first, a combination of components that can be maintained in a liquid phase at a temperature below the water vapor's condensation point, whereby the water vapor condenses into the liquid mixture; second, a combination of components where at least one component forms a chemical complex with the water vapor and thereby extracts at least a portion of the water vapor from the carrier gas; and third, a combination of components that can both be maintained in a liquid phase at a temperature below the water vapor's condensation point, and wherein at least one component forms a chemical complex with the water vapor and thereby extracts at least a portion of the water vapor from the carrier gas. The liquid mixture is then reconstituted after passing through the separation chamber by a chemical separation process chosen to remove an equivalent amount of the water vapor from the liquid mixture as was removed from the carrier gas. The reconstituted liquid mixture is restored to temperature and pressure through heat exchange, compression, and expansion, as necessary, in preparation for recycling back to the separation chamber. The liquid mixture is then returned to the separation chamber. In this manner, the carrier gas leaving the exchanger has between 1% and 100% of the water vapor removed.

53. 发明申请

US20180200668A1 Method and Apparatus for Continuous Removal of Water Vapors from Gases 审中-公开
公开(公告)号：US20180200668A1
公开(公告)日：2018-07-19
申请号：US15410106
申请日：2017-01-19
申请人： Larry Baxter , Aaron Sayre , Stephanie Burt , Nathan Davis
发明人： Larry Baxter , Aaron Sayre , Stephanie Burt , Nathan Davis
IPC分类号： B01D53/26 , B01D5/00
CPC分类号： B01D53/263 , B01D5/0027 , B01D5/003 , B01D5/0054 , B01D5/0087 , B01D53/265 , B01D2252/103 , B01D2252/30 , B01D2252/504 , B01D2258/0283 , C10L3/106 , C10L2290/12 , C10L2290/541
摘要： A method for continuously removing water vapor from a carrier gas is disclosed. This method includes, first, causing direct contact of the carrier gas with a liquid mixture in a separation chamber, the carrier gas condensing at a lower temperature than the water vapor. A combination of chemical effects cause the water vapor to condense, complex, or both condense and complex with the liquid mixture. The liquid mixture is chosen from the group consisting of: first, a combination of components that can be maintained in a liquid phase at a temperature below the water vapor's condensation point, whereby the water vapor condenses into the liquid mixture; second, a combination of components where at least one component forms a chemical complex with the water vapor and thereby extracts at least a portion of the water vapor from the carrier gas; and third, a combination of components that can both be maintained in a liquid phase at a temperature below the water vapor's condensation point, and wherein at least one component forms a chemical complex with the water vapor and thereby extracts at least a portion of the water vapor from the carrier gas. The liquid mixture is then reconstituted after passing through the separation chamber by a chemical separation process chosen to remove an equivalent amount of the water vapor from the liquid mixture as was removed from the carrier gas. The reconstituted liquid mixture is restored to temperature and pressure through heat exchange, compression, and expansion, as necessary, in preparation for recycling back to the separation chamber. The liquid mixture is then returned to the separation chamber. In this manner, the carrier gas leaving the exchanger has between 1% and 100% of the water vapor removed.

54. 发明授权

US10376907B2 Droplet generating rotating cutters 有权
公开(公告)号：US10376907B2
公开(公告)日：2019-08-13
申请号：US15694147
申请日：2017-09-01
申请人： Larry Baxter , Aaron Sayre , David Frankman , Nathan Davis
发明人： Larry Baxter , Aaron Sayre , David Frankman , Nathan Davis
IPC分类号： B01F3/04 , B01D47/16 , B05B3/04 , B05B1/02
摘要： A device for producing droplets is disclosed. A disk assembly comprising a first disk mounted to a second disk is provided. The first disk comprises first openings. The second disk comprises second openings. The first openings and the second openings alternately align with one another such that, as a liquid passes through the first openings and the second openings, the liquid falls as a droplet as the first openings and the second openings skew apart.

55. 发明申请

US20190070619A1 Droplet Generating Rotating Cutters 审中-公开
公开(公告)号：US20190070619A1
公开(公告)日：2019-03-07
申请号：US15694147
申请日：2017-09-01
申请人： Larry Baxter , Aaron Sayre , David Frankman , Nathan Davis
发明人： Larry Baxter , Aaron Sayre , David Frankman , Nathan Davis
IPC分类号： B05B3/04 , B01F3/04
CPC分类号： B05B3/0422 , B01D47/16 , B01F3/04028 , B01F3/04078 , B01F3/04468 , B05B1/02
摘要： A device for producing droplets is disclosed. A disk assembly comprising a first disk mounted to a second disk is provided. The first disk comprises first openings. The second disk comprises second openings. The first openings and the second openings alternately align with one another such that, as a liquid passes through the first openings and the second openings, the liquid falls as a droplet as the first openings and the second openings skew apart.

56. 发明申请

US20180280840A1 Method and Device for Separating Solids and Liquids using a Modified Pump 审中-公开
公开(公告)号：US20180280840A1
公开(公告)日：2018-10-04
申请号：US15472584
申请日：2017-03-29
申请人： Larry Baxter , David Frankman , Aaron Sayre , Nathan Davis
发明人： Larry Baxter , David Frankman , Aaron Sayre , Nathan Davis
IPC分类号： B01D29/90 , B01D35/26 , B01D29/01 , F04B15/02 , F04B53/16 , F04B43/12 , F04C2/08 , F04C2/16 , F04C2/344 , F04D29/24
摘要： A device and a method for thickening a slurry are disclosed. A pump is provided comprising an inner chamber, a pumping apparatus, an external wall, an inlet, and an outlet. The slurry comprises a solid and a liquid. The slurry enters the inner chamber through the inlet and is pumped and pressurized by the pumping apparatus through the inner chamber across a portion of the external wall comprising a porous wall, causing a portion of the liquid to be pressed through the porous wall as a liquid product stream and thickening the slurry into a thickened slurry stream. The thickened slurry stream leaves through the slurry outlet.

57. 发明申请

US20180238646A1 Methods For Negating Deposits Using Cavitation Induced Shock Waves 审中-公开
公开(公告)号：US20180238646A1
公开(公告)日：2018-08-23
申请号：US15440343
申请日：2017-02-23
申请人： Larry Baxter , David Frankman , Aaron Sayre , Nathan Davis
发明人： Larry Baxter , David Frankman , Aaron Sayre , Nathan Davis
IPC分类号： F28G7/00 , B08B7/02 , B08B7/00 , B08B3/12 , B08B9/032 , F28G15/00 , F28G13/00
CPC分类号： F28G7/00 , B08B7/02 , B08B9/0321 , B08B9/0325 , B08B9/0326 , F28G13/005 , F28G15/003
摘要： A method for removing a surface foulant is disclosed. An operating heat exchanger is provided. A carrier liquid that contains potential fouling agents is provided to the heat exchanger. The potential fouling agents foul at least a portion of the heat exchanger. The exchanger is operated such that the carrier liquid is at a vapor pressure equal to the operating pressure. Cavitation inducing devices are provided to the exchanger. A condition indicating fouling is detected. The cavitation inducing devices are operated on a portion of the exchanger to cause a localized pressure change, vaporizing a portion of the carrier liquid and forming a transient bubble or bubbles which collapse by cavitation, producing a localized shockwave, a re-entrant microjet, and extreme transient pressures and temperatures. These steps are repeated as necessary to remove the surface foulant. In this manner, the surface foulant is removed from the operating heat exchanger.

58. 发明申请

US20180306382A1 Method for Pressurizing and Melting Cryogenic Solids to Cryogenic Liquids 审中-公开
公开(公告)号：US20180306382A1
公开(公告)日：2018-10-25
申请号：US15491103
申请日：2017-04-19
申请人： Larry Baxter , Skyler Chamberlain , David Frankman , Aaron Sayre , Nathan Davis
发明人： Larry Baxter , Skyler Chamberlain , David Frankman , Aaron Sayre , Nathan Davis
IPC分类号： F17C7/04 , B30B9/04 , B30B9/12 , B30B9/16 , B30B15/34
CPC分类号： F17C7/04 , B30B9/04 , B30B9/12 , B30B9/121 , B30B9/16 , B30B15/34 , F17C2223/0161 , F17C2227/0304 , F17C2250/0636
摘要： A method for causing a phase change from a cryogenic solid to a cryogenic liquid is disclosed. A melting device, a vessel, and a solids pressurization device are provided. The solids pressurization device passes through at least a portion of the vessel. The cryogenic solid is provided to the vessel with a recycled portion of the cryogenic liquid. The cryogenic solid is conveyed and pressurized towards an outlet of the vessel to a pressure above the triple point by the solids pressurization device. The cryogenic solid is warmed by the melting device to a temperature above the solid-liquid phase transition curve, causing the cryogenic solids to change phase and become the cryogenic liquid.

59. 发明授权

US10539382B2 Apparatus and method for intrachannel defouling of a heat exchanger using induction heaters 有权
公开(公告)号：US10539382B2
公开(公告)日：2020-01-21
申请号：US15592680
申请日：2017-05-11
申请人： Larry Baxter , Aaron Sayre , Eric Mansfield , Nathan Davis
发明人： Larry Baxter , Aaron Sayre , Eric Mansfield , Nathan Davis
IPC分类号： F28G13/00 , F28D9/00 , F28D7/00 , H05B6/10 , F28G15/00
摘要： An apparatus comprising a heat exchanger and one or more induction heating elements is disclosed. The heat exchanger comprises a coolant side conduit and a process side conduit, the process side conduit being susceptible to fouling by at least partial desublimation, condensation, crystallization, deposition, or combinations thereof of a fouling component of a circulating process fluid. An electrically conductive first metal is disposed adjacent to the process side conduit. The one or more induction heating elements are disposed proximate to the heat exchanger. The one or more induction heating elements are connected to a source of electrical current. When the electrical current flows through the induction heating elements, eddy currents are induced in the first metal, heating the first metal such that the fouling component sublimates, melts, absorbs, or a combination thereof into the circulating process fluid.

60. 发明申请

US20180328680A1 Apparatus and Method for Intrachannel Defouling of a Heat Exchanger using Induction Heaters 审中-公开
公开(公告)号：US20180328680A1
公开(公告)日：2018-11-15
申请号：US15592680
申请日：2017-05-11
申请人： Larry Baxter , Aaron Sayre , Eric Mansfield , Nathan Davis
发明人： Larry Baxter , Aaron Sayre , Eric Mansfield , Nathan Davis
IPC分类号： F28G13/00 , F28D9/00 , F28D7/00 , H05B6/10
CPC分类号： F28G13/005 , B01D5/00 , B01D5/0033 , F25B39/00 , F28D1/04 , F28D7/00 , F28D7/04 , F28D7/082 , F28D9/00 , F28D9/0006 , F28D9/0043 , F28F13/14 , F28F19/00 , F28F21/08 , F28F21/084 , F28F21/085 , F28G15/003 , H05B6/108 , H05B2214/03
摘要： An apparatus comprising a heat exchanger and one or more induction heating elements is disclosed. The heat exchanger comprises a coolant side conduit and a process side conduit, the process side conduit being susceptible to fouling by at least partial desublimation, condensation, crystallization, deposition, or combinations thereof of a fouling component of a circulating process fluid. An electrically conductive first metal is disposed adjacent to the process side conduit. The one or more induction heating elements are disposed proximate to the heat exchanger. The one or more induction heating elements are connected to a source of electrical current. When the electrical current flows through the induction heating elements, eddy currents are induced in the first metal, heating the first metal such that the fouling component sublimates, melts, absorbs, or a combination thereof into the circulating process fluid.

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