Patents by Inventor Zongxuan Hong
Zongxuan Hong 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: 20220047127Abstract: A bathing device for washing people's body has a cleaning head comprising a suction housing, a liquid injection assembly inside said suction housing, and a control valve assembly, together with associated accessories. The control valve assembly comprises a valve and an electrical switch, allowing an operator to close said control valve to start spraying cleaning fluid onto person's body and removing said fluid with vacuum, and to open said control valve in said control valve assembly to discontinue spraying cleaning fluid onto person's body and releasing vacuum in said suction housing to facilitate free move of said cleaning head. The bathing device can clean person's body like taking a bath or shower without spilling water to adjacent area and the need for the person taking off clothes, and further at any place of person's convenience or choice.Type: ApplicationFiled: August 17, 2020Publication date: February 17, 2022Inventors: Zongxuan Hong, Cunxi Shen
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Patent number: 11155328Abstract: An air vehicle comprises a payload vessel, a propulsion system, and a buoyancy lifting unit anchored on said payload vessel. The buoyancy lifting unit comprises a plurality of balloons and a plurality of buoyancy gas reservoirs arranged in horizontal rows and vertical columns, a protractible rod, and a control system. Each of the balloons and buoyancy gas reservoirs is tethered to a lifting-joint on the protractible rod through a cable. The control system controls vertical move of the air vehicle to ascend through directing buoyancy gas flow from the buoyancy gas reservoirs into the balloons, and to descend through directing buoyancy gas flow from the balloons into the buoyancy gas reservoirs. The propulsion system controls horizontal move of the air vehicle to go forward and make turns.Type: GrantFiled: September 4, 2018Date of Patent: October 26, 2021Inventors: Zongxuan Hong, Royce Chen Hong
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Patent number: 10245583Abstract: A composition containing a supported hydrogenation catalyst comprising palladium and a support, wherein the supported hydrogenation catalyst is capable of selectively hydrogenating highly unsaturated hydrocarbons to unsaturated hydrocarbons, and a dopant, wherein the dopant comprises at least one component selected from zwitterions, ylides, betaines, or combinations thereof. A method of making a selective hydrogenation catalyst by contacting a support with a palladium-containing compound to form a supported-palladium composition, contacting the supported-palladium composition with a dopant to form a selective hydrogenation catalyst precursor, wherein the dopant comprises at least one component selected from zwitterions, ylides, betaines, or combinations thereof, and reducing the selective hydrogenation catalyst precursor to form the selective hydrogenation catalyst.Type: GrantFiled: September 12, 2017Date of Patent: April 2, 2019Assignee: Chevron Phillips Chemical Company, LPInventors: Ryan W. Snell, Zongxuan Hong
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Patent number: 10232360Abstract: A composition comprising a supported hydrogenation catalyst comprising palladium and a support, wherein the supported hydrogenation catalyst is capable of selectively hydrogenating highly unsaturated hydrocarbons to unsaturated hydrocarbons; and a dopant comprising a fluorene structure. A method of making a selective hydrogenation catalyst including contacting a support with a palladium-containing compound to form a supported-palladium composition; contacting the supported-palladium composition with a dopant comprising a fluorene structure group to form a selective hydrogenation catalyst precursor; and reducing the selective hydrogenation catalyst precursor to form the selective hydrogenation catalyst.Type: GrantFiled: September 12, 2017Date of Patent: March 19, 2019Assignee: Chevron Phillips Chemical Company, LPInventors: Ryan W. Snell, Zongxuan Hong
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Publication number: 20190076831Abstract: A composition comprising a supported hydrogenation catalyst comprising palladium and a support, wherein the supported hydrogenation catalyst is capable of selectively hydrogenating highly unsaturated hydrocarbons to unsaturated hydrocarbons; and a dopant comprising a fluorene structure. A method of making a selective hydrogenation catalyst including contacting a support with a palladium-containing compound to form a supported-palladium composition; contacting the supported-palladium composition with a dopant comprising a fluorene structure group to form a selective hydrogenation catalyst precursor; and reducing the selective hydrogenation catalyst precursor to form the selective hydrogenation catalyst.Type: ApplicationFiled: September 12, 2017Publication date: March 14, 2019Inventors: Ryan W. Snell, Zongxuan Hong
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Publication number: 20190076832Abstract: A composition containing a supported hydrogenation catalyst comprising palladium and a support, wherein the supported hydrogenation catalyst is capable of selectively hydrogenating highly unsaturated hydrocarbons to unsaturated hydrocarbons, and a dopant, wherein the dopant comprises at least one component selected from zwitterions, ylides, betaines, or combinations thereof. A method of making a selective hydrogenation catalyst by contacting a support with a palladium-containing compound to form a supported-palladium composition, contacting the supported-palladium composition with a dopant to form a selective hydrogenation catalyst precursor, wherein the dopant comprises at least one component selected from zwitterions, ylides, betaines, or combinations thereof, and reducing the selective hydrogenation catalyst precursor to form the selective hydrogenation catalyst.Type: ApplicationFiled: September 12, 2017Publication date: March 14, 2019Inventors: Ryan W. Snell, Zongxuan Hong
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Publication number: 20180148260Abstract: A process includes hydrogenating, in a reaction zone, a highly unsaturated hydrocarbon received from a hydrocarbon stream to yield a product having an unsaturated hydrocarbon, the hydrogenating step occurring in the presence of a hydrogenation catalyst which has a selectivity for conversion of the highly unsaturated hydrocarbon to the unsaturated hydrocarbon of about 90 mol % or greater based on the moles of the highly unsaturated hydrocarbon which are converted to the product, the hydrogenating step occurring in a reaction zone under conditions which include a flow index (IF) in a range of about 0.09 to about 35, wherein the IF is defined as: I F = F × [ CO ] V , wherein F is the flow rate of the hydrocarbon stream into the reaction zone in units of kg/h, [CO] is the concentration of carbon monoxide in the hydrocarbon stream in units of mol %, and V is the volume of the reaction zone in units of ft3.Type: ApplicationFiled: January 23, 2018Publication date: May 31, 2018Inventors: Joseph Bergmeister, III, Tin-Tack Peter Cheung, Zongxuan Hong, Timothy O. Odi, Charles D. Nolidin, Thomas J. Gonzales, Jennifer L. Nill, David W. Dockter
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Patent number: 9914676Abstract: A process includes hydrogenating, in a reaction zone, a highly unsaturated hydrocarbon received from a hydrocarbon stream to yield a product having an unsaturated hydrocarbon, the hydrogenating step occurring in the presence of a hydrogenation catalyst which has a selectivity for conversion of the highly unsaturated hydrocarbon to the unsaturated hydrocarbon of about 90 mol % or greater based on the moles of the highly unsaturated hydrocarbon which are converted to the product, the hydrogenating step occurring in a reaction zone under conditions which include a flow index (IF) in a range of about 0.09 to about 35, wherein the IF is defined as: I F = F × [ CO ] V , wherein F is the flow rate of the hydrocarbon stream into the reaction zone in units of kg/h, [CO] is the concentration of carbon monoxide in the hydrocarbon stream in units of mol %, and V is the volume of the reaction zone in units of ft3.Type: GrantFiled: August 8, 2017Date of Patent: March 13, 2018Assignee: Chevron Phillips Chemical Company LPInventors: Joseph Bergmeister, III, Tin-Tack Peter Cheung, Zongxuan Hong, Timothy O. Odi, Charles D. Nolidin, Thomas J. Gonzales, Jennifer L. Nill, David W. Dockter
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Publication number: 20170349507Abstract: A process includes hydrogenating, in a reaction zone, a highly unsaturated hydrocarbon received from a hydrocarbon stream to yield a product having an unsaturated hydrocarbon, the hydrogenating step occurring in the presence of a hydrogenation catalyst which has a selectivity for conversion of the highly unsaturated hydrocarbon to the unsaturated hydrocarbon of about 90 mol % or greater based on the moles of the highly unsaturated hydrocarbon which are converted to the product, the hydrogenating step occurring in a reaction zone under conditions which include a flow index (IF) in a range of about 0.09 to about 35, wherein the IF is defined as: I F = F × [ CO ] V , wherein F is the flow rate of the hydrocarbon stream into the reaction zone in units of kg/h, [CO] is the concentration of carbon monoxide in the hydrocarbon stream in units of mol %, and V is the volume of the reaction zone in units of ft3.Type: ApplicationFiled: August 8, 2017Publication date: December 7, 2017Inventors: Joseph Bergmeister, III, Tin-Tack Peter Cheung, Zongxuan Hong, Timothy O. Odi, Charles D. Nolidin, Thomas J. Gonzales, Jennifer L. Nill, David W. Dockter
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Patent number: 9758446Abstract: A process includes hydrogenating, in a reaction zone, a highly unsaturated hydrocarbon received from a hydrocarbon stream to yield a product having an unsaturated hydrocarbon, the hydrogenating step occurring in the presence of a hydrogenation catalyst which has a selectivity for conversion of the highly unsaturated hydrocarbon to the unsaturated hydrocarbon of about 90 mol % or greater based on the moles of the highly unsaturated hydrocarbon which are converted to the product, the hydrogenating step occurring in a reaction zone under conditions which include a flow index (IF) in a range of about 0.09 to about 35, wherein the IF is defined as: I F = F × [ CO ] V , wherein F is the flow rate of the hydrocarbon stream into the reaction zone in units of kg/h, [CO] is the concentration of carbon monoxide in the hydrocarbon stream in units of mol %, and V is the volume of the reaction zone in units of ft3.Type: GrantFiled: November 16, 2015Date of Patent: September 12, 2017Assignee: Chevron Phillips Chemical Company LPInventors: Joseph Bergmeister, III, Tin-Tack Peter Cheung, Zongxuan Hong, Timothy O. Odi, Charles D. Nolidin, Thomas J. Gonzales, Jennifer L. Nill, David W. Dockter
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Publication number: 20170137346Abstract: A process includes hydrogenating, in a reaction zone, a highly unsaturated hydrocarbon received from a hydrocarbon stream to yield a product having an unsaturated hydrocarbon, the hydrogenating step occurring in the presence of a hydrogenation catalyst which has a selectivity for conversion of the highly unsaturated hydrocarbon to the unsaturated hydrocarbon of about 90 mol % or greater based on the moles of the highly unsaturated hydrocarbon which are converted to the product, the hydrogenating step occurring in a reaction zone under conditions which include a flow index (IF) in a range of about 0.09 to about 35, wherein the IF is defined as: I F = F × [ CO ] V , wherein F is the flow rate of the hydrocarbon stream into the reaction zone in units of kg/h, [CO] is the concentration of carbon monoxide in the hydrocarbon stream in units of mol %, and V is the volume of the reaction zone in units of ft3.Type: ApplicationFiled: November 16, 2015Publication date: May 18, 2017Inventors: Joseph Bergmeister, III, Tin-Tack Peter Cheung, Zongxuan Hong, Timothy O. Odi, Charles D. Nolidin, Thomas J. Gonzales, Jennifer L. Nill, David W. Dockter
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Patent number: 9550173Abstract: A method for producing a selective hydrogenation catalyst for hydrogenating a highly unsaturated hydrocarbon to an unsaturated hydrocarbon comprising contacting an inorganic catalyst support with a chlorine-containing compound to form a chlorided catalyst support and adding palladium to the chlorided catalyst support to form a supported-palladium composition. A selective hydrogenation catalyst for hydrogenating a highly unsaturated hydrocarbon to an unsaturated hydrocarbon formed by the method comprising contacting an inorganic catalyst support with a chlorine-containing compound to form a chlorided catalyst support and adding palladium to the chlorided catalyst support to form a supported-palladium composition.Type: GrantFiled: April 9, 2014Date of Patent: January 24, 2017Assignee: Chevron Philips Chemical Company LPInventors: Tin-Tack Peter Cheung, Joseph Bergmeister, III, Zongxuan Hong
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Publication number: 20160355449Abstract: A process comprising hydrogenating a highly unsaturated hydrocarbon in the presence of a first hydrogenation catalyst and a second hydrogenation catalyst to one or more compounds including an unsaturated hydrocarbon such that a total conversion of the highly unsaturated hydrocarbon is about 99 mol % or greater. In the process, the first hydrogenation catalyst, the second hydrogenation catalyst, or both, have a hydrogenation selectivity to the unsaturated hydrocarbon of about 90% or greater.Type: ApplicationFiled: June 8, 2015Publication date: December 8, 2016Inventors: Timothy O. Odi, Zongxuan Hong, Joseph Bergmeister, III, Tin-Tack Peter Cheung, Charles D. Nolidin, Thomas J. Gonzales, Jennifer L. Nill, David W. Dockter
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Patent number: 9511359Abstract: A method of making a selective hydrogenation catalyst comprising contacting a support with a palladium-containing compound to form a supported-palladium composition; contacting the supported-palladium composition with an organophosphorus compound and a weak acid to form a catalyst composition; and reducing the catalyst composition to form the catalyst. A method of making a selective hydrogenation catalyst comprising contacting an alumina support with a palladium-containing compound to form a supported-palladium composition; contacting the supported-palladium composition with silver nitrate and potassium fluoride to form a mixture; contacting the mixture with an organophosphorus compound and a weak acid to form a catalyst precursor; and reducing the catalyst precursor to form the catalyst.Type: GrantFiled: November 14, 2014Date of Patent: December 6, 2016Assignee: Chevron Phillips Chemical Company LPInventors: Tin-Tack Peter Cheung, Zongxuan Hong, Joseph Bergmeister, III
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Publication number: 20160136630Abstract: A method of making a selective hydrogenation catalyst comprising contacting a support with a palladium-containing compound to form a supported-palladium composition; contacting the supported-palladium composition with an organophosphorus compound and a weak acid to form a catalyst composition; and reducing the catalyst composition to form the catalyst. A method of making a selective hydrogenation catalyst comprising contacting an alumina support with a palladium-containing compound to form a supported-palladium composition; contacting the supported-palladium composition with silver nitrate and potassium fluoride to form a mixture; contacting the mixture with an organophosphorus compound and a weak acid to form a catalyst precursor; and reducing the catalyst precursor to form the catalyst.Type: ApplicationFiled: November 14, 2014Publication date: May 19, 2016Inventors: Tin-Tack Peter Cheung, Zongxuan Hong, Joseph Bergmeister, III
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Publication number: 20150380786Abstract: A metal-air battery includes an anode portion comprising at least a metal gel and an electrolyte. A mesh screen is disposed on the anode portion. The mesh screen is configured for substantially holding the metal gel within the anode portion. A cathode portion includes at least a current carrier and a cathode catalyst. A separator is disposed between the anode portion and the cathode portion for mitigating leakage of the electrolyte. A gate device is disposed between the anode portion and the cathode portion. The gate device has an open state to enable a contact of the anode portion and the cathode portion for activating a generation of electrical power, and a closed state to separate the contact of the anode portion and the cathode portion to inhibit the generation of electrical power for storing the metal-air battery.Type: ApplicationFiled: September 9, 2015Publication date: December 31, 2015Inventors: Zongxuan Hong, Cunxi Shen, Aiying Chen
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Patent number: 9221727Abstract: A composition comprising a supported hydrogenation catalyst comprising palladium and an organophosphorous compound, the supported hydrogenation catalyst being capable of selectively hydrogenating highly unsaturated hydrocarbons to unsaturated hydrocarbons. A method of making a selective hydrogenation catalyst comprising contacting a support with a palladium-containing compound to form a palladium supported composition, contacting the palladium supported composition with an organophosphorus compound to form a catalyst precursor, and reducing the catalyst precursor to form the catalyst.Type: GrantFiled: March 26, 2015Date of Patent: December 29, 2015Assignee: Chevron Phillips Chemical Company LPInventors: Tin-Tack Peter Cheung, Zongxuan Hong
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Publication number: 20150197464Abstract: A composition comprising a supported hydrogenation catalyst comprising palladium and an organophosphorous compound, the supported hydrogenation catalyst being capable of selectively hydrogenating highly unsaturated hydrocarbons to unsaturated hydrocarbons. A method of making a selective hydrogenation catalyst comprising contacting a support with a palladium-containing compound to form a palladium supported composition, contacting the palladium supported composition with an organophosphorus compound to form a catalyst precursor, and reducing the catalyst precursor to form the catalyst.Type: ApplicationFiled: March 26, 2015Publication date: July 16, 2015Inventors: Tin-Tack Peter Cheung, Zongxuan Hong
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Patent number: 9012348Abstract: A composition comprising a supported hydrogenation catalyst comprising palladium and an organophosphorous compound, the supported hydrogenation catalyst being capable of selectively hydrogenating highly unsaturated hydrocarbons to unsaturated hydrocarbons. A method of making a selective hydrogenation catalyst comprising contacting a support with a palladium-containing compound to form a palladium supported composition, contacting the palladium supported composition with an organophosphorus compound to form a catalyst precursor, and reducing the catalyst precursor to form the catalyst.Type: GrantFiled: December 19, 2013Date of Patent: April 21, 2015Assignee: Chevron Phillips Chemical Company LPInventors: Tin-Tack Peter Cheung, Zongxuan Hong
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Publication number: 20140221197Abstract: A method for producing a selective hydrogenation catalyst for hydrogenating a highly unsaturated hydrocarbon to an unsaturated hydrocarbon comprising contacting an inorganic catalyst support with a chlorine-containing compound to form a chlorided catalyst support and adding palladium to the chlorided catalyst support to form a supported-palladium composition. A selective hydrogenation catalyst for hydrogenating a highly unsaturated hydrocarbon to an unsaturated hydrocarbon formed by the method comprising contacting an inorganic catalyst support with a chlorine-containing compound to form a chlorided catalyst support and adding palladium to the chlorided catalyst support to form a supported-palladium composition.Type: ApplicationFiled: April 9, 2014Publication date: August 7, 2014Applicant: Chevron Phillips Chemical Company LPInventors: Tin-Tack Peter Cheung, Joseph Bergmeister, III, Zongxuan Hong