公开(公告)号：US20240124633A1

公开(公告)日：2024-04-18

申请号：US18263594

申请日：2021-09-30

Applicant: Yusuke NUSHI ,  Takuya SHIMADA ,  Teruo YAMASHITA

Inventor： Yusuke NUSHI ,  Takuya SHIMADA ,  Teruo YAMASHITA

IPC: C08F222/10 ,  B01F31/80 ,  C08F2/46 ,  C09D7/41 ,  C09K9/02 ,  G02B1/04 ,  G02C7/10

CPC classification number: C08F222/102 ,  B01F31/80 ,  C08F2/46 ,  C08F222/103 ,  C09D7/41 ,  C09K9/02 ,  G02B1/041 ,  G02C7/102

Abstract: A method of producing a polymerizable composition including mixing a photochromic compound with one or more polymerizable compounds using an ultrasonic homogenizer.

公开(公告)号：US20230348802A1

公开(公告)日：2023-11-02

申请号：US18350012

申请日：2023-07-11

Applicant: Southwest Research Institute

Inventor： James WOOD ,  Sergio TREVIÑO

IPC: C10G75/00 ,  B01F31/80 ,  B01F35/90

CPC classification number: C10G75/00 ,  B01F31/80 ,  B01F35/90 ,  C10G2300/802 ,  C10G2300/206 ,  C10G2300/4075 ,  B01F2035/99

Abstract: Technologies for reducing the viscosity of heavy crude oil are disclosed. In embodiments the technologies utilize a combination of a processing additive composition (PAC) and hydrodynamic cavitation to produce an oil composition having a viscosity V2, wherein V2 is at least 40% less than a viscosity VI of untreated heavy crude oil. PACs, systems for reducing the viscosity of heavy crude oil using a combination of a PAC and hydrodynamic cavitation, and methods for reducing the viscosity of heavy crude oil with a combination of a PAC and hydrodynamic cavitation are also disclosed.

公开(公告)号：US20240351924A1

公开(公告)日：2024-10-24

申请号：US18761058

申请日：2024-07-01

Applicant: Akiyoshi Ohki ,  Whitney Rich

Inventor： Akiyoshi Ohki ,  Whitney Rich

IPC: C02F3/26 ,  B01F31/80 ,  B01F101/00 ,  C02F1/34 ,  C02F1/36 ,  C02F3/00 ,  C02F3/12 ,  C02F3/20 ,  C02F3/28

CPC classification number: C02F3/26 ,  B01F31/80 ,  C02F3/1221 ,  C02F3/20 ,  C02F3/28 ,  B01F2101/305 ,  C02F1/34 ,  C02F1/36 ,  C02F3/006 ,  C02F2201/782

Abstract: Increased control and efficiency over the wastewater purification can be achieved through creating conditions that allow the operator to selectively prioritize the digestive function of microorganism in the activated sludge. The gas-dispersion return sludge is created using pure oxygen or oxygen containing trace amounts of ozone as a reactive gas, which is blended with return sludge to create a mixture of gas and liquid, which is passed through an atomizer or a cavitation pump to instantly render the reactive gas to an ultra-fine bubble state. At least a portion of the ultra-fine bubbles dissolve within the gas-dispersion return sludge, activating the dormant microorganisms. Due to a complete or an almost complete absence of biodegradable material in the gas-dispersion return sludge, the microorganism prioritize their digestive function, and when exposed to biodegradable pollutants present in wastewater, digest the pollutants using biochemical pathways different from the ones used in nature.

公开(公告)号：US12024450B2

公开(公告)日：2024-07-02

申请号：US18363718

申请日：2023-08-01

Applicant: Akiyoshi Ohki ,  Whitney Rich

Inventor： Akiyoshi Ohki ,  Whitney Rich

IPC: C02F3/26 ,  B01F31/80 ,  B01F101/00 ,  C02F3/00 ,  C02F3/12 ,  C02F3/20 ,  C02F3/28 ,  C02F1/34 ,  C02F1/36

CPC classification number: C02F3/26 ,  B01F31/80 ,  C02F3/1221 ,  C02F3/20 ,  C02F3/28 ,  B01F2101/305 ,  C02F1/34 ,  C02F1/36 ,  C02F3/006 ,  C02F2201/782

Abstract: Increased control and efficiency over the wastewater purification can be achieved through creating conditions that allow the operator to selectively prioritize the digestive function of microorganism in the activated sludge. The gas-dispersion return sludge is created using pure oxygen or oxygen containing trace amounts of ozone as a reactive gas, which is blended with return sludge to create a mixture of gas and liquid, which is passed through an atomizer or a cavitation pump to instantly render the reactive gas to an ultra-fine bubble state. At least a portion of the ultra-fine bubbles dissolve within the gas-dispersion return sludge, activating the dormant microorganisms. Due to a complete or an almost complete absence of biodegradable material in the gas-dispersion return sludge, the microorganism prioritize their digestive function, and when exposed to biodegradable pollutants present in wastewater, digest the pollutants using biochemical pathways different from the ones used in nature.

公开(公告)号：US11753313B2

公开(公告)日：2023-09-12

申请号：US17518280

申请日：2021-11-03

Applicant: Virgil Dewitt Perryman, Jr.

Inventor： Virgil Dewitt Perryman, Jr.

IPC: B01D1/14 ,  C02F1/10 ,  B01D53/22 ,  B01D71/02 ,  B01D53/04 ,  B01F23/231 ,  B01F31/80 ,  C02F103/08 ,  B01F101/00

CPC classification number: C02F1/10 ,  B01D1/14 ,  B01D53/04 ,  B01D53/229 ,  B01D71/022 ,  B01F23/231 ,  B01F31/80 ,  B01D2253/102 ,  B01D2253/108 ,  B01F2101/305 ,  C02F2103/08

Abstract: Rapid evaporation of water for desalination and dewatering using nanobubbles and micro-droplets is disclosed. Warm nanobubbles of air are injected into seawater or another water source to be treated, and the normal stasis of the nanobubbles is disrupted with ultrasonic energy. The nanobubbles implode and violently recombine into microbubbles. Energized by the effects of the nanobubble state change, these energetic, relatively high surface area microbubbles bubbles quickly rise to the surface of the water, creating an aerosol of micro-water droplets above the surface that is drawn into a dry, warm stream of air and rapidly evaporates, precipitating out salt crystals. The air is then cooled with a chiller, condensing the moisture in the air into fresh water.

公开(公告)号：US11732927B2

公开(公告)日：2023-08-22

申请号：US16844071

申请日：2020-04-09

Applicant: Rheem Manufacturing Company

Inventor： Christopher M. Hayden ,  Sergiu G. Mihu ,  Eric R. Jurczyszak

IPC: F24H9/00 ,  B06B1/02 ,  B08B3/12 ,  B01F31/80 ,  C02F1/36 ,  G01F1/66

CPC classification number: F24H9/0042 ,  B06B1/0238 ,  B01F31/80 ,  B06B2201/71 ,  B08B3/12 ,  C02F1/36 ,  G01F1/66

Abstract: The disclosed technology includes a fluid heating device that can include a heating chamber in communication with a heating element, and an ultrasonic transducer in communication with the heating chamber and for transmitting ultrasonic sound waves. The disclosed technology includes an ultrasonic transducer system that includes an assembly configured to attach to a fluid heating device, and an ultrasonic transducer affixed to the assembly. The disclosed technology also includes a method for ultrasonic cleaning within a fluid heating device that can include a controller configured to receive flow data from a flow sensor; based on the flow data, determine that fluid is flowing through a heating chamber; and output instructions for an ultrasonic transducer to output ultrasonic sound waves.

公开(公告)号：US20230216057A1

公开(公告)日：2023-07-06

申请号：US18181470

申请日：2023-03-09

Applicant: Tesla, Inc.

Inventor： Ziying Wang ,  Haim Feigenbaum ,  Hieu Minh Duong

IPC: H01M4/1393 ,  H01M4/133 ,  H01M4/62 ,  H01M4/04 ,  B01F31/80 ,  H01G11/38 ,  H01G11/86

CPC classification number: H01M4/1393 ,  B01F31/80 ,  H01G11/38 ,  H01G11/86 ,  H01M4/133 ,  H01M4/0404 ,  H01M4/623 ,  H01M2004/021

Abstract: Materials and methods for preparing electrode film mixtures and electrode films including reduced damage bulk active materials are provided. In a first aspect, a method for preparing an electrode film mixture for an energy storage device is provided, comprising providing an initial binder mixture comprising a first binder and a first active material, processing the initial binder mixture under high shear to form a secondary binder mixture, and nondestructively mixing the secondary binder mixture with a second portion of active materials to form an electrode film mixture.

公开(公告)号：US20230373830A1

公开(公告)日：2023-11-23

申请号：US18363718

申请日：2023-08-01

Applicant: Akiyoshi Ohki ,  Whitney Rich

Inventor： Akiyoshi Ohki ,  Whitney Rich

IPC: C02F3/26 ,  B01F31/80 ,  C02F3/12 ,  C02F3/20 ,  C02F3/28

CPC classification number: C02F3/26 ,  B01F31/80 ,  C02F3/1221 ,  C02F3/20 ,  C02F3/28 ,  C02F2201/782 ,  B01F2101/305

Abstract: Increased control and efficiency over the wastewater purification can be achieved through creating conditions that allow the operator to selectively prioritize the digestive function of microorganism in the activated sludge. The gas-dispersion return sludge is created using pure oxygen or oxygen containing trace amounts of ozone as a reactive gas, which is blended with return sludge to create a mixture of gas and liquid, which is passed through an atomizer or a cavitation pump to instantly render the reactive gas to an ultra-fine bubble state. At least a portion of the ultra-fine bubbles dissolve within the gas-dispersion return sludge, activating the dormant microorganisms. Due to a complete or an almost complete absence of biodegradable material in the gas-dispersion return sludge, the microorganism prioritize their digestive function, and when exposed to biodegradable pollutants present in wastewater, digest the pollutants using biochemical pathways different from the ones used in nature.

公开(公告)号：US11724948B2

公开(公告)日：2023-08-15

申请号：US17245631

申请日：2021-04-30

Applicant: Akiyoshi Ohki ,  Whitney Rich

Inventor： Akiyoshi Ohki ,  Whitney Rich

IPC: C02F3/26 ,  C02F3/20 ,  C02F3/28 ,  C02F3/12 ,  B01F31/80 ,  C02F1/36 ,  C02F3/00 ,  C02F1/34 ,  B01F101/00

CPC classification number: C02F3/26 ,  B01F31/80 ,  C02F3/1221 ,  C02F3/20 ,  C02F3/28 ,  B01F2101/305 ,  C02F1/34 ,  C02F1/36 ,  C02F3/006 ,  C02F2201/782

Abstract: Increased control and efficiency over the wastewater purification can be achieved through creating conditions that allow the operator to selectively prioritize the digestive function of microorganism in the activated sludge. The gas-dispersion return sludge is created using pure oxygen or oxygen containing trace amounts of ozone as a reactive gas, which is blended with return sludge to create a mixture of gas and liquid, which is passed through an atomizer or a cavitation pump to instantly render the reactive gas to an ultra-fine bubble state. At least a portion of the ultra-fine bubbles dissolve within the gas-dispersion return sludge, activating the dormant microorganisms. Due to a complete or an almost complete absence of biodegradable material in the gas-dispersion return sludge, the microorganism prioritize their digestive function, and when exposed to biodegradable pollutants present in wastewater, digest the pollutants using biochemical pathways different from the ones used in nature.

公开(公告)号：US11666873B2

公开(公告)日：2023-06-06

申请号：US16376286

申请日：2019-04-05

Applicant: Roche Molecular Systems, Inc.

Inventor： Patrick Birkner ,  Manfred Holzer ,  Pirmin Hans Loetscher ,  Ulf Nilsson

IPC: G01N1/28 ,  B01F31/80 ,  C12N13/00 ,  B01J19/10 ,  B01F35/42 ,  B06B1/06 ,  B01F101/23

CPC classification number: B01F31/80 ,  B01F35/42 ,  B01J19/10 ,  C12N13/00 ,  G01N1/286 ,  B01F2101/23 ,  B06B1/0611

Abstract: The present disclosure relates to a device for sonicating a biological sample. In one embodiment, a sample tube holder is pivotally suspended in a mount of a sonication device, thus allowing for a rotational degree of freedom and/or lateral movement that provides an optimized contact area between the sonotrode and the sample tube. Also disclosed is a method for sonicating a biological sample using the device described herein.