公开(公告)号：US20240124633A1

公开(公告)日：2024-04-18

申请号：US18263594

申请日：2021-09-30

申请人： Yusuke NUSHI ,  Takuya SHIMADA ,  Teruo YAMASHITA

发明人： Yusuke NUSHI ,  Takuya SHIMADA ,  Teruo YAMASHITA

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

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

摘要： 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：US11938455B2

公开(公告)日：2024-03-26

申请号：US18118846

申请日：2023-03-08

申请人： Resodyn Corporation

发明人： Peter Andrew Lucon ,  Zachary Ruprecht Martineau

IPC分类号： B01F31/00 ,  B01F25/432 ,  B01F31/50 ,  B01F31/80

CPC分类号： B01F31/50 ,  B01F25/432 ,  B01F31/57 ,  B01F31/84

摘要： A system for continuously processing a combination of materials includes a continuous process vessel having an outlet and one or more inlets. The continuous process vessel is configured to oscillate along an oscillation axis. An acoustic agitator is coupled to the continuous process vessel. The acoustic agitator is configured to oscillate the continuous process vessel along the oscillation axis. An outlet passage is in fluid communication with the outlet. At least a portion of the outlet passage or at least a portion of the continuous process vessel is disposed within a portion of the acoustic agitator.

公开(公告)号：US11931708B2

公开(公告)日：2024-03-19

申请号：US17264539

申请日：2020-04-17

申请人： China University of Petroleum (East China)

发明人： Chao Zhang ,  Zhaomin Li ,  Songyan Li ,  Yong Wang ,  Guangzhong Lv ,  Shouya Wu ,  Linghui Xi ,  Meijia Wang

IPC分类号： C09K8/594 ,  B01F23/41 ,  B01F31/80 ,  B01F33/71 ,  B01F33/81 ,  B01F35/71 ,  B01F23/40 ,  B01F33/45 ,  B01F101/49 ,  C09K8/584

CPC分类号： B01F33/71 ,  B01F23/41 ,  B01F31/83 ,  B01F33/813 ,  B01F35/712 ,  B01F35/7179 ,  B01F23/4143 ,  B01F23/4146 ,  B01F23/481 ,  B01F33/45 ,  B01F2101/49 ,  C09K8/584 ,  C09K8/594 ,  C09K2208/10

摘要： Provided is a carbon dioxide fluidity control device comprising, a sample preparation tank, a high-pressure stirring unit, a reciprocating plunger pump and a booster pump, wherein the stirring unit comprises one or more high-pressure stirring tanks, each provided with an atomizing spray probe and a piston, wherein a discharge port of the sample preparation tank is connected to the atomizing spray probe via a plunger pump, which is connected to the piston to push the piston to reciprocate; the booster pump is connected to the high-pressure stirring tanks to provide supercritical carbon dioxide to the high-pressure stirring tank; and a discharge port of the high-pressure stirring tanks is connected to an oilfield well group. Provided is a carbon dioxide fluidity control method using the device, comprising mixing surfactants and nanoparticles with heated carbon dioxide, and injecting a microemulsion of supercritical carbon dioxide and nano-silicon dioxide into an oilfield well group.

公开(公告)号：US20230348802A1

公开(公告)日：2023-11-02

申请号：US18350012

申请日：2023-07-11

申请人： Southwest Research Institute

发明人： James WOOD ,  Sergio TREVIÑO

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

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

摘要： 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：US20230116725A1

公开(公告)日：2023-04-13

申请号：US17938683

申请日：2022-10-07

申请人： Japan Techno Co., Ltd.

发明人： Ryushin OMASA

IPC分类号： G21G7/00 ,  G21F9/06 ,  G21F9/00 ,  B01F31/44 ,  B01F31/80 ,  B01F33/25

摘要： The method according to the present invention comprises using a high-frequency vibrating stirrer that is confirmed to include a treatment tank I, a high-frequency vibrating motor 3 fixed to a table positioned above the treatment tank 1, two vibrating rods 4 extending toward the bottom of the treatment tank 1 and coupled to the table, and multistage vibrating blades 5 mounted to the lower parts of the vibrating rods 4 and surface-plated with palladium or platinum serving as a catalyst in element transmutation, characterized in that the high frequency vibrating motor 3 is controlled by an inverter 6 so as to vibrate the multistage vibrating blades 5 at a frequency of 100-170 Hz in an aqueous solution 2 containing an element to be transmuted in the treatment tank 1, thereby transmuting the element in the aqueous solution 2 into another element. By adding heavy water to the solution to be treated, the transmutation efficiency can be elevated. By adding tritium water with an appropriate concentration as a substitute for the heavy water, the element transmutation can be completed within a short period of time and, at the same time, the tritium water that is seemingly the main cause of radioactive contamination can be effectively utilized and the radioactivity thereof can be attenuated or detoxified.

公开(公告)号：US20230113554A1

公开(公告)日：2023-04-13

申请号：US17802992

申请日：2020-12-10

申请人： AO TECHNOLOGY AG

发明人： Matteo D'ESTE

IPC分类号： A61K9/107 ,  A61K9/06 ,  A61K47/44 ,  A61K47/24 ,  A61K47/38 ,  A61K47/10 ,  A61K31/7036 ,  A61K38/14 ,  A61K38/12 ,  A61K47/12 ,  B01F23/41 ,  B01F23/411 ,  B01F31/80

摘要： A method of producing a pharmaceutical gel emulsion, wherein the emulsion is an oil-in-water gel emulsion, comprising the steps of forming an oil-in-water emulsion comprising at least one pharmaceutically acceptable oil, at least one aqueous phase, at least one osmotic agent, at least one emulsifying agent, mixing a gelling polysaccharide with the oil-in-water emulsion and allowing the resulting mixture to form the pharmaceutical gel emulsion, optionally mixing an bioactive agent into the pharmaceutical gel emulsion.

公开(公告)号：US20220088504A1

公开(公告)日：2022-03-24

申请号：US17284481

申请日：2020-06-04

申请人： CHANGCHUN INSTITUTE OF APPLIED CHEMISTRY, CHINESE ACADEMY OF SCIENCE

发明人： Yuyuan LU ,  Minglun LI ,  Lijia AN

IPC分类号： B01D17/04 ,  B01F31/80 ,  B01D17/12 ,  G01N30/74 ,  G01N30/06

摘要： The present disclosure provides a method for efficiently inducing phase separation of a water-organic solvent mixed solution through an inorganic salt, comprising the following steps: A) adding the inorganic salt to the water-organic matter mixed solution, sonicating and then allowing to stand for complete dissolution of the inorganic salt, wherein the water-organic matter mixed solution is a water-acetonitrile mixed solution or a water-acetone mixed solution; the inorganic salt is one or more of LiCl, NaCl, KCl, CsCl, NaBr, KBr, Li2SO4, Na2SO4 and MgSO4; B) allowing the solution obtained in the step A) to stand in a constant temperature environment until phase separation is completed to obtain a product.

公开(公告)号：US20240225081A1

公开(公告)日：2024-07-11

申请号：US18289004

申请日：2022-05-17

申请人： 5G TOBACCO LABS LTD

发明人： Ilan FEFERBERG

IPC分类号： A24B15/24 ,  A24B15/167 ,  B01F23/213 ,  B01F25/433 ,  B01F31/80

CPC分类号： A24B15/241 ,  A24B15/167 ,  B01F23/2132 ,  B01F25/4338 ,  B01F31/84 ,  B01F2215/0454

摘要： Fume extract extracted by a fume-dissolution harvesting and accumulation system for accumulating in a tincture featuring at least one sonic cavitation device configured to exert cavitation effect in a solvent-fume mix, and a fume generating compartment for burning and/or vaporizing fume-releasing source-material configured to produce a portion of the fume at burning temperatures, and another portion at evaporation temperatures. Corresponding method is provided.

公开(公告)号：US11753313B2

公开(公告)日：2023-09-12

申请号：US17518280

申请日：2021-11-03

申请人： Virgil Dewitt Perryman, Jr.

发明人： Virgil Dewitt Perryman, Jr.

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

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

摘要： 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

申请人： Rheem Manufacturing Company

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

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

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

摘要： 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.