Wang, Cincinnati
Jingjing Wang, Cincinnati, OH US
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20130239467 | METHOD OF EXTRACTING LIPIDS FROM TRAP GREASE WITH WASTE COOKING OIL - Describe are methods of extracting the lipid fraction from trap grease using vegetable oil, such as vegetable oils sourced from waste cooking oil. The method includes mixing a volume of vegetable oil with a volume of trap grease. The mixture is comprised of an aqueous fraction, a solid fraction, and a lipid fraction. The mixture is heated to a temperature in a range from about 50 degrees C. to about 100 degrees C. for a period of time sufficient to extract at least 80 percent of the lipids from the trap grease. The lipid fraction is then separated from the solid fraction. The method may further include a process of producing biodiesel from the extracted lipid fraction. | 09-19-2013 |
Leyi Wang, Cincinnati, OH US
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20140017269 | PROTEIN COMPLEX SYSTEM FOR INCREASED IMMUNOGENICITY AND FUNCTIONALITY, AND METHODS MAKING AND USE - Genes for proteins which spontaneously form dimers and/or oligomers can be recombinantly linked together, which upon expression in | 01-16-2014 |
Samantha Chen-Yee Wang, Cincinnati, OH US
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20140257226 | WEARABLE ABSORBENT ARTICLES - A wearable absorbent article comprises a reusable outer cover and a disposable absorbent insert. The reusable outer cover comprises a first insert fastener component in a front waist region proximate to a waist opening edge of the reusable outer cover. The first insert fastener component comprises a first end positioned most proximate to the waist opening edge and a second end positioned most distal from the waist opening edge. An insert-gripping recess is formed in the first end in an area covering a longitudinal axis of the reusable outer cover. The disposable absorbent insert comprises a first fastener component in a forward region of the insert and configured to be joined to the first insert fastener component to attach the insert to the reusable outer cover. | 09-11-2014 |
20140257228 | OUTER COVERS AND DISPOSABLE ABSORBENT INSERTS FOR PANTS - The present disclosure is generally directed to pants that include reusable outer covers and disposable absorbent inserts. | 09-11-2014 |
20140257229 | OUTER COVERS AND DISPOSABLE ABSORBENT INSERTS FOR PANTS - The present disclosure is generally directed to pants that include reusable outer covers and disposable absorbent inserts. | 09-11-2014 |
20140257230 | FASTENING ZONE CONFIGURATIONS FOR OUTER COVERS OF ABSORBENT ARTICLES - A reusable outer cover configured to be engaged with a disposable absorbent insert is provided. The reusable outer cover comprises front and rear waist regions configured to be joined together by a fastening zone. The fastening zone comprises a first side on the front waist region and a second side on the rear waist region. The first side comprises a first portion and a second portion. The first portion comprises a first fastening component and the second portion comprises a second fastening component. The second side comprises a third portion and a fourth portion. The third portion comprises a third fastening component and the fourth portion comprises a fourth fastening component. The first and third fastening components have a first fastening property and the second and fourth fastening components have a second, different fastening property. | 09-11-2014 |
20140257231 | OUTER COVERS AND DISPOSABLE ABSORBENT INSERTS FOR PANTS - The present disclosure is generally directed to pants that include reusable outer covers and disposable absorbent inserts. | 09-11-2014 |
Shanwu Wang, Cincinnati, OH US
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20130037345 | ACOUSTIC DAMPENING DEVICE FOR USE IN GAS TURBINE ENGINE - An acoustic dampener comprises a first wall, orifice plate, and second wall. The first wall separates a first fluid source from a second fluid source. The first wall has a hole for allowing fluid communication between the first fluid source and a first cavity of the acoustic dampener. The office plate separates the first cavity of the acoustic dampener from a second cavity of the acoustic dampener. The second wall has a hole for allowing fluid communication between the first cavity of the acoustic dampener in the second cavity of the acoustic dampener. The second wall separates the second cavity of the acoustic dampener from the second fluid source. The second wall has a hole for allowing fluid communication between the second cavity of the acoustic dampener and the second fluid source. In one embodiment, the acoustic dampener is formed in a combustion chamber liner of a gas turbine engine. | 02-14-2013 |
Xiao Wang, Cincinnati, OH US
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20150057515 | SWEAT SIMULATION, COLLECTING AND SENSING SYSTEMS - Biological chemicals, potentially found in blood are measured by collecting sweat and determining the concentration or meaning of the selected chemical in sweat. The sweat can be collected using a time based, interval collector and analyzed using an external device. It can also be collected on a one time basis, using a flexible, chemical capacitor, or on a continuous basis using a chemical, field effect transducer. | 02-26-2015 |
Xiging Wang, Cincinnati, OH US
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20130224603 | Lithium-ion cell having a high-capacity anode and a high-capacity cathode - A lithium-ion cell comprising: (A) a cathode comprising graphene as the cathode active material having a surface area to capture and store lithium thereon and wherein said graphene cathode is meso-porous having a specific surface area greater than 100 m | 08-29-2013 |
20130260246 | Lithium-ion cell having a high energy density and high power density - A lithium-ion cell comprising: (A) a cathode comprising graphene as the cathode active material having a surface area to capture and store lithium thereon and wherein said graphene cathode is meso-porous having a specific surface area greater than 100 m | 10-03-2013 |
20130271085 | Method of operating a lithium-ion cell having a high-capacity cathode - A method of operating a lithium-ion cell comprising (a) a cathode comprising a carbon or graphitic material having a surface area to capture and store lithium thereon; (b) an anode comprising an anode active material; (c) a porous separator disposed between the two electrodes; (d) an electrolyte in ionic contact with the two electrodes; and (e) a lithium source disposed in at least one of the two electrodes to obtain an open circuit voltage (OCV) from 0.5 volts to 2.8 volts when the cell is made; wherein the method comprises: (A) electrochemically forming the cell from the OCV to either a first lower voltage limit (LVL) or a first upper voltage limit (UVL), wherein the first LVL is no lower than 0.1 volts and the first UVL is no higher than 4.6 volts; and (B) cycling the cell between a second LVL and a second UVL. | 10-17-2013 |
Xiqing Wang, Cincinnati, OH US
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20130162216 | Stacks of internally connected surface-mediated cells and methods of operating same - An energy storage stack of at least two surface-mediated cells (SMCs) internally connected in parallel or in series. The stack includes: (A) At least two SMC cells, each consisting of (i) a cathode comprising a porous cathode current collector and a cathode active material; (ii) a porous anode current collector; and (iii) a porous separator disposed between the cathode and the anode; (B) A lithium-containing electrolyte in physical contact with all the electrodes, wherein the cathode active material has a specific surface area no less than 100 m | 06-27-2013 |
20130171502 | Hybrid electrode and surface-mediated cell-based super-hybrid energy storage device containing same - The present invention provides a multi-component hybrid electrode for use in an electrochemical super-hybrid energy storage device. The hybrid electrode contains at least a current collector, at least an intercalation electrode active material storing lithium inside interior or bulk thereof, and at least an intercalation-free electrode active material having a specific surface area no less than 100 m | 07-04-2013 |
20130190956 | Surface-mediated cell-powered vehicles and methods of operating same - This invention provides a vehicle powered by a surface-mediated cell (SMC)-based power source, comprising a vehicle frame, at least a wheel supporting the frame or a propeller connected to the frame, a drive unit connected to the wheel or propeller, and a power source electrically connected to the drive unit, wherein the power source contains at least a surface-mediated cell. The vehicle can be a micro-EV (using the SMC for the stop-start function), HEV, plug-in HEV, all-electric vehicle, power-assisted bicycle, scooter, motorcycle, tricycle, automobile, wheelchair, fork lift, golf cart, specialty vehicle, bus, truck, train, rapid-transit vehicle, boat, or air vehicle. The ultra-high power density enables the SMC to provide pulsed power or increased current demands when the vehicle is accelerating or hill-climbing. The SMC also enables the power source to recuperate the braking energy when the vehicle decelerates, brakes, or simply moves down-hill. | 07-25-2013 |
20130202945 | Surface-mediated cells with high power density and high energy density - A surface-mediated cell (SMC) comprising: (a) a cathode comprising a carbon-based cathode active material having a surface area to capture or store lithium thereon; (b) an anode comprising an anode current collector alone, or combined anode current collector and anode active material; (c) a porous separator disposed between the anode and the cathode; (d) a lithium-containing electrolyte, wherein the anode and/or cathode active material has a specific surface area no less than 100 m | 08-08-2013 |
20130212409 | Surface-mediated cell-powered portable computing devices and methods of operating same - This invention provides a portable computing device powered by a surface-mediated cell (SMC)-based power source, the portable device comprising a computing hardware sub-system and a rechargeable power source electrically connected to the hardware and providing power thereto, wherein the power source contains at least a surface-mediated cell. The portable computing device is selected from a laptop computer, a tablet, an electronic book (e-book), a smart phone, a mobile phone, a digital camera, a hand-held calculator or computer, or a personal digital assistant. | 08-15-2013 |