Patents by Inventor Emilio Panarella
Emilio Panarella 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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Patent number: 10272468Abstract: An integrated liquidjet system capable of stripping, prepping and coating a part includes a cell defining an enclosure, a jig for holding the part inside the cell, an ultrasonic nozzle having an ultrasonic transducer for generating a pulsed liquidjet, a coating particle source for supplying coating particles to the nozzle, a pressurized liquid source for supplying the nozzle with a pressurized liquid to enable the nozzle to generate the pulsed liquidjet to sequentially strip, prep and coat the part, a high-voltage electrode and a ground electrode inside the nozzle for charging the coating particles, and a human-machine interface external to the cell for receiving user commands and for controlling the pulsed liquidjet exiting from the nozzle in response to the user commands.Type: GrantFiled: October 23, 2017Date of Patent: April 30, 2019Assignee: VLN Advanced Technologies Inc.Inventors: Mohan M. Vijay, Meisheng M. Xu, Emilio Panarella, Wenzhuo Yan, Andrew Hung Tieu, Bruce R. Daniels
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Patent number: 10079075Abstract: A nuclear fusion system comprises a nuclear fusion device for providing heat energy, a capacitor for storing electrical energy for use by the nuclear fusion device in providing the heat energy, and an electrical conductor for carrying electrical energy from the capacitor to the nuclear fusion device, each of the nuclear fusion device, the capacitor and the conductor being located within a first chamber. The first chamber is located within a second chamber. A fluid is located between the first and second chambers, surrounds the nuclear fusion device, the capacitor and the conductor, and receives heat energy from each of the nuclear fusion device, the capacitor and the conductor, resulting in the fluid being heated. A thermal energy converter receives heated fluid from the second chamber. A super insulating material encloses the second chamber to reduce heat loss from the heated fluid to the cooler ambient.Type: GrantFiled: March 8, 2002Date of Patent: September 18, 2018Inventor: Emilio Panarella
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Patent number: 10024635Abstract: A landmine-neutralization system has a vehicle including a water supply tank and an electrical power supply and an electro-discharge apparatus. The electro-discharge apparatus includes one or more electro-discharge nozzles each having a discharge chamber that has an inlet for receiving water from the water supply tank and an outlet, a first electrode extending into the discharge chamber and being electrically connected to one or more high-voltage capacitors that are connected to, and chargeable by, the electrical power supply, a second electrode proximate to the first electrode to define a gap between the first and second electrodes and a switch to cause the one or more capacitors to discharge across the gap between the electrodes to create a plasma bubble which expands to form a shockwave that escapes through one or more exit orifices of the one or more nozzles ahead of the plasma bubble to thereby neutralize a landmine.Type: GrantFiled: September 29, 2017Date of Patent: July 17, 2018Assignee: VLN ADVANCED TECHNOLOGIES INC.Inventors: Mohan Vijay, Emilio Panarella, Meisheng Xu, Wenzhuo Yan, Bruce Daniels, Andrew Tieu
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Publication number: 20180043394Abstract: An integrated liquidjet system capable of stripping, prepping and coating a part includes a cell defining an enclosure, a jig for holding the part inside the cell, an ultrasonic nozzle having an ultrasonic transducer for generating a pulsed liquidjet, a coating particle source for supplying coating particles to the nozzle, a pressurized liquid source for supplying the nozzle with a pressurized liquid to enable the nozzle to generate the pulsed liquidjet to sequentially strip, prep and coat the part, a high-voltage electrode and a ground electrode inside the nozzle for charging the coating particles, and a human-machine interface external to the cell for receiving user commands and for controlling the pulsed liquidjet exiting from the nozzle in response to the user commands.Type: ApplicationFiled: October 23, 2017Publication date: February 15, 2018Inventors: Mohan M. Vijay, Meisheng M. Xu, Emilio Panarella, Wenzhuo Yan, Andrew Hung Tieu, Bruce R. Daniels
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Publication number: 20180023929Abstract: A landmine-neutralization system has a vehicle including a water supply tank and an electrical power supply and an electro-discharge apparatus.Type: ApplicationFiled: September 29, 2017Publication date: January 25, 2018Inventors: Mohan Vijay, Emilio Panarella, Meisheng Xu, Wenzhuo Yan, Bruce Daniels, Andrew Tieu
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Patent number: 9829283Abstract: A landmine-neutralization system has a vehicle including a water supply tank and an electrical power supply and an electro-discharge apparatus. The electro-discharge apparatus includes one or more electro-discharge nozzles each having a discharge chamber that has an inlet for receiving water from the water supply tank and an outlet, a first electrode extending into the discharge chamber and being electrically connected to one or more high-voltage capacitors that are connected to, and chargeable by, the electrical power supply, a second electrode proximate to the first electrode to define a gap between the first and second electrodes and a switch to cause the one or more capacitors to discharge across the gap between the electrodes to create a plasma bubble which expands to form a shockwave that escapes through one or more exit orifices of the one or more nozzles ahead of the plasma bubble to thereby neutralize a landmine.Type: GrantFiled: January 5, 2017Date of Patent: November 28, 2017Assignee: VLN Advanced Technologies Inc.Inventors: Mohan Vijay, Emilio Panarella, Meisheng Xu, Wenzhuo Yan, Bruce Daniels, Andrew Tieu
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Patent number: 9821337Abstract: An integrated liquidjet system capable of stripping, prepping and coating a part includes a cell defining an enclosure, a jig for holding the part inside the cell, an ultrasonic nozzle having an ultrasonic transducer for generating a pulsed liquidjet, a coating particle source for supplying coating particles to the nozzle, a pressurized liquid source for supplying the nozzle with a pressurized liquid to enable the nozzle to generate the pulsed liquidjet to sequentially strip, prep and coat the part, a high-voltage electrode and a ground electrode inside the nozzle for charging the coating particles, and a human-machine interface external to the cell for receiving user commands and for controlling the pulsed liquidjet exiting from the nozzle in response to the user commands.Type: GrantFiled: October 19, 2016Date of Patent: November 21, 2017Assignee: VLN Advanced Technologies Inc.Inventors: Mohan M. Vijay, Meisheng M. Xu, Emilio Panarella, Wenzhuo Yan, Andrew Hung Tieu, Bruce R. Daniels
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Publication number: 20170307340Abstract: A landmine-neutralization system has a vehicle including a water supply tank and an electrical power supply and an electro-discharge apparatus. The electro-discharge apparatus includes one or more electro-discharge nozzles each having a discharge chamber that has an inlet for receiving water from the water supply tank and an outlet, a first electrode extending into the discharge chamber and being electrically connected to one or more high-voltage capacitors that are connected to, and chargeable by, the electrical power supply, a second electrode proximate to the first electrode to define a gap between the first and second electrodes and a switch to cause the one or more capacitors to discharge across the gap between the electrodes to create a plasma bubble which expands to form a shockwave that escapes through one or more exit orifices of the one or more nozzles ahead of the plasma bubble to thereby neutralize a landmine.Type: ApplicationFiled: January 5, 2017Publication date: October 26, 2017Inventors: Mohan Vijay, Emilio Panarella, Meisheng Xu, Wenzhuo Yan, Bruce Daniels, Andrew Tieu
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Publication number: 20170241750Abstract: A landmine-neutralization system has a vehicle including a water supply tank and an electrical power supply and an electro-discharge apparatus. The electro-discharge apparatus includes one or more electro-discharge nozzles each having a discharge chamber that has an inlet for receiving water from the water supply tank and an outlet, a first electrode extending into the discharge chamber and being electrically connected to one or more high-voltage capacitors that are connected to, and chargeable by, the electrical power supply, a second electrode proximate to the first electrode to define a gap between the first and second electrodes and a switch to cause the one or more capacitors to discharge across the gap between the electrodes to create a plasma bubble which expands to form a shockwave that escapes through one or more exit orifices of the one or more nozzles ahead of the plasma bubble to thereby neutralize a landmine.Type: ApplicationFiled: May 2, 2016Publication date: August 24, 2017Inventors: Mohan Vijay, Emilio Panarella, Meisheng Xu, Wenzhuo Yan, Bruce Daniels, Andrew Tieu
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Patent number: 9739574Abstract: A landmine-neutralization system has a vehicle including a water supply tank and an electrical power supply and an electro-discharge apparatus. The electro-discharge apparatus includes one or more electro-discharge nozzles each having a discharge chamber that has an inlet for receiving water from the water supply tank and an outlet, a first electrode extending into the discharge chamber and being electrically connected to one or more high-voltage capacitors that are connected to, and chargeable by, the electrical power supply, a second electrode proximate to the first electrode to define a gap between the first and second electrodes and a switch to cause the one or more capacitors to discharge across the gap between the electrodes to create a plasma bubble which expands to form a shockwave that escapes through one or more exit orifices of the one or more nozzles ahead of the plasma bubble to thereby neutralize a landmine.Type: GrantFiled: May 2, 2016Date of Patent: August 22, 2017Assignee: VLN Advanced Technologies Inc.Inventors: Mohan Vijay, Emilio Panarella, Meisheng Xu, Wenzhuo Yan, Bruce Daniels, Andrew Tieu
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Patent number: 9718091Abstract: A method of stripping, prepping and coating a surface comprises first stripping the exiting coating from a surface, using continuous or pulsed fluid jet, followed by prepping the surface by the same fluid jet. The method also provides entraining particles into a fluid stream, if desired to generate a particle-entrained fluid stream that is directed at the surface to be stripped and prepped. The particles act as abrasive particles for prepping the surface to a prescribed surface roughness required for subsequent application of a coating to the surface. The method then entails coating the surface by electrically charging particles having the same chemical composition as the particles used to prep the surface. Finally, a charged-particle-entrained fluid stream is directed at high speed at the charged surface to coat the surface. The particles form both mechanical and electronic bonds with the surface.Type: GrantFiled: June 24, 2016Date of Patent: August 1, 2017Assignee: VLN Advanced Technologies Inc.Inventors: Mohan M. Vijay, Meisheng M. Xu, Emilio Panarella, Wenzhuo Yan, Andrew Hung Tieu, Bruce R. Daniels
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Publication number: 20170036239Abstract: An integrated liquidjet system capable of stripping, prepping and coating a part includes a cell defining an enclosure, a jig for holding the part inside the cell, an ultrasonic nozzle having an ultrasonic transducer for generating a pulsed liquidjet, a coating particle source for supplying coating particles to the nozzle, a pressurized liquid source for supplying the nozzle with a pressurized liquid to enable the nozzle to generate the pulsed liquidjet to sequentially strip, prep and coat the part, a high-voltage electrode and a ground electrode inside the nozzle for charging the coating particles, and a human-machine interface external to the cell for receiving user commands and for controlling the pulsed liquidjet exiting from the nozzle in response to the user commands.Type: ApplicationFiled: October 19, 2016Publication date: February 9, 2017Inventors: Mohan M. Vijay, Meisheng M. Xu, Emilio Panarella, Wenzhuo Yan, Andrew Hung Tieu, Bruce R. Daniels
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Patent number: 9512531Abstract: A method of stripping, prepping and coating a surface includes first stripping the exiting coating from a surface, using continuous or pulsed fluid jet, followed by prepping the surface by the same fluid jet. The method also provides entraining particles into a fluid stream, if desired to generate a particle-entrained fluid stream that is directed at the surface to be stripped and prepped. The particles act as abrasive particles for prepping the surface to a prescribed surface roughness required for subsequent application of a coating to the surface. The method then entails coating the surface by electrically charging particles having the same chemical composition as the particles used to prep the surface. Finally, a charged-particle-entrained fluid stream is directed at high speed at the charged surface to coat the surface. The particles form both mechanical and electronic bonds with the surface.Type: GrantFiled: November 10, 2014Date of Patent: December 6, 2016Assignee: VLN Advanced Technologies Inc.Inventors: Mohan M. Vijay, Meisheng M. Xu, Emilio Panarella, Wenzhuo Yan, Andrew Hung Tieu, Bruce R. Daniels
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Publication number: 20160339460Abstract: A method of stripping, prepping and coating a surface comprises first stripping the exiting coating from a surface, using continuous or pulsed fluid jet, followed by prepping the surface by the same fluid jet. The method also provides entraining particles into a fluid stream, if desired to generate a particle-entrained fluid stream that is directed at the surface to be stripped and prepped. The particles act as abrasive particles for prepping the surface to a prescribed surface roughness required for subsequent application of a coating to the surface. The method then entails coating the surface by electrically charging particles having the same chemical composition as the particles used to prep the surface. Finally, a charged-particle-entrained fluid stream is directed at high speed at the charged surface to coat the surface. The particles form both mechanical and electronic bonds with the surface.Type: ApplicationFiled: June 24, 2016Publication date: November 24, 2016Inventors: Mohan M. Vijay, Meisheng M. Xu, Emilio Panarella, Wenzhuo Yan, Andrew Hung Tieu, Bruce R. Daniels
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Publication number: 20150315714Abstract: A method of stripping, prepping and coating a surface includes first stripping the exiting coating from a surface, using continuous or pulsed fluid jet, followed by prepping the surface by the same fluid jet. The method also provides entraining particles into a fluid stream, if desired to generate a particle-entrained fluid stream that is directed at the surface to be stripped and prepped. The particles act as abrasive particles for prepping the surface to a prescribed surface roughness required for subsequent application of a coating to the surface. The method then entails coating the surface by electrically charging particles having the same chemical composition as the particles used to prep the surface. Finally, a charged-particle-entrained fluid stream is directed at high speed at the charged surface to coat the surface. The particles form both mechanical and electronic bonds with the surface.Type: ApplicationFiled: November 10, 2014Publication date: November 5, 2015Inventors: Mohan M. Vijay, Meisheng M. Xu, Emilio Panarella, Wenzhuo Yan, Andrew Hung Tieu, Bruce R. Daniels
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Patent number: 7502446Abstract: A soft x-ray generator includes a unique pulse trigger assembly which reliably and reproducibly provides a plasma to initiate the discharge between a cathode and an anode, and having a cone-shaped geometry. The soft x-ray generator of the present invention also includes a rotating anode which is generally disk-shaped with an outer circumferential edge which can be rotated with respect to the cathode to expose different sections of the anode to the plasma discharge, thereby reducing anode wear and providing longer term operation. Anode erosion is also reduced by the liquid cooling of the anode during use. The generator utilizes a relatively low capacitance for the cathode-to-anode discharge and a relatively high voltage and pulse repetition rate (frequency) to achieve continuous reproducible results.Type: GrantFiled: October 17, 2006Date of Patent: March 10, 2009Assignee: ALFT Inc.Inventors: Robert Dotten, Robert Taylor, Emilio Panarella, Meisheng Xu, Yuriy Antoshko, Ian Stanley Chapman, Philippe P. Gratton, David Johnson
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Publication number: 20070086572Abstract: A soft x-ray generator includes a unique pulse trigger assembly which reliably and reproducibly provides a plasma to initiate the discharge between a cathode and an anode, and having a cone-shaped geometry. The soft x-ray generator of the present invention also includes a rotating anode which is generally disk-shaped with an outer circumferential edge which can be rotated with respect to the cathode to expose different sections of the anode to the plasma discharge, thereby reducing anode wear and providing longer term operation. Anode erosion is also reduced by the liquid cooling of the anode during use. The generator utilizes a relatively low capacitance for the cathode-to-anode discharge and a relatively high voltage and pulse repetition rate (frequency) to achieve continuous reproducible results.Type: ApplicationFiled: October 17, 2006Publication date: April 19, 2007Inventors: Robert Dotten, Robert Taylor, Emilio Panarella, Meisheng Xu, Yuriy Antoshko, Ian Chapman, Philippe Gratton, David Johnson
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Publication number: 20030002610Abstract: A system and method for generating electrical energy utilizing nuclear fusion comprised of a containment device, a quantity of plasma with fusible substances in the containment device, the containment device and its contents being adapted for repeated cycle bursts of fusion reactions in response to high energy electronic pulses. The fusion containment device is mounted within a chamber containing a body of fluid such that thermal heat energy originating from the fusion reactions is gathered into the fluid body. The heat energy stored in the fluid body may then be cycled to generate electrical energy. A portion of the generated electrical energy is returned to sustain operation of the nuclear fusion system, and the remaining electrical energy which is not returned to sustain the system is available for application as useful energy.Type: ApplicationFiled: June 11, 2002Publication date: January 2, 2003Inventor: Emilio Panarella
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Patent number: 6240163Abstract: In an electrode combination for a radiation head for the generation of electromagnetic radiation comprising an anode means having a tip end component and a cathode means, the tip end component comprising a material able to facilitate, in response to a predetermined pulse voltage applied between the anode means and cathode means, the generation of electromagnetic radiation, the improvement wherein the electrode combination comprises a trigger electrode, the tip end component, the cathode means and the trigger electrode being spaced apart from each other by a respective predetermined distance.Type: GrantFiled: March 4, 1999Date of Patent: May 29, 2001Assignee: Advanced Laser & Fusion TechnologyInventors: Liyan Zhang, Emilio Panarella, Albert Philippe, Jacob Eich, Stephen Drew