With Ionic Or Electrostatic Surface Patents (Class 244/205)
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Patent number: 11415118Abstract: An apparatus, system and method for generating ionosonic lift is provided. First and second control electrodes are attached in a spaced-apart relation proximal to a top surface of a wing. An alternating potential applied to the first and second control electrodes alternately attracts and repels ions of a fluid in which the wing is immersed, causing a reciprocating flow of the ions of the fluid and of neutral molecules between the first and second control electrodes. The reciprocating flow of the ions and neutral molecules causes a reduction in pressure at the top surface of the wing, resulting in net lift applied to the wing under the Bernoulli relation.Type: GrantFiled: December 2, 2019Date of Patent: August 16, 2022Inventor: David A. Colasante
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Patent number: 11174007Abstract: A flow control apparatus includes a plasma actuator, a storage device, and a control circuit. The plasma actuator causes discharge in a discharge area by applying an alternating-current (AC) voltage between electrodes to form an induced flow of gas. The electrodes are shifted relatively to each other with a dielectric disposed between them. The storage device stores a changing condition of an AC voltage waveform for changing a gas flow state formed in a flow control area of gas from a first state to a second state by adding the induced flow of gas. The control circuit refers to the changing condition of the AC voltage waveform and control the AC voltage waveform based on the changing condition of the AC voltage waveform, in a case of changing the gas flow state formed in the gas flow control area from the first flow state to the second flow state.Type: GrantFiled: November 21, 2018Date of Patent: November 16, 2021Assignee: SUBARU CORPORATIONInventors: Maki Kikuchi, Hiroki Kato
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Patent number: 10882636Abstract: A wing comprising a leading edge forming a caisson delimited by a wall and an electrically conductive skin forming a lower surface and an upper surface and pierced with holes. A pump is provided to suck the air present in the caisson and/or to inject air into the caisson. The wing includes a voltage generator. Each hole is equipped with an anti-clogging system which comprises an electrically conductive electrode, an electrically insulating body having a stem which lodges in the hole and which has a central orifice in which the electrode lodges. The outer face of the stem has at least one tooth, where each tooth protrudes from the outer face of the stem and extends over the height of the stem. The at least one tooth is distributed around the stem so as to create at least one channel.Type: GrantFiled: September 17, 2018Date of Patent: January 5, 2021Assignee: AIRBUS OPERATIONS SASInventor: Mathias Farouz-Fouquet
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Patent number: 10527074Abstract: A plasma plate is used to minimize drag of a fluid flow over an exposed surface. The plasma plate includes a series of plasma actuators positioned on the surface. Each plasma actuator is made of a dielectric separating a first electrode exposed to a fluid flow and a second electrode separated from the fluid flow under the dielectric. A pulsed direct current power supply provides a first voltage to the first electrode and a second voltage to the second electrode. The series of plasma actuators is operably connected to a bus which distribute powers and is positioned to minimize flow disturbances. The plasma actuators are arranged into a series of linear rows such that a velocity component is imparted to the fluid flow.Type: GrantFiled: July 27, 2017Date of Patent: January 7, 2020Assignee: University of Notre Dame du LacInventors: Thomas C. Corke, Flint O. Thomas
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Patent number: 10273903Abstract: A nacelle for a gas turbine jet engine for an aircraft includes plasma actuators that act as flow disruptors to provide boundary layer turbulence when the engine is exposed to air flow that is obtuse or perpendicular to direction of travel of the engine.Type: GrantFiled: March 21, 2016Date of Patent: April 30, 2019Assignees: Rolls-Royce Corporation, Rolls-Royce North American Technologies Inc.Inventors: Roy D. Fulayter, Crawford F. Smith, III
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Patent number: 10138871Abstract: There is provided an airflow generation device and the like capable of suppressing an increase in a number of poles of a slip ring, and effectively preventing a malfunction from occurring due to a generation of noise caused by the slip ring. An airflow generation device of an embodiment has a main body, a rotation speed detecting unit, and a voltage application unit. The main body has a first electrode and a second electrode provided to a base formed of a dielectric, and is disposed on a rotary body. The rotation speed detecting unit detects a rotation speed of the rotary body. The voltage application unit generates an airflow by applying a voltage between the first electrode and the second electrode based on the rotation speed detected in the rotation speed detecting unit. Here, the voltage application unit and the rotation speed detecting unit are disposed in the rotary body.Type: GrantFiled: October 16, 2015Date of Patent: November 27, 2018Assignee: KABUSHIKI KAISHA TOSHIBAInventors: Naohiko Shimura, Motofumi Tanaka, Toshiki Osako, Tadayoshi Hanafusa
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Patent number: 10091865Abstract: System and/or method generally relate to extending a lifespan of an excimer lamp. The system includes a ultra-violet (UV) light having a pair of dielectrics configured to separate electrodes. One of the electrodes includes a metal mesh. The system includes a power supply electrically coupled to the UV light and configured to deliver electrical power to the UV light. The system includes a temperature sensor operably coupled to the UV light. The temperature sensor is configured to generate a temperature signal indicative of a temperature of the UV light. The system includes at least one processor. The at least one processor is configured to determine a temperature of the UV light based on the temperature signal, and adjust the electrical power delivered to the UV light based on the temperature signal.Type: GrantFiled: November 13, 2017Date of Patent: October 2, 2018Assignee: The Boeing CompanyInventor: Arthur E. Brockschmidt, Jr.
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Patent number: 9670913Abstract: A plasma propulsion nozzle incorporates a cylinder having an inlet and an outlet. A plurality of substantially cylindrical planarly disbanded electrodes with sandwiched dielectric spacers is cascaded in an array to be concentrically expanding from the inlet through an interior chamber to the outlet for a nozzle. A voltage source applies aperiodic signal with rapidly reversing polarity to the electrodes with differential phase applied to adjacent electrodes in the array creating and expelling plasma clusters at each dielectric spacer inducing flow from the nozzle outlet to produce thrust.Type: GrantFiled: December 19, 2014Date of Patent: June 6, 2017Assignee: The Boeing CompanyInventors: Vyacheslav Khozikov, Shengyi Liu
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Patent number: 9541106Abstract: The present invention relates to a method of designing or optimizing a control surface for use with plasma actuators for controlling an aircraft, missile, munition or automobile, and more particularly to controlling fluid flow across their surfaces or other surfaces using plasma actuators, which would benefit from such a method. The various embodiments provide the steps to increase the efficiency of aircraft, missiles, munitions and automobiles. The method of flow control also provides a means for reducing aircraft, missile's, munition's and automobile's power requirements. These methods also provide alternate means for aerodynamic control using low-power hingeless plasma actuator devices.Type: GrantFiled: February 26, 2007Date of Patent: January 10, 2017Assignees: Orbitel Research Inc., The University of Notre Dame du LacInventors: Mehul Patel, Thomas Corke, Alan B. Cain
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Patent number: 8960595Abstract: Embodiments of the subject invention relate to an air vehicle and a power source. Embodiments can operate at reasonable power levels for hovering and withstanding expected wind gusts. Embodiments can have a diameter less than 15 cm. Embodiments can have one or more smooth (continuous curvature) surface and can be operated using electromagnetic and electrohydrodynamic principles. The wingless design of specific embodiments can allow operation with no rotating or moving components. Additional embodiments can allow active response to the surrounding flow conditions. The issue of low lift to drag ratio and degradation of airfoil efficiency due to the inability of laminar boundary layers attachment can also be significantly reduced, or eliminated. The electromagnetic force can be generated by applying a pulsed (alternating/rf) voltage between a set of grounded and powered electrodes separated by a polymer insulator, dielectric, or other material with insulating properties.Type: GrantFiled: December 19, 2012Date of Patent: February 24, 2015Assignee: University of Florida Research Foundation, Inc.Inventor: Subrata Roy
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Patent number: 8727286Abstract: Systems and methods for controlling air vehicle boundary layer airflow are disclosed. Representative methods can include applying electrical energy bursts and/or other energy bursts in nanosecond pulses in the boundary layer along a surface of an air vehicle. In a particular embodiment, electrical energy is discharged into the boundary layer to reduce the tendency for the boundary layer to separate and/or to reduce the tendency for the boundary layer to transition from laminar flow to turbulent flow. Representative actuators discharging the energy can be arranged in a two-dimensional array of individually addressable actuators.Type: GrantFiled: June 14, 2012Date of Patent: May 20, 2014Assignee: The Boeing CompanyInventors: Joseph S. Silkey, Philip Smereczniak
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Patent number: 8640995Abstract: A vortex generator system comprises one or more plasma streamwise vortex generators (PSVGs) or plasma wedge vortex generators (PWVGs). The PSVGs and PWVGs each comprises a first electrode and a second electrode separated by a dielectric layer. The first electrode extends in a longitudinal direction. The PSVGs and PWVGs can be installed on a surface arranged to receive airflow in a certain flow direction. The PSVGs have a rectangular first electrode is exposed and extends at least somewhat parallel to the expected flow direction, whereas the first electrode of the PWVGs is more triangular in shape. When an AC voltage is applied to the first and second electrodes, a plasma forms along edges of the first electrode. The plasma imposes a body force in a cross-flow direction, which induces a cross-flow velocity that, in combination with the mean flow, produces streamwise-oriented counter-rotating vortices.Type: GrantFiled: July 31, 2009Date of Patent: February 4, 2014Assignee: Textron Innovations Inc.Inventors: Thomas Corke, Flint Thomas, David Shatzman, Tommie Wood
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Patent number: 8636254Abstract: A cross flow instability inhibiting assembly generates periodic aerodynamic disturbances on a swept wing. The cross flow instability inhibiting assembly is dynamic in that it can be selectively turned on and off as needed. The cross flow instability inhibiting assembly is a strip of material separating a set of electrodes from a set of electrodes. When energized, the fields created between the electrodes and electrodes create plasma disturbances around the electrodes. The electric fields and plasma create heating and body force disturbances on the air or surrounding fluid. These plasma generated disturbances disrupt development of unstable voriticity due to cross flow, inhibiting transition to turbulent flow of the wing to which it is attached. The electrodes may be connected to electrical power in series or they may be connected to an alternating configuration. The system allows for various uses based on the design of the wing and the conditions in which the host aircraft is flying.Type: GrantFiled: September 29, 2010Date of Patent: January 28, 2014Assignee: Lockheed Martin CorporationInventors: Craig M. Hansen, Paul D. McClure, Sergey Macheret
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Patent number: 8602361Abstract: A method of monitoring the performance of an aerodynamic surface of an aircraft. The aircraft is operated during a non-perturbed measurement period such that the flow of air over the surface is at least partially laminar. A parameter is measured which is indicative of the drag of the surface during the non-perturbed measurement period to provide non-perturbed drag data. Air flow is perturbed temporarily over the surface in a perturbed measurement period so that it undergoes a transition from laminar flow to turbulent flow. The parameter is also measured during the perturbed measurement period to provide perturbed drag data. The degree of laminar flow during the non-perturbed measurement period can then be estimated in accordance with the difference between the perturbed drag data and the non-perturbed drag data. An ice protection system can be used to perturb the air flow.Type: GrantFiled: August 16, 2011Date of Patent: December 10, 2013Assignee: Airbus Operations LimitedInventor: Norman Wood
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Patent number: 8523115Abstract: Systems, apparatus, and program product and methods for controlling boundary layer flow across an aerodynamic structure which can produce separate regions of flow structures at different strengths by means of dielectric-barrier-discharge (DBD) type plasmas, are provided. An example of such apparatus provides plasma regions that are capable of being individually controlled by voltage and/or frequency, and modulated for the purposes of flow control. The apparatus includes an electrode assembly fitted with electrodes on either side of a dielectric such that different electrode geometries and arrangements create isolated regions of plasmas which results in separate regions of flow structures. These regions may be further controlled and modulated by the use of electronic-switching to produce irregularly shaped flow structures and strengths including those having a primarily vertical component.Type: GrantFiled: January 28, 2011Date of Patent: September 3, 2013Assignee: Lockheed Martin CorporationInventors: Katherine Anne Essenhigh, Fengfeng Tao, Grover Andrew Bennett, Matthew Boespflug, Robert C. Murray, Seyed Gholani Saddoughi
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Patent number: 8382029Abstract: Embodiments relate to a Wingless Hovering Micro Air Vehicle and its Power Source Unit. Embodiments can operate at reasonable power levels for hovering and withstanding expected wind gusts. Embodiments can have a diameter less than 15 cm. Embodiments can have one or more smooth (continuous curvature) surface and can be operated using electromagnetic and electrohydrodynamic principles. The wingless design of specific embodiments can allow operation with no rotating or moving components. Additional embodiments can allow active response to the surrounding flow conditions. The issue of low lift to drag ratio and degradation of airfoil efficiency due to the inability of laminar boundary layers attachment can also be significantly reduced, or eliminated. The electromagnetic force can be generated by applying a pulsed (alternating/rf) voltage between a set of grounded and powered electrodes separated by a polymer insulator, dielectric, or other material with insulating properties.Type: GrantFiled: December 23, 2008Date of Patent: February 26, 2013Assignee: University of Florida Research Foundation, Inc.Inventor: Subrata Roy
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Patent number: 8348200Abstract: Systems and methods for controlling fluid flow utilizing a synthetic jet actuator, are provided. An example of a synthetic jet actuator system includes a synthetic jet actuator including a dual bimorph subsystem to provide low, medium, and high synthetic jet velocities and/or fine flow control response, and an arc-forming subsystem to provide enhanced pressure, velocity, and mass flow performance, enhanced flow control response, and/or heating of the fluid within the bimorph chamber to extend the performance or operating margin of the dual bimorph subsystem of the synthetic jet actuator. The arc-forming subsystem includes a pair of electrodes interfaced with inner surface walls of the dual bimorph subsystem. Various configurations of power supplies can be utilized to provide simultaneous function to both the subsystem and the arc-forming subsystem to allow selective activation.Type: GrantFiled: December 23, 2009Date of Patent: January 8, 2013Assignee: Lockheed Martin CorporationInventors: Seyed Gholami Saddoughi, Grover Andrew Bennett
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Publication number: 20130001368Abstract: Systems and methods for controlling air vehicle boundary layer airflow are disclosed. Representative methods can include applying electrical energy bursts and/or other energy bursts in nanosecond pulses in the boundary layer along, a surface of an it vehicle. In a particular embodiment, electrical energy is discharged into the boundary layer to reduce the tendency for the boundary layer to separate and/or to reduce the tendency for the boundary layer to transition from laminar flow to turbulent flow. Representative actuators discharging the energy can be arranged in a two-dimensional array of individually addressable actuators.Type: ApplicationFiled: June 14, 2012Publication date: January 3, 2013Applicant: The Boeing CompanyInventors: Joseph S. Silkey, Philip Smereczniak
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Patent number: 8308112Abstract: An aircraft includes a surface over which an airflow passes. A plasma actuator is configured to generate a plasma above the surface, the plasma coupling a directed momentum into the air surrounding the surface to reduce separation of the airflow from the surface. A method of reducing separation of an airflow from a surface of an aircraft includes generating a plasma in air surrounding the surface at a position where the airflow would separate from the surface in the absence of the plasma.Type: GrantFiled: September 13, 2006Date of Patent: November 13, 2012Assignees: Textron Innovations Inc., The University of Notre Dame du LacInventors: Tommie L. Wood, Thomas C. Corke, Martiqua Post
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Patent number: 8267355Abstract: A method of controlling an aircraft, missile, munition or ground vehicle with plasma actuators, and more particularly of controlling fluid flow across their surfaces or other surfaces which would benefit from such a method, includes the design of an aerodynamic plasma actuator for the purpose of controlling airflow separation over a control surface of a aircraft, missile, or a ground vehicle, and a method of determining a modulation frequency for the plasma actuator for the purpose of fluid flow control over these vehicles. Various embodiments provide steps to increase the efficiency of aircraft, missiles, munitions and ground vehicles. The method of flow control reduces the power requirements of the aircraft, missile, munition and or ground vehicle. These methods also provide alternative aerodynamic control using low-power hingeless plasma actuator devices.Type: GrantFiled: April 27, 2011Date of Patent: September 18, 2012Assignees: Orbital Research Inc., University of Notre Dame du LacInventors: Mehul Patel, Thomas C. Corke
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Patent number: 8251318Abstract: An array of electrodes for selectively generating plasma is described herein. The array includes a first electrode disposed along a first dielectric, and at least a second electrode. A second electrode is sandwiched between the first dielectric and the second dielectric. A power supply provides electrical power to at least the first and second electrodes. In turn, a power supply controller controls the power supply, so as to regulate the electrical power supplied to at least the first and the second electrodes, and to cause the first and second electrodes to generate and move plasma to modify different airflow patterns.Type: GrantFiled: November 19, 2008Date of Patent: August 28, 2012Assignee: The Boeing CompanyInventors: Vyacheslav Khozikov, Shengyi Liu
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Patent number: 8240609Abstract: A metamaterial has a magnetic permeability response at frequencies sufficient to generate a repulsive force between a fluid and a surface to which the metamaterial may be applied. The metamaterial may be nanofabricated such that an absolute value of the magnetic permeability of the metamaterial is substantially greater than an absolute value of an electric permittivity of the metamaterial. The metamaterial may generate a repulsive force between the surface and the fluid moving relative to the surface and thereby reduce viscous drag of the fluid on the surface. A method of reducing the viscous drag of the fluid moving past the surface includes producing relative motion between the surface and the fluid and generating the repulsive force between the surface and the fluid.Type: GrantFiled: December 8, 2008Date of Patent: August 14, 2012Assignee: The Boeing CompanyInventors: Claudio G. Parazzoli, Minas H. Tanielian, Robert B. Greegor
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Publication number: 20120193483Abstract: Systems, apparatus, and program product and methods for controlling boundary layer flow across an aerodynamic structure which can produce separate regions of flow structures at different strengths by means of dielectric-barrier-discharge (DBD) type plasmas, are provided. An example of such apparatus provides plasma regions that are capable of being individually controlled by voltage and/or frequency, and modulated for the purposes of flow control. The apparatus includes an electrode assembly fitted with electrodes on either side of a dielectric such that different electrode geometries and arrangements create isolated regions of plasmas which results in separate regions of flow structures. These regions may be further controlled and modulated by the use of electronic-switching to produce irregularly shaped flow structures and strengths including those having a primarily vertical component.Type: ApplicationFiled: January 28, 2011Publication date: August 2, 2012Applicant: LOCKHEED MARTIN CORPORATIONInventors: Katherine Anne Essenhigh, Fengfeng Tao, Grover Andrew Bennett, Matthew Boespflug, Robert C. Murray, Seyed Gholami Saddoughi
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Patent number: 8226047Abstract: An airfoil includes a plasma actuation surface integrated onto the airfoil surface. On the airfoil, the plasma actuation surface is configured to provide high-frequency plasma actuation along the plasma actuation surface such that excitation of the vortex flow or shear flow mitigates the vortex flow or the shear flow associated with the airfoil.Type: GrantFiled: January 23, 2009Date of Patent: July 24, 2012Assignee: General Electric CompanyInventors: Anurag Gupta, Seyed Gholamali Saddoughi
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Patent number: 8220754Abstract: An object moving through a fluid uses plasma to keep turbulent mixing vortices associated with turbulent air away from the majority of the surface of the object. The plasma may be used to enhance physical riblets, or the plasma may create a virtual riblet.Type: GrantFiled: June 3, 2009Date of Patent: July 17, 2012Assignee: Lockheed Martin CorporationInventors: Paul D. McClure, Sergey Macheret, Brian R. Smith, Kurt M. Chankaya
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Patent number: 8220753Abstract: Systems and methods for controlling air vehicle boundary layer airflow are disclosed. Representative methods can include applying electrical energy bursts and/or other energy bursts in nanosecond pulses in the boundary layer along a surface of an air vehicle. In a particular embodiment, electrical energy is discharged into the boundary layer to reduce the tendency for the boundary layer to separate and/or to reduce the tendency for the boundary layer to transition from laminar flow to turbulent flow. In other embodiments, energy can be discharged via pulses having a pulse width of about 100 nanoseconds or less, and an amplitude of about 10,000 volts or more. Actuators discharging the energy can be arranged in a two-dimensional ray of individually addressable actuators. Energy can be delivered to the boundary layer via a laser emitter, and energy can be received in a receiver after having transited over at least a portion of the airflow surface.Type: GrantFiled: December 19, 2008Date of Patent: July 17, 2012Assignee: The Boeing CompanyInventors: Joseph S. Silkey, Philip Smereczniak
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Patent number: 8196871Abstract: A micro-electromechanical system (MEMS) dielectric barrier discharge (DBD) based aerodynamic actuator is configured to modify a shockwave boundary layer interaction and limit incident boundary layer growth caused by a reflected shockwave.Type: GrantFiled: November 26, 2008Date of Patent: June 12, 2012Assignee: General Electric CompanyInventors: Robert Carl Murray, Anurag Gupta, Seyed Gholamali Saddoughi, Aspi Rustom Wadia
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Patent number: 8181910Abstract: Fluid having a velocity approaching a surface having a leading edge may be deflected. An electric field may be projected ahead of the leading edge of the surface to ionize at least some molecules of the fluid approaching the wing. The strength of the electric field may vary between a maximum level and a minimum level periodically over time. A magnetic field may be projected from the surface to deflect the ionized molecules of the fluid such that some or all of the deflection is normal to the velocity of the approaching fluid and normal to the leading edge of the surface while the electric field is below its maximum level.Type: GrantFiled: October 31, 2008Date of Patent: May 22, 2012Inventor: Blair J. Lewis
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Publication number: 20120074263Abstract: A cross flow instability inhibiting assembly generates periodic aerodynamic disturbances on a swept wing. The cross flow instability inhibiting assembly is dynamic in that it can be selectively turned on and off as needed. The cross flow instability inhibiting assembly is a strip of material separating a set of electrodes from a set of electrodes. When energized, the fields created between the electrodes and electrodes create plasma disturbances around the electrodes. The electric fields and plasma create heating and body force disturbances on the air or surrounding fluid. These plasma generated disturbances disrupt development of unstable voriticity due to cross flow, inhibiting transition to turbulent flow of the wing to which it is attached. The electrodes may be connected to electrical power in series or they may be connected to an alternating configuration. The system allows for various uses based on the design of the wing and the conditions in which the host aircraft is flying.Type: ApplicationFiled: September 29, 2010Publication date: March 29, 2012Applicant: Lookheed Martin CorporationInventors: Craig M. Hansen, Paul D. McClure, Sergey Macheret
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Patent number: 8091836Abstract: A rotary-wing system which generates a directed ion field to propel a fluid along a rotary-wing to control at least one boundary layer characteristic.Type: GrantFiled: December 19, 2007Date of Patent: January 10, 2012Assignee: Pratt & Whitney Rocketdyne, Inc.Inventor: Alan B. Minick
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Publication number: 20110272531Abstract: A boundary layer control system and method for controlling and adjusting the boundary layer of a fluid flowing over a surface.Type: ApplicationFiled: July 18, 2011Publication date: November 10, 2011Inventors: Alan B. Minick, William T. Cousins
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Publication number: 20110253842Abstract: A method and apparatus may comprise a first number of layers of a flexible material, a second number of layers of a dielectric material, a first electrode attached to a surface layer in the first number of layers, and a second electrode attached to a second layer in one of the first number of layers and the second number of layers. The first number of layers may be interspersed with the second number of layers. The first electrode may be configured to be exposed to air. The first electrode and the second electrode may be configured to form a plasma in response to a voltage.Type: ApplicationFiled: April 19, 2010Publication date: October 20, 2011Applicant: THE BOEING COMPANYInventors: Joseph Steven Silkey, David James Suiter, Bradley Alan Osborne
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Patent number: 8016247Abstract: A plasma actuator system and method especially well adapted for use on airborne mobile platforms, such as aircraft, for directional and/or attitude control. The system includes at least one plasma actuator having first and second electrodes mounted on a surface of an aircraft. The first and second electrodes are arranged parallel to a boundary layer flow path over the surface. A third electrode is mounted between the first and second electrodes and laterally offset from the first and second electrodes. A high AC voltage signal is applied across the first and third electrodes, which induces a fluid flow between the energized electrodes that helps to delay separation of the boundary layer. Applying the AC voltage across the second and third electrodes causes an induced fluid flow that creates the opposite effect of influencing the boundary layer flow to separate from the surface.Type: GrantFiled: May 25, 2007Date of Patent: September 13, 2011Assignee: The Boeing CompanyInventors: Scott L. Schwimley, Joseph S. Silkey
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Patent number: 8016246Abstract: A system and method for controlling a freestream air flow over a surface of an airborne mobile platform, for example an aircraft. In one implementation the system includes a plurality of plasma actuators used on an undersurface of a fuselage of an aircraft upstream of a weapons bay of the aircraft. When the plasma actuators are energized an induced flow is created adjacent the actuators. The induced flow operates to deflect the shear layer created when the freestream air flow moves over the weapons bay (while the bay doors are open), away from the weapons bay. This significantly reduces the oscillating acoustic pressure waves that would normally be produced if the shear layer turns into the weapons bay. The system and method significantly reduces acoustic noise inside the weapons bay and improves separation of ordnance from the weapons bay.Type: GrantFiled: May 25, 2007Date of Patent: September 13, 2011Assignee: The Boeing CompanyInventors: Scott L. Schwimley, Donald V. Drouin, Jr.
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Patent number: 8006939Abstract: A method to manipulate a fluid flow over a surface is provided. This method may be used to reduce drag, improve the lift to drag (L/D) ratio, attach fluid flow, or reduce flow noise at the surface. This involves flowing a fluid over the surface wherein the fluid contains positively charged ions and electrons. An electric field accelerates ions and electrons in directions parallel to the electric field. A magnetic field at the surface redirects ions and electrons based on their velocity and charge. The magnetic field imparts little force on the relatively heavy and slow moving positive ions but has a significant impact on the relatively fast moving, light weight electrons. This results in a non-zero net change in the total momentum of the positive ions and electrons allowing thrust to be realized. This thrust may be sufficient for vehicle propulsion or manipulation of the fluid flow around the vehicle.Type: GrantFiled: November 22, 2006Date of Patent: August 30, 2011Assignee: Lockheed Martin CorporationInventors: Paul D. McClure, Charles J. Chase
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Patent number: 7988101Abstract: A flow control system and method especially well adapted for use on a Coanda surface. In one embodiment a plurality of plasma actuators are disposed over a Coanda surface of a wing of an aircraft. The actuators are selectively energized to either delay the onset of boundary layer flow separation from the Coanda surface, or to promote flow separation. One embodiment discloses using dual mode plasma actuators on a Coanda surface. The system and method is applicable to a wide variety of aerodynamic surfaces where control over the separation of a boundary layer flow over a trailing edge surface is desired.Type: GrantFiled: May 25, 2007Date of Patent: August 2, 2011Assignee: The Boeing CompanyInventors: Bradley Alan Osborne, Christopher Daniel Wilson
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Patent number: 7954768Abstract: A method of controlling an aircraft, missile, munition or ground vehicle with plasma actuators, and more particularly of controlling fluid flow across their surfaces or other surfaces which would benefit from such a method, includes the design of an aerodynamic plasma actuator for the purpose of controlling airflow separation over a control surface of a aircraft, missile, or a ground vehicle, and a method of determining a modulation frequency for the plasma actuator for the purpose of fluid flow control over these vehicles. Various embodiments provide steps to increase the efficiency of aircraft, missiles, munitions and ground vehicles. The method of flow control reduces the power requirements of the aircraft, missile, munition or ground vehicle. These methods also provide alternative aerodynamic control using low-power hingeless plasma actuator devices.Type: GrantFiled: October 23, 2009Date of Patent: June 7, 2011Assignees: Orbital Research Inc., Notre Dame UniversityInventors: Mehul Patel, Thomas C. Corke
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Publication number: 20100308177Abstract: An object moving through a fluid uses plasma to keep turbulent mixing vortices associated with turbulent air away from the majority of the surface of the object. The plasma may be used to enhance physical riblets, or the plasma may create a virtual riblet.Type: ApplicationFiled: June 3, 2009Publication date: December 9, 2010Applicant: Lockheed Martin CorporationInventors: Paul D. McClure, Sergey Macheret, Brian R. Smith, Kurt M. Chankaya
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Publication number: 20100224733Abstract: An aircraft includes a surface over which an airflow passes. A plasma actuator is configured to generate a plasma above the surface, the plasma coupling a directed momentum into the air surrounding the surface to reduce separation of the airflow from the surface. A method of reducing separation of an airflow from a surface of an aircraft includes generating a plasma in air surrounding the surface at a position where the airflow would separate from the surface in the absence of the plasma.Type: ApplicationFiled: September 13, 2006Publication date: September 9, 2010Applicant: BELL HELICOPTER TEXTRON INC.Inventors: Tommie L. Wood, Thomas C. Corke, Martiqua Post
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Patent number: 7744039Abstract: Systems and methods for controlling flow with electrical pulses are disclosed. An aircraft system in accordance with one embodiment includes an aerodynamic body having a flow surface exposed to an adjacent air stream, and a flow control assembly that includes a first electrode positioned at least proximate to the flow surface and a second electrode positioned proximate to and spaced apart from the first electrode. A dielectric material can be positioned between the first and second electrodes, and a controller can be coupled to at least one of the electrodes, with the controller programmed with instructions to direct air-ionizing pulses to the electrode, and provide a generally steady-state signal to the electrode during intervals between the pulses.Type: GrantFiled: January 3, 2007Date of Patent: June 29, 2010Assignees: The Boeing Company, Princeton UniversityInventors: Richard B. Miles, Sergey O. Macheret, Mikhail Shneider, Alexandre Likhanskii, Joseph Steven Silkey
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Publication number: 20100133386Abstract: A plasma actuator system and method especially well adapted for use on airborne mobile platforms, such as aircraft, for directional and/or attitude control. The system includes at least one plasma actuator having first and second electrodes mounted on a surface of an aircraft. The first and second electrodes are arranged parallel to a boundary layer flow path over the surface. A third electrode is mounted between the first and second electrodes and laterally offset from the first and second electrodes. A high AC voltage signal is applied across the first and third electrodes, which induces a fluid flow between the energized electrodes that helps to delay separation of the boundary layer. Applying the AC voltage across the second and third electrodes causes an induced fluid flow that creates the opposite effect of influencing the boundary layer flow to separate from the surface.Type: ApplicationFiled: May 25, 2007Publication date: June 3, 2010Inventors: Scott L. Schwimley, Joseph S. Silkey
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Publication number: 20100108821Abstract: Fluid having a velocity approaching a surface having a leading edge may be deflected. An electric field may be projected ahead of the leading edge of the surface to ionize at least some molecules of the fluid approaching the wing. The strength of the electric field may vary between a maximum level and a minimum level periodically over time. A magnetic field may be projected from the surface to deflect the ionized molecules of the fluid such that some or all of the deflection is normal to the velocity of the approaching fluid and normal to the leading edge of the surface while the electric field is below its maximum level.Type: ApplicationFiled: October 31, 2008Publication date: May 6, 2010Inventor: Blair J. Lewis
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Publication number: 20100004799Abstract: Systems and methods for alleviating aircraft loads with plasma actuators are disclosed. A method for operating an aircraft in accordance with a particular embodiment includes receiving an input corresponding to an aircraft component structural response to an aerodynamic load. The method can further include, based at least in part on the input corresponding to the aircraft component's structural response, reducing the structural response to the aerodynamic load by activating at least one plasma actuator carried by the aircraft, in accordance with one or more activation parameters.Type: ApplicationFiled: July 1, 2008Publication date: January 7, 2010Applicant: The Boeing CompanyInventors: Donald V. Drouin, JR., Scott Lee Schwimley
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Patent number: 7641153Abstract: Methods and apparatus for suppressing noise. The present invention provides a method that includes directing a laser at a first volume of gas and directing microwave radiation to a second volume. The method includes selecting the location of the second volume so that it is overrun by a shockwave system of a supersonic vehicle. Preferably, the directing of the radiation is from a vehicle that flies at high altitude and is of practical length (e.g., 100-400 feet or more). The radiation may be pulsed and steered. The present invention also provides a system including a laser and microwave antenna for controlling the noise of a supersonic vehicle. The laser is directed at a first volume while the antenna is pointed at a second volume that envelops the first volume. The location of the second volume is such that it will be overrun by the shockwave system of the vehicle.Type: GrantFiled: November 21, 2005Date of Patent: January 5, 2010Assignee: The Boeing CompanyInventor: Philip Smereczniak
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Patent number: 7624941Abstract: The present invention relates to a method of controlling an aircraft, missile, munition or ground vehicle with plasma actuators, and more particularly to controlling fluid flow across their surfaces or other surfaces, which would benefit from such a method. The method includes the design of an aerodynamic plasma actuator for the purpose of controlling airflow separation over a control surface of a aircraft, missile, or a ground vehicle, and more particularly to the method of determining a modulation frequency for the plasma actuator for the purpose of fluid flow control over these vehicles. The various embodiments provide the steps to increase the efficiency of aircraft, missiles, munitions and ground vehicles. The method of flow control provides a means for reducing aircraft, missile's, munition's and ground vehicle's power requirements. These methods also provide alternate means for aerodynamic control using low-power hingeless plasma actuator devices.Type: GrantFiled: May 2, 2006Date of Patent: December 1, 2009Assignees: Orbital Research Inc., University of Notre Dame du LacInventors: Mehul Patel, Tom Corke
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Publication number: 20090212164Abstract: A flow control system and method especially well adapted for use on a Coanda surface. In one embodiment a plurality of plasma actuators are disposed over a Coanda surface of a wing of an aircraft. The actuators are selectively energized to either delay the onset of boundary layer flow separation from the Coanda surface, or to promote flow separation. One embodiment discloses using dual mode plasma actuators on a Coanda surface. The system and method is applicable to a wide variety of aerodynamic surfaces where control over the separation of a boundary layer flow over a trailing edge surface is desired.Type: ApplicationFiled: May 25, 2007Publication date: August 27, 2009Applicant: The Boeing CompanyInventors: Bradley Alan Osborne, Christopher Daniel Wilson
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Publication number: 20090173837Abstract: Systems and methods for controlling air vehicle boundary layer airflow are disclosed. Representative methods can include applying electrical energy bursts and/or other energy bursts in nanosecond pulses in the boundary layer along a surface of an air vehicle. In a particular embodiment, electrical energy is discharged into the boundary layer to reduce the tendency for the boundary layer to separate and/or to reduce the tendency for the boundary layer to transition from laminar flow to turbulent flow. In other embodiments, energy can be discharged via pulses having a pulse width of about 100 nanoseconds or less, and an amplitude of about 10,000 volts or more. Actuators discharging the energy can be arranged in a two-dimensional ray of individually addressable actuators. Energy can be delivered to the boundary layer via a laser emitter, and energy can be received in a receiver after having transited over at least a portion of the airflow surface.Type: ApplicationFiled: December 19, 2008Publication date: July 9, 2009Applicant: The Boeing CompanyInventors: Joseph S. Silkey, Philip Smereczniak
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Publication number: 20090159754Abstract: A rotary-wing system which generates a directed ion field to propel a fluid along a rotary-wing to control at least one boundary layer characteristic.Type: ApplicationFiled: December 19, 2007Publication date: June 25, 2009Inventor: Alan B. Minick
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Publication number: 20090127401Abstract: Disclosed is a boundary layer control apparatus, and method, for controlling and adjusting the boundary layer of a fluid flowing over a surface. The apparatus and method operate by using ionic wind to propel the fluid within the boundary layer in a specified direction thereby either increasing or decreasing the boundary layer thickness.Type: ApplicationFiled: November 7, 2007Publication date: May 21, 2009Inventors: William T. Cousins, Alan B. Minick
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Patent number: 7413149Abstract: A system for augmenting the apparent velocity and effectiveness of an airfoil, such as a wing, on a vehicle includes at least one ionizer or emitter positioned relative to the airfoil to ionize a fluid media in which the airfoil travels and at least one attractor/receiver for accelerating the flow of ionized fluid media over the airfoil. The system further includes a voltage source to which each ionizer and each attractor is electrically connected.Type: GrantFiled: July 21, 2004Date of Patent: August 19, 2008Assignee: United Technologies CorporationInventors: Alan B. Minick, Benjamin Goldberg, Larry Knauer