Patents by Inventor Gennady Lyasko

Gennady Lyasko 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).

  • Patent number: 8485251
    Abstract: Systems and methods of enhancing crude oil flow radiate electromagnetic energy in the form of focused far field electromagnetic energy into a permeable formation containing the crude oil so as to cause the oil to decrease in viscosity without a substantial change in temperature of the crude oil, increasing the ability of the oil to flow within the formation toward the well and enabling recovery from the reservoir.
    Type: Grant
    Filed: August 20, 2009
    Date of Patent: July 16, 2013
    Assignee: Lockheed Martin Corporation
    Inventors: Vincent Benischek, Michael Currie, Rajneeta Basantkumar, Gennady Lyasko
  • Patent number: 8242781
    Abstract: An array of electromagnetic receiver antennae is arranged and operated in conjunction with the operation of an array of far field electromagnetic transmitter antennae for mapping subsurface features of an existing well site reservoir. Mapping is performed according to the relative intensities, frequencies, phase shifts, and/or other reflected signal parameters of the reflections received by the receiver antennae (relative to the transmit signals) associated with a given location or target area within a reservoir so as to aid in determining the geological features about an oil deposit for an existing oil well.
    Type: Grant
    Filed: August 20, 2009
    Date of Patent: August 14, 2012
    Assignee: Lockheed Martin Corporation
    Inventors: Vincent Benischek, Michael Currie, Rajneeta Basantkumar, Gennady Lyasko
  • Patent number: 8055447
    Abstract: Systems and methods of enhancing crude oil recovery include radiating electromagnetic energy in the form of focused electromagnetic pulses into a permeable formation containing the crude oil and/or fluid via an array of antennae transmitting immediately in the far field. The electromagnetic pulses are focused at the depth of the fluid reservoir. Pulses will be reflected by the fluid according to the fluid material (e.g. oil vs. water) and/or the strata (e.g. rock, sand, etc.). An array of receiver antennae may be used to initially establish a reference of the reflected electromagnetic pattern, and then operated in conjunction with the transmit array to monitor the relative horizontal movement of oil and/or water within the subterranean reservoir.
    Type: Grant
    Filed: August 21, 2009
    Date of Patent: November 8, 2011
    Assignee: Lockheed Martin Corporation
    Inventors: Vincent Benischek, Michael Currie, Rajneeta Basantkumar, Gennady Lyasko
  • Patent number: 7980327
    Abstract: The invention provides for systems and methods of enhancing crude oil recovery providing an array of electromagnetic receiver antennae arranged and operated in conjunction with an array of far field electromagnetic transmitter antennae for mapping subsurface features of a reservoir. Mapping is performed according to the relative intensities, frequencies, phase shifts, and/or other reflected signal parameters of the reflections received by the receiver antennae (relative to the transmit signals) associated with a given location or target area within a reservoir. Such mapping aids in determining an optimal location of a production well or the location of an auxiliary well relative to the production well.
    Type: Grant
    Filed: August 21, 2009
    Date of Patent: July 19, 2011
    Assignee: Lockheed Martin Corporation
    Inventors: Vincent Benischek, Michael Currie, Rajneeta Basantkumar, Gennady Lyasko
  • Publication number: 20100082254
    Abstract: Systems and methods of enhancing crude oil recovery include radiating electromagnetic energy in the form of focused electromagnetic pulses into a permeable formation containing the crude oil and/or fluid via an array of antennae transmitting immediately in the far field. The electromagnetic pulses are focused at the depth of the fluid reservoir. Pulses will be reflected by the fluid according to the fluid material (e.g. oil vs. water) and/or the strata (e.g. rock, sand, etc.). An array of receiver antennae may be used to initially establish a reference of the reflected electromagnetic pattern, and then operated in conjunction with the transmit array to monitor the relative horizontal movement of oil and/or water within the subterranean reservoir.
    Type: Application
    Filed: August 21, 2009
    Publication date: April 1, 2010
    Applicant: Lockheed Martin Corporation
    Inventors: Vincent BENISCHEK, Michael CURRIE, Rajneeta BASANTKUMAR, Gennady LYASKO
  • Publication number: 20100071894
    Abstract: The invention provides for systems and methods of enhancing crude oil flow by radiating electromagnetic energy in the form of focused far field electromagnetic energy into a permeable formation containing the crude oil so as to cause the oil to decrease in viscosity without a substantial change in temperature of the crude oil, thereby increasing the ability of the oil to flow within the formation toward the well and enabling recovery from the reservoir.
    Type: Application
    Filed: August 20, 2009
    Publication date: March 25, 2010
    Applicant: Lockheed Martin Corporation
    Inventors: Vincent Benischek, Michael Currie, Rajneeta Basantkumar, Gennady Lyasko
  • Publication number: 20100071955
    Abstract: The invention provides for systems and methods of enhancing crude oil recovery providing an array of electromagnetic receiver antennae arranged and operated in conjunction with an array of far field electromagnetic transmitter antennae for mapping subsurface features of a reservoir. Mapping is performed according to the relative intensities, frequencies, phase shifts, and/or other reflected signal parameters of the reflections received by the receiver antennae (relative to the transmit signals) associated with a given location or target area within a reservoir. Such mapping aids in determining an optimal location of a production well or the location of an auxiliary well relative to the production well.
    Type: Application
    Filed: August 21, 2009
    Publication date: March 25, 2010
    Applicant: Lockheed Martin Corporation
    Inventors: VINCENT BENISCHEK, Michael CURRIE, Rajneeta BASANTKUMAR, Gennady LYASKO
  • Publication number: 20100073001
    Abstract: An array of electromagnetic receiver antennae is arranged and operated in conjunction with the operation of an array of far field electromagnetic transmitter antennae for mapping subsurface features of an existing well site reservoir. Mapping is performed according to the relative intensities, frequencies, phase shifts, and/or other reflected signal parameters of the reflections received by the receiver antennae (relative to the transmit signals) associated with a given location or target area within a reservoir so as to aid in determining the geological features about an oil deposit for an existing oil well.
    Type: Application
    Filed: August 20, 2009
    Publication date: March 25, 2010
    Applicant: Lockheed Martin Corporation
    Inventors: VINCENT BENISCHEK, Michael CURRIE, Rajneeta BASANTKUMAR, Gennady LYASKO
  • Patent number: 5495259
    Abstract: A compact parametric antenna (CPA) employs the principle of stimulating an electric field E and a magnetic field H for synthesis of an electromagnetic wavefront according to the Poynting vector theory S=E .times.H. The CPA includes a dielectric, magnetically-active, open circuit mass core, ampere windings around the mass core and an RF source for driving the windings to produce an electromagnetic wavefront. The principle behind the synthesis of a electromagnetic wavefront is that the RF current source provides a sinusoidal RF current I.sub.0 which drives the ampere windings to stimulate an external electric field E and, through the induction of gyromagnetic, gyroscopic and Faraday effects in the dielectric, magnetically-active, open circuit mass core, an external magnetic field H having an internal magnetic flux density B.
    Type: Grant
    Filed: March 31, 1994
    Date of Patent: February 27, 1996
    Inventor: Gennady Lyasko