Patents Assigned to Evolution Engineering Inc.
  • Patent number: 9494035
    Abstract: A fluid pressure pulse generator comprising a stator and rotor that can be used in measurement while drilling using mud pulse or pressure pulse telemetry is disclosed. The stator comprises a stator body with a circular opening therethrough and the rotor comprises a circular rotor body rotatably received in the circular opening of the stator body. One of the stator body or the rotor body comprises one or more than one fluid opening for flow of fluid therethrough and the other of the stator body or the rotor body comprises one or more than one full flow chamber. The rotor is rotatable between a full flow configuration whereby the full flow chamber and the fluid opening align so that fluid flows from the full flow chamber through the fluid opening, and a reduced flow configuration whereby the full flow chamber and the fluid opening are not aligned.
    Type: Grant
    Filed: November 6, 2013
    Date of Patent: November 15, 2016
    Assignee: Evolution Engineering Inc.
    Inventors: Aaron W. Logan, David A. Switzer, Justin C. Logan, Jili Liu
  • Patent number: 9488015
    Abstract: An assembly for use in subsurface drilling includes a downhole probe supported by a centralizer. The centralizer comprises a tubular member that extends around the downhole probe. A wall of the centralizer is fluted to provide inward contact points that support the downhole probe and outward contact points that bear against a bore wall of a section of drill string. The downhole probe may be supported for substantially its entire length.
    Type: Grant
    Filed: November 6, 2013
    Date of Patent: November 8, 2016
    Assignee: Evolution Engineering Inc.
    Inventors: Aaron W. Logan, Justin C. Logan, Patrick R. Derkacz
  • Patent number: 9476297
    Abstract: This invention comprises systems, methods and apparatus for mud pulse telemetry involving sending benchmark pulses with known characteristics (such as amplitude or duration) from the surface to the BHA, measuring those characteristics at the BHA, using those measurements to predict the likely attenuation of downhole-to-surface mud pulse transmissions, and adjusting those transmissions to compensate for high attenuation or to obtain energy savings (or transmission rate increases) during low-attenuation conditions. Further refinements on these systems and methods, particularly concerning the use of signal-to-noise ratio measurements at the surface to more efficiently predict attenuation, are also disclosed.
    Type: Grant
    Filed: May 30, 2014
    Date of Patent: October 25, 2016
    Assignee: Evolution Engineering Inc.
    Inventors: Aaron W. Logan, Jili Liu, David A. Switzer
  • Patent number: 9476296
    Abstract: The embodiments described herein generally relate to a fluid pressure pulse generating apparatus with a primary seal assembly, back up seal assembly and pressure compensation device. The pressure compensation device comprises a membrane support and a longitudinally extending membrane system. The membrane support has a longitudinally extending bore therethrough for receiving a drive-shaft of the fluid pressure pulse generating apparatus. The longitudinally extending membrane system comprising a longitudinally extending outer membrane sleeve and a longitudinally extending inner membrane sleeve with the inner membrane sleeve positioned inside the outer membrane sleeve.
    Type: Grant
    Filed: December 20, 2013
    Date of Patent: October 25, 2016
    Assignee: Evolution Engineering Inc.
    Inventors: Aaron W. Logan, Justin C. Logan, David A. Switzer
  • Patent number: 9464521
    Abstract: A fluid pressure pulse generating apparatus with a pulser assembly having a pulser assembly housing enclosing a pressure compensation device. The pulser assembly housing includes an interior wall with a plurality of primary apertures therethrough and an exterior wall with a plurality of secondary apertures therethrough, the exterior wall overlying the interior wall. The primary and secondary apertures are in fluid communication with a pressure compensation mechanism in the pressure compensation device such that drilling fluid contacts the pressure compensation mechanism for equalization of pressure of a lubrication liquid contained inside the pulser assembly housing with pressure of the drilling fluid when the fluid pressure pulse generating apparatus is positioned downhole.
    Type: Grant
    Filed: February 11, 2014
    Date of Patent: October 11, 2016
    Assignee: Evolution Engineering Inc.
    Inventors: Justin C. Logan, Aaron W. Logan
  • Patent number: 9453410
    Abstract: A mud hammer is driven by the flow of drilling fluid to generate pressure pulses. Timing and/or amplitude of the pulses are altered to encode data by applying electromagnetic forces to a movable member of the mud hammer. In an example embodiment the movable member carries one or more magnets and electromagnetic forces are applied to the movable member by one or more electromagnets. The mud hammer may also generate electrical power that may be applied to charge batteries and/or drive downhole electrical apparatus.
    Type: Grant
    Filed: June 20, 2014
    Date of Patent: September 27, 2016
    Assignee: Evolution Engineering Inc.
    Inventors: Aaron W. Logan, Justin C. Logan
  • Patent number: 9435196
    Abstract: A measurement-while-drilling (MWD) telemetry system comprises a downhole MWD telemetry tool comprising a mud pulse (MP) telemetry unit and an electromagnetic (EM) telemetry unit. The MWD telemetry tool can be configured to transmit data in an EM-only telemetry mode using only the EM telemetry unit, in an MP-only mode using only the MP telemetry unit, or in a concurrent telemetry mode using both the EM and MP telemetry units concurrently. When transmitting data in the concurrent telemetry mode, the telemetry tool can be configured to transmit in a concurrent confirmation mode wherein the same telemetry data is transmitted by each of the EM and MP telemetry units, or in a concurrent shared mode wherein some of the telemetry data is transmitted by the EM telemetry unit, and the rest of the telemetry data is transmitted by the MP telemetry unit. The telemetry tool can be programmed to change its operating telemetry mode in response to a downlink command sent by an operator at surface.
    Type: Grant
    Filed: February 16, 2016
    Date of Patent: September 6, 2016
    Assignee: Evolution Engineering Inc.
    Inventors: David A. Switzer, Jili Liu, Aaron William Logan, Mingdong Xu
  • Patent number: 9422809
    Abstract: A fluid pressure pulse generator comprising a stator and rotor that can be used in measurement while drilling using mud pulse or pressure pulse telemetry is disclosed. The stator comprises a stator body with a circular opening therethrough and the rotor comprises a circular rotor body rotatably received in the circular opening of the stator body. One of the stator body or the rotor body comprises one or more than one fluid opening for flow of fluid therethrough and the other of the stator body or the rotor body comprises one or more than one full flow chamber. The rotor is rotatable between a full flow configuration whereby the full flow chamber and the fluid opening align so that fluid flows from the full flow chamber through the fluid opening, and a reduced flow configuration whereby the full flow chamber and the fluid opening are not aligned.
    Type: Grant
    Filed: May 5, 2015
    Date of Patent: August 23, 2016
    Assignee: Evolution Engineering Inc.
    Inventors: Aaron W. Logan, David A. Switzer, Justin C. Logan, Jili Liu
  • Publication number: 20160201455
    Abstract: An electromagnetic telemetry system adjusts telemetry parameters which may include carrier frequency, signal amplitude and/or data encoding protocol to achieve reliable data transmission and to conserve power. In some embodiments, sweep signals transmit a range of carrier frequencies and the parameters are determined in part by analyzing the received sweep signals. In some embodiments, different parameters are selected automatically based on a mode of drilling.
    Type: Application
    Filed: August 28, 2014
    Publication date: July 14, 2016
    Applicant: EVOLUTION ENGINEERING INC.
    Inventors: Jili LIU, Mingdong XU, Aaron W. LOGAN, David A. SWITZER, Monica E. VARGA, Mojtaba KAZEMI MIRAKI
  • Publication number: 20160194952
    Abstract: The embodiments described herein generally relate a downhole probe assembly incorporating a Bluetooth device for wirelessly transmitting electrical information between the downhole probe assembly and a surface electronic interface such as a computer when the probe assembly is above ground. The downhole probe assembly includes sensors for sensing downhole conditions; a controller in electrical communication with the sensors and configured to receive and process information from the sensors; a housing enclosing the one or more than one sensor and the controller; the Bluetooth device in electrical communication with the controller; and an end cap assembly fitted at one end of the housing. The end cap assembly partially surrounds the Bluetooth device and is configured for transmission of the electrical information therethrough. Also described is an end cap assembly for fitting to one end of a downhole probe assembly including a transmission module mated with and electrically connected to the Bluetooth device.
    Type: Application
    Filed: August 12, 2014
    Publication date: July 7, 2016
    Applicant: Evolution Engineering Inc.
    Inventors: David A. Switzer, Jili Liu, Patrick R. Derkacz, Aaron W. Logan
  • Publication number: 20160194953
    Abstract: A range of apparatus and methods for providing local and long range data telemetry within a wellbore is described. These apparatus and methods may be combined in a wide variety of ways. In some embodiments data is transmitted across a gap in a drill string using signals of a higher frequency for which an electrical impedance of the gap or of a filter connected across the gap is low. Low-frequency EM telemetry signals may be applied across the gap. The gap and any filter connected across the gap present a high impedance to the low-frequency EM telemetry signals. The described technology may be applied for transferring sensor readings between downhole electrical packages. In some embodiments sensors are electrically connected across electrically insulating gaps in the drill string.
    Type: Application
    Filed: September 5, 2013
    Publication date: July 7, 2016
    Applicant: EVOLUTION ENGINEERING INC.
    Inventors: David A. SWITZER, Aaron W. LOGAN, Jili (Jerry) LIU, Mojtaba KAZEMI MIRAKI
  • Publication number: 20160146000
    Abstract: An electromagnetic telemetry signal generating assembly comprises a first section of drill string, a second section of drill string, a gap sub configured to insulate the first section from the second section, and a power source configured to provide a first voltage to a control circuit. The control circuit is configured to drive a second voltage between the sections of drill string. The gap sub provides a gap of at least 12 inches (30 cm). The second voltage may be different than the first voltage.
    Type: Application
    Filed: June 20, 2014
    Publication date: May 26, 2016
    Applicant: EVOLUTION ENGINEERING INC.
    Inventors: Aaron W. LOGAN, Daniel W. AHMOYE, David A. SWITZER, Justin C. LOGAN, Patrick R. DERKACZ, Mojtaba KAZEMI MIRAKI
  • Publication number: 20160130932
    Abstract: An assembly for use in subsurface drilling includes a drill collar section having a bore extending longitudinally through an inner surface of the drill collar section. A pocket is formed in a section of the inner surface of the drill collar section. A holster is located in the pocket and a sleeve is snuggly fitted inside the bore in order to secure the holster inside the pocket. The sleeve may be sealed to the drill collar section for example by seals such as O-rings such that the holster is sealed from the bore. O-rings may be located on one or both of the inside of the inner surface of the collar or on the outside of the sleeve.
    Type: Application
    Filed: May 30, 2014
    Publication date: May 12, 2016
    Applicant: EVOLUTION ENGINEERING INC.
    Inventors: Aaron W. LOGAN, David A. SWITZER
  • Publication number: 20160130937
    Abstract: This invention comprises systems, methods and apparatus for mud pulse telemetry involving sending benchmark pulses with known characteristics (such as amplitude or duration) from the surface to the BHA, measuring those characteristics at the BHA, using those measurements to predict the likely attenuation of downhole-to-surface mud pulse transmissions, and adjusting those transmissions to compensate for high attenuation or to obtain energy savings (or transmission rate increases) during low-attenuation conditions. Further refinements on these systems and methods, particularly concerning the use of signal-to-noise ratio measurements at the surface to more efficiently predict attenuation, are also disclosed.
    Type: Application
    Filed: May 30, 2014
    Publication date: May 12, 2016
    Applicant: EVOLUTION ENGINEERING INC.
    Inventors: Aaron W. LOGAN, Jili LIU, David A. SWITZER
  • Publication number: 20160108683
    Abstract: A housing for a mud motor is disclosed. The housing comprises a female member comprising a female mating section and a male member comprising a male mating section and a housing section. The male mating section is matingly received within the female mating section. The collar is positioned on the housing section. The collar is made up of a framework with a plurality of discrete bodies spaced about the framework and a portion of each of the discrete bodies protrudes above the framework.
    Type: Application
    Filed: June 3, 2014
    Publication date: April 21, 2016
    Applicant: EVOLUTION ENGINEERING INC.
    Inventors: Aaron W. LOGAN, Kevin KALMAN, Vincent Gille BERUBE, Daniel W. AHMOYE
  • Patent number: 9291049
    Abstract: A measurement-while-drilling (MWD) telemetry system comprises a downhole MWD telemetry tool comprising a mud pulse (MP) telemetry unit and an electromagnetic (EM) telemetry unit. The MWD telemetry tool can be configured to transmit data in an EM-only telemetry mode using only the EM telemetry unit, in an MP-only mode using only the MP telemetry unit, or in a concurrent telemetry mode using both the EM and MP telemetry units concurrently. When transmitting data in the concurrent telemetry mode, the telemetry tool can be configured to transmit in a concurrent confirmation mode wherein the same telemetry data is transmitted by each of the EM and MP telemetry units, or in a concurrent shared mode wherein some of the telemetry data is transmitted by the EM telemetry unit, and the rest of the telemetry data is transmitted by the MP telemetry unit. The telemetry tool can be programmed to change its operating telemetry mode in response to a downlink command sent by an operator at surface.
    Type: Grant
    Filed: February 25, 2014
    Date of Patent: March 22, 2016
    Assignee: Evolution Engineering Inc.
    Inventors: David A. Switzer, Jili Liu, Aaron William Logan, Mingdong Xu
  • Publication number: 20160032660
    Abstract: A gap sub comprises a female member comprising a first and second plurality of apertures, and a male member comprising a first and second plurality of cavities. A plurality of non-conductive pins may be inserted through the second plurality of apertures and the second plurality of cavities, thereby locking the relative positions of the female and male members. A plurality of conductive pins may be inserted through the first plurality of apertures and the first plurality of cavities such that there are no electrical connections between the conductive pins and the male member. A dielectric material may be inserted between the male member and the conductive pins.
    Type: Application
    Filed: February 28, 2014
    Publication date: February 4, 2016
    Applicant: Evolution Engineering Inc.
    Inventors: Aaron W. LOGAN, Justin C. LOGAN, Patrick R. DERKACZ, David A. SWITZER
  • Publication number: 20160010446
    Abstract: An assembly for receiving telemetry signals from downhole equipment is located at a top end of a drill string above a drill rig floor. The assembly may be configured to receive multiple types of telemetry signals, for example, two or more of electromagnetic telemetry, mud pulse telemetry and drill string acoustic telemetry signals. The assembly may comprise a cap comprising a coupling and an end separated by an electrically insulating gap region. The end of the cap may be connected to a grounding system for the drill rig.
    Type: Application
    Filed: March 7, 2014
    Publication date: January 14, 2016
    Applicant: Evolution Engineering Inc.
    Inventors: Aaron W. LOGAN, Daniel W. AHMOYE, David A. SWITZER, Jili Jerry LIU
  • Publication number: 20160003007
    Abstract: The present disclosure is directed at methods, systems, and techniques for managing batteries for use in a downhole drilling application. The system includes a power bus, pairs of battery terminals for connecting to batteries, switching circuitry that connects and disconnects the batteries to the power bus, data collection circuitry that obtains battery parameters obtained during system operation, and a controller that controls the switching circuitry and receives the battery parameters. A control line connects the controller to the switching circuitry and a data line connects the controller to the data collection circuitry, with the control and data lines being distinct such that control and data signals are not multiplexed with each other.
    Type: Application
    Filed: February 27, 2014
    Publication date: January 7, 2016
    Applicant: EVOLUTION ENGINEERING INC.
    Inventors: Jili LIU, Xia PAN, David A. SWITZER, Aaron W. LOGAN
  • Publication number: 20160003035
    Abstract: A downhole system has a plurality of telemetry systems and a control system configured to obtain information from one or more sensors and transmit that information on one or more of the plurality of telemetry systems. The configuration of a controller may be changed so as to change which information is transmitted on a given telemetry system and how the information is to be transmitted on the given telemetry system.
    Type: Application
    Filed: February 25, 2014
    Publication date: January 7, 2016
    Applicant: Evolution Engineering Inc.
    Inventors: Aaron W. LOGAN, David A. SWITZER, Jili LIU, Justin C. LOGAN, Mingdong XU