Joshua S Mcconkey, 4717415 Cascades Hill Ct, Orlando, FL 32820

2014005, Feb 27, 2014

Aug 22, 2012

13/591635

JOSHUA S. McConkey - Orlando FL, US

G01M 15/12
F02C 7/00

60803, 73649

A gas turbine combustor vibration sensing system includes a non-contact reflective optical vibration sensor adapted for reflecting photons off of a component within the combustor with a photon source and receiving reflected photons with a photon detector. Exemplary combustor internal components include the combustor basket or transition. A vibration analyzer is coupled to the vibration sensor, for correlating photons received by the detector with vibration characteristics of the component. Vibration characteristics in turn can be correlated with combustion characteristics, including by way of example flame front position and flameout conditions. Vibration characteristic information may be used as an operational parameter by a turbine monitoring system to modify operation of a gas turbine.

2014004, Feb 20, 2014

Aug 14, 2012

13/585399

JOSHUA S. MCCONKEY - Orlando FL, US

H01F 27/32

336196

A coil (). The coil () comprises a conductor formed in the shape of winding layers (). The conductor comprises an insulating coating () surrounding a conductive core (). The coil further comprises paper strips () disposed proximate one or more of the winding layers () to provide strain relief against mechanical forces exerted on the coil () and to provide electrical insulation between winding layers (). In an embodiment where the coil () further comprises a core () the paper strips () are beneficially disposed at corners (A, B, C, and D) of the core () and further between winding layers () at the corners (A, B, C, D).

2021014, May 13, 2021

Aug 1, 2017

16/629861

- Orlando FL, US
Christine P. Spiegelberg - Winter Park FL, US
Joshua S. McConkey - Orlando FL, US

F01D 21/00
F04D 27/00
F04D 29/32
G01H 1/00

A method of monitoring a rotor blade is provided. The method includes disposing a probe including an optical sensor within a mounting hole in a turbine casing of a turbine engine. A laser beam is them emitted by a light source radially inward from the probe position onto a rotor blade tip of the rotor blade The rotor blade is positioned such that it periodically passes the laser beam. The rotor blade tip includes a predetermined pattern The reflected light images from the rotor blade tip are received by the optical sensor From the reflected light images, a blade profile is constructed. Based on this constructed blade profile from the reflected light images off the predetermined pattern a position of the rotor blade is determined. A system of monitoring a rotor blade is also provided.

2020029, Sep 17, 2020

Sep 5, 2018

16/644694

- Orlando FL, US
Joshua S. McConkey - Orlando FL, US
Fabio Ipince Petrozzi - La Molina, PE

F01D 25/00
F01D 5/18
F01D 25/32
F02C 7/052

A system and a method for removing debris from a flow path of a cooling flow is provided. The system includes a turbine including at least one airfoil. A cooling flow is communicated to cooling holes via piping that includes a dead leg debris extractor in order to cool the airfoil. The dead leg debris extractor includes a means to capture and retain debris from the cooling flow continuously during online operation of the turbine.

2019023, Aug 1, 2019

Jan 29, 2018

15/882037

- Orlando FL, US
Joshua S. McConkey - Orlando FL, US

F01D 15/10
H02J 50/10

A system for powering instrumentation of a generator wirelessly via magnetic induction is provided. The system includes a generator having a power generating source disposed within its casing to convert the electromagnetic energy produced by the generator into electrical energy that may be stored in an energy storage device. This stored energy may then be utilized by at least one sensing component within the generator casing and configured to measure and collect operational data related to the generator. A method for powering a wireless sensor within a generator via magnetic induction is also provided.

2019017, Jun 6, 2019

Apr 12, 2016

16/092474

- München, DE
Joshua S. McConkey - Orlando FL, US

F01D 25/12
C23C 30/00
F23R 3/00

A gas turbine engine component formed of material having phononic regions. The phononic regions are formed of metallic glass nanostructures. The phononic regions modify the behavior of the phonons and control heat conduction.

2019016, May 30, 2019

Apr 12, 2016

16/091694

- Münche, DE
Joshua S. MCCONKEY - Orlando FL, US

F01D 25/12
C23C 14/08
C23C 28/00
F01D 5/28
C04B 35/486

A gas turbine engine component formed of material having phononic regions. The phononic regions are formed of non-metallic nanostructures. The phononic regions modify the behavior of the phonons and control heat conduction.

2019012, May 2, 2019

Oct 27, 2017

15/795358

- Orlando FL, US
Joshua S. McConkey - Orlando FL, US

G01F 1/74
G01M 15/14

A method and system to accurately characterize the velocity of a fluid flow through a flow channel using particle image velocimetry is provided. The method includes introducing a plurality of seeding particles to the fluid flow. The seeding particles are essentially two dimensional such that each particles length and width are much greater than its thickness. At least two closely spaced pluses of light are repetitively delivered to the fluid flow, each pulse of light illuminating a successive planar cross section of the fluid flow in a flow direction. Images of each illuminated cross section are captured using an image receiver. A processor receives the images from the image receiver and analyzes the captured images in order to characterize the velocity of the fluid flow.