Patents by Inventor Wesley D. Brown

Wesley D. Brown 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).

  • Publication number: 20210207492
    Abstract: An industrial gas turbine engine with first and stage turbine rotor blade cooling circuit in which the blade cooling air flows through a central passage within the rotor of the engine, flows through a space between first and second stage rotors, separates into two flows with one flow going to the first stage blades and the second flow going to the second stage blades, the two flows then collecting in a common manifold, where the spent blade cooling air flows forward through the first stage rotor and along a rotor cooling passage and into a stator cavity, where the cooling air then is discharged into a combustor.
    Type: Application
    Filed: February 14, 2017
    Publication date: July 8, 2021
    Inventors: Russel B. JONES, Wesley D. BROWN
  • Patent number: 10024170
    Abstract: An integrally bladed rotor with an axial bore having either an inward dishing shape or an axial straight shape with an annular inward projection in which radial cooling holes having an elliptical cross sectional shape are formed, where the radial cooling holes have an elliptical cross sectional shape with a major axis perpendicular to the axial bore in order to reduce stress near an inlet opening of the radial holes in order to increase the LCF life of the IBR. The radial cooling holes discharge into a circumferential channel that is connected to cooling holes extending in the rotor blades.
    Type: Grant
    Filed: July 7, 2016
    Date of Patent: July 17, 2018
    Assignee: Florida Turbine Technologies, Inc.
    Inventors: Robert L Memmen, Wesley D Brown
  • Patent number: 9394799
    Abstract: An air riding seal between a rotor and a stator in a turbine of a gas turbine engine, where an annular piston is movable in an axial direction within a housing that extends from the stator, and a bellows is secured to the annular piston to form a flexible air passageway from a compressed air inlet through the annular piston and into a cushion cavity that forms an air riding seal between the annular piston and the rotor sealing surface. In another embodiment, a flexible seal secured to and extending from the annular piston forms a sealing surface between the annular piston chamber and the annular piston to provide a seal and allow for axial movement.
    Type: Grant
    Filed: July 9, 2015
    Date of Patent: July 19, 2016
    Assignee: S & J DESIGN LLC
    Inventors: Jacob A Mills, Wesley D Brown, Thomas D Sexton, Russell B Jones
  • Patent number: 8794907
    Abstract: A high compression ratio compressor having multiple stages of airfoils to produce the high pressure rations, where the last stage airfoils are cooled by passing cooling air through the airfoils without discharging film cooling air. The cooling air for the airfoils is bled off from an upstream stage of the compressor, passed through the airfoil to provide for the cooling, passed through a heat exchanger to preheat a fuel, where the preheated fuel is passed into the combustor. the cooled cooling air form the heat exchanger can be reintroduced back into the compressor or passed through the turbine to cool last stage airfoils in the turbine.
    Type: Grant
    Filed: May 29, 2013
    Date of Patent: August 5, 2014
    Assignee: Florida Turbine Technologies, Inc.
    Inventors: Joseph D Brostmeyer, Wesley D Brown, John E Ryznic
  • Patent number: 8475112
    Abstract: A high compression ratio compressor having multiple stages of airfoils to produce the high pressure rations, where the last stage airfoils are cooled by drawing heat away from the airfoils using a heat pipe, and then passing cooling air through a heat exchanger associated with the heat pipe to draw heat away from the heat pipe. The cooling air used for cooling the airfoils is bled off from an earlier stage than the last stage and then discharged into a stage upstream from the bleed off location.
    Type: Grant
    Filed: June 19, 2012
    Date of Patent: July 2, 2013
    Assignee: Florida Turbine Technologies, Inc.
    Inventors: John E Ryznic, Wesley D Brown
  • Patent number: 8382439
    Abstract: A turbine rotor blade made from the spar and shell construction in which the shell is a thin wall shell made from a high temperature resistant material that is formed by a wire EDM process, and where the shell is secured to the spar using a retainer that is poured into retainer occupying spaces formed in the shell and the spar, and then hardened to form a rigid retainer to secure the shell to the spar. The spar and the shell both have grooves facing each other to form a retainer groove. A retaining material, such as a liquid or a powdered metal, is poured into the grooves and hardened to form a retainer to secure the shell to the spar. The retaining material also forms a seal on the top of the spar and between the spar and shell.
    Type: Grant
    Filed: September 24, 2011
    Date of Patent: February 26, 2013
    Assignee: Florida Turbine Technologies, Inc.
    Inventor: Wesley D Brown
  • Patent number: 8336206
    Abstract: A turbine rotor blade made from the spar and shell construction in which the shell formed from a plurality of shell segments each being a thin wall shell segment made from a high temperature resistant material that is formed by a wire EDM process, and where the shell segments are each secured to the spar separately using a retainer that is poured into retainer occupying spaces formed in the shell segments and the spar, and then hardened to form a rigid retainer to secure each shell segment to the spar individually. The spar includes a number of radial extending projections each with a row of cavities that form the retainer occupying spaces in order to spread the loads around. The retainer can be a bicast material, a transient liquid phase bonding material, or a sintered metal. An old shell can be easily removed and replaced with a new shell by removing parts of the retainer and re-pouring a new retainer with a new shell in place.
    Type: Grant
    Filed: June 10, 2011
    Date of Patent: December 25, 2012
    Assignee: Florida Turbine Technologies, Inc.
    Inventors: Wesley D Brown, William L Plank
  • Patent number: 8307661
    Abstract: A small gas turbine engine for use in an UAV such as a cruise missile, the gas turbine having a combustor forming a primary burn zone and a secondary burn zone, and in which fuel is injected into both the primary and the secondary burn zones by either a rotary cup injector or a plurality of fuel injector nozzles. The secondary burn zone with separate fuel injection allows for the diameter of the engine to be reduced in size but still allow for adequate power and efficiency to be reached for powering the vehicle. Air flow from the compressor is used to cool the combustor walls before being injected into the combustor, and to pass through and cool the guide nozzles and a main bearing located near the hot section of the combustor prior to being introduced into the combustor.
    Type: Grant
    Filed: May 25, 2012
    Date of Patent: November 13, 2012
    Assignee: Florida Turbine Technologies, Inc.
    Inventors: Mark M. Harris, Wesley D. Brown, Angel M. Garcie
  • Publication number: 20120234016
    Abstract: A small gas turbine engine for use in an UAV such as a cruise missile, the gas turbine having a combustor forming a primary burn zone and a secondary burn zone, and in which fuel is injected into both the primary and the secondary burn zones by either a rotary cup injector or a plurality of fuel injector nozzles. The secondary burn zone with separate fuel injection allows for the diameter of the engine to be reduced in size but still allow for adequate power and efficiency to be reached for powering the vehicle. Air flow from the compressor is used to cool the combustor walls before being injected into the combustor, and to pass through and cool the guide nozzles and a main bearing located near the hot section of the combustor prior to being introduced into the combustor.
    Type: Application
    Filed: May 25, 2012
    Publication date: September 20, 2012
    Applicant: FLORIDA TURBINE TECHNOLOGIES, INC.
    Inventors: Mark M. Harris, Wesley D. Brown, Angel M. Garcia
  • Patent number: 8196407
    Abstract: A small gas turbine engine for use in an UAV such as a cruise missile, the gas turbine having a combustor forming a primary burn zone and a secondary burn zone, and in which fuel is injected into both the primary and the secondary burn zones by either a rotary cup injector or a plurality of fuel injector nozzles. The secondary burn zone with separate fuel injection allows for the diameter of the engine to be reduced in size but still allow for adequate power and efficiency to be reached for powering the vehicle. Air flow from the compressor is used to cool the combustor walls before being injected into the combustor, and to pass through and cool the guide nozzles and a main bearing located near the hot section of the combustor prior to being introduced into the combustor.
    Type: Grant
    Filed: June 19, 2009
    Date of Patent: June 12, 2012
    Assignee: Florida Turbine Technologies, Inc.
    Inventors: Mark M. Harris, Wesley D. Brown, Angel M. Garcie
  • Publication number: 20110305580
    Abstract: A turbine rotor blade with a spar and shell construction, where the shell has an airfoil shape and is formed of two shell segments with an upper shell half and a lower shell half. The upper shell half is radially supported by a tip of the spar while the lower shell half is radially loaded by an attachment so that its load is not carried by the upper shell half and the tip of the spar in order to reduce overall stress levels.
    Type: Application
    Filed: August 26, 2011
    Publication date: December 15, 2011
    Applicant: FLORIDA TURBINE TECHNOLOGIES, INC.
    Inventors: Jack W. Wilson, JR., Wesley D. Brown
  • Patent number: 8070450
    Abstract: A turbine rotor blade made from the spar and shell construction in which the shell formed from a plurality of shell segments each being a thin wall shell segment made from a high temperature resistant material that is formed by a wire EDM process, and where the shell segments are each secured to the spar separately using a retainer that is poured into retainer occupying spaces formed in the shell segments and the spar, and then hardened to form a rigid retainer to secure each shell segment to the spar individually. The spar includes a number of radial extending projections each with a row of cavities that form the retainer occupying spaces in order to spread the loads around. The retainer can be a bicast material, a transient liquid phase bonding material, or a sintered metal. An old shell can be easily removed and replaced with a new shell by removing parts of the retainer and re-pouring a new retainer with a new shell in place.
    Type: Grant
    Filed: April 20, 2009
    Date of Patent: December 6, 2011
    Assignee: Florida Turbine Technologies, Inc.
    Inventors: John E Ryznic, Wesley D Brown
  • Patent number: 8052391
    Abstract: A turbine rotor blade made from the spar and shell construction in which the shell is a thin wall shell made from a high temperature resistant material that is formed by a wire EDM process, and where the shell is secured to the spar using a retainer that is poured into retainer occupying spaces formed in the shell and the spar, and then hardened to form a rigid retainer to secure the shell to the spar. The spar and the shell both have grooves facing each other to form a retainer groove. A retaining material, such as a liquid or a powdered metal, is poured into the grooves and hardened to form a retainer to secure the shell to the spar. The retaining material also forms a seal on the top of the spar and between the spar and shell.
    Type: Grant
    Filed: March 25, 2009
    Date of Patent: November 8, 2011
    Assignee: Florida Turbine Technologies, Inc.
    Inventor: Wesley D Brown
  • Patent number: 8015705
    Abstract: A turbine rotor blade with a spar and shell construction, where the shell has an airfoil shape and is formed of two shell segments with an upper shell half and a lower shell half. The upper shell half is radially supported by a tip of the spar while the lower shell half is radially loaded by an attachment so that its load is not carried by the upper shell half and the tip of the spar in order to reduce overall stress levels.
    Type: Grant
    Filed: July 27, 2010
    Date of Patent: September 13, 2011
    Assignee: Florida Turbine Technologies, Inc.
    Inventors: Jack W Wilson, Jr., Wesley D Brown
  • Patent number: 8007242
    Abstract: A turbine rotor blade made from the spar and shell construction in which the shell is a thin wall shell made from a high temperature resistant material that is formed by a wire EDM process, and where the shell is secured to the spar using a retainer that is poured into retainer occupying spaces formed in the shell and the spar, and then hardened to form a rigid retainer to secure the shell to the spar. The spar includes a number of radial extending projections each with a row of cavities that form the retainer occupying spaces in order to spread the loads around. The retainer can be a bicast material, a transient liquid phase bonding material, or a sintered metal. An old shell can be easily removed and replaced with a new shell by removing parts of the retainer and re-pouring a new retainer with a new shell in place.
    Type: Grant
    Filed: March 16, 2009
    Date of Patent: August 30, 2011
    Assignee: Florida Turbine Technologies, Inc.
    Inventors: Wesley D Brown, William L. Plank
  • Patent number: 7997057
    Abstract: A small gas turbine engine where the compressor and turbine are supported on a rotary shaft, and a main bearing is supported on the rotary shaft, the main bearing being located in a hot zone of the combustor. The main bearing includes cooling air passages within the races to provide cooling for the bearing. A cooling air is diverted from the compressor and passed through the bearing cooling passages for cooling the bearing, and then the cooling air is directed into the combustor. The cooling air is also passed through a guide nozzle before being passed through the bearing to cool both the guide nozzle and the bearing. A swirl cup injector is used to deliver the compressed air from the compressor and the cooling air from the bearing into the combustor, the swirl cup injector also acting to draw the cooling air through the bearing.
    Type: Grant
    Filed: June 19, 2009
    Date of Patent: August 16, 2011
    Assignee: Florida Turbine Technologies, Inc.
    Inventors: Mark M. Harris, Wesley D. Brown, Angel M. Garcie
  • Patent number: 7942009
    Abstract: A small gas turbine engine with a compressor, a combustor, and a turbine located downstream of the combustor. The compressor and turbine are supported on a rotary shaft, and a main bearing is support on the rotary shaft, the main bearing being located in a hot zone of the combustor. The main bearing includes cooling air passages within the races to provide cooling for the bearing. A cooling air is diverted from the compressor and passed through the bearing cooling passages for cooling the bearing, and then the cooling air is directed into the combustor. The cooling air is also passed through a guide nozzle before being passed through the bearing to cool both the guide nozzle and the bearing. A swirl cup injector is sued to deliver the compressed air from the compressor and the cooling air from the bearing into the combustor, the swirl cup injector also acting to draw the cooling air through the bearing.
    Type: Grant
    Filed: June 15, 2009
    Date of Patent: May 17, 2011
    Assignee: Florida Turbine Technologies, Inc.
    Inventors: Mark M Harris, Wesley D Brown, Angel M Garcia
  • Publication number: 20110020137
    Abstract: A blade for a rotor of a gas turbine engine is constructed with a spar and shell configuration. The spar is constructed in an integral unit or multi-portions and includes a first wall adjacent to the pressure side and a second wall adjacent to the suction side, a tip portion extending in the spanwise direction and extending beyond the first wall and the second wall and a root portion extending longitudinally, an attachment portion having a central opening for receiving the root portion and a platform portion. The root portion fits into the central opening and is secured therein by a pin extending transversely through the attachment and the root portion. The shell fits over the spar and is supported thereto by a plurality of complementary hooks extending from the spar and shell. The ends of the shell fit into grooves formed on the tip portion and the platform. The shell is made from a high temperature resistant material, such as Molybdenum or Niobium, and is formed from a wire EDM process.
    Type: Application
    Filed: September 7, 2010
    Publication date: January 27, 2011
    Applicant: FLORIDA TURBINE TECHNOLOGIES, INC.
    Inventors: Jack W. Wilson, JR., Wesley D. Brown
  • Patent number: 7874804
    Abstract: A turbine blade with a detached platform in which the platform has a central opening in which the blade is inserted and held in place. The blade includes a root portion with a fir tree configuration to fit within a slot of a rotor disc. The platform includes two legs that also have a fir tree configuration to fit within the slot of the rotor disc. The blade is inserted into the central opening and the fir tree configurations of the blade root and the platform legs form substantially an aligned set of fir trees that fit within the rotor disc slot to retain both the blade and the platform within the slot. The blade is therefore separated from the platform such that thermal stresses are uncoupled. Also, the blade can be made from a different material than is the platform. The centrifugal load applied to the platform is not transferred onto the blade.
    Type: Grant
    Filed: May 10, 2007
    Date of Patent: January 25, 2011
    Assignee: Florida Turbine Technologies, Inc.
    Inventor: Wesley D. Brown
  • Publication number: 20100290917
    Abstract: A turbine rotor blade with a spar and shell construction, where the shell has an airfoil shape and is formed of two shell segments with an upper shell half and a lower shell half. The upper shell half is radially supported by a tip of the spar while the lower shell half is radially loaded by an attachment so that its load is not carried by the upper shell half and the tip of the spar in order to reduce overall stress levels.
    Type: Application
    Filed: July 27, 2010
    Publication date: November 18, 2010
    Applicant: FLORIDA TURBINE TECHNOLOGIES, INC.
    Inventors: Jack W. Wilson, JR., Wesley D. Brown