Patents by Inventor Carmen Andrew Scribner

Carmen Andrew Scribner 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: 20180066523
    Abstract: An airfoil cooling system (54) for a gas turbine engine (10) is disclosed. The airfoil cooling system (54) may be formed from at least a first cooling fluid supply system (56), and a second cooling fluid supply system (58). The first cooling fluid supply system (56) may be configured to supply cooling fluids at a first pressure to one or more airfoils of a first row (68) of airfoils, and the second cooling fluid supply system (58) may be configured to supply cooling fluids at a second pressure to the one or more airfoils of the first row (68) of airfoils. Additionally, the second pressure may be lower than the first pressure. As such, each of the one or more airfoils may be cooled by cooling fluids at two different pressures. In particular embodiments, this may allow the airfoils to be cooled, while lowering the cost to the turbine engine (10) for providing such cooling.
    Type: Application
    Filed: April 6, 2015
    Publication date: March 8, 2018
    Inventors: Jan H. Marsh, John J. Marra, Carmen Andrew Scribner
  • Patent number: 9797267
    Abstract: A turbine airfoil assembly for installation in a gas turbine engine. The airfoil assembly includes an endwall and an airfoil extending radially outwardly from the endwall. The airfoil includes pressure and suction sidewalls defining chordally spaced apart leading and trailing edges of the airfoil. An airfoil mean line is defined located centrally between the pressure and suction sidewalls. An angle between the mean line and a line parallel to the engine axis at the leading and trailing edges defines gas flow entry angles, ?, and exit angles, ?. Airfoil inlet and exit angles are substantially in accordance with inlet angle values, ?, and exit angle values, ?, set forth in one of Tables 1, 2, 3, and 4.
    Type: Grant
    Filed: November 24, 2015
    Date of Patent: October 24, 2017
    Assignee: SIEMENS ENERGY, INC.
    Inventors: Andrew S. Lohaus, Anthony J. Malandra, Carmen Andrew Scribner, Farzad Taremi, Horia Flitan, Ching-Pang Lee, Gm Salam Azad, Tobias Buchal
  • Patent number: 9797259
    Abstract: A turbine airfoil cooling system including a low pressure cooling system and a high pressure cooling system for a turbine airfoil of a gas turbine engine is disclosed. In at least one embodiment, the low pressure cooling system may be an ambient air cooling system, and the high pressure cooling system may be a compressor bleed air cooling system. In at least one embodiment, the compressor bleed air cooling system in communication with a high pressure subsystem that may be a snubber cooling system positioned within a snubber. A delivery system including a movable air supply tube may be used to separate the low and high pressure cooling subsystems. The delivery system may enable high pressure cooling air to be passed to the snubber cooling system separate from low pressure cooling fluid supplied by the low pressure cooling system to other portions of the turbine airfoil cooling system.
    Type: Grant
    Filed: March 7, 2014
    Date of Patent: October 24, 2017
    Assignee: SIEMENS ENERGY, INC.
    Inventors: Jan H. Marsh, Stephen John Messmann, Carmen Andrew Scribner
  • Patent number: 9435212
    Abstract: A turbine airfoil usable in a turbine engine and having at least one snubber with a snubber cooling system positioned therein and in communication with an airfoil cooling system is disclosed. The snubber may extend from the outer housing of the airfoil toward an adjacent turbine airfoil positioned within a row of airfoils. The snubber cooling system may include an inner cooling channel separated from an outer cooling channel by an inner wall. The inner wall may include a plurality of impingement cooling orifices that direct impingement fluid against an outer wall defining the outer cooling channel. In one embodiment, the cooling fluids may be exhausted from the snubber, and in another embodiment, the cooling fluids may be returned to the airfoil cooling system. Flow guides may be positioned in the outer cooling channel, which may reduce cross-flow by the impingement orifices, thereby increasing effectiveness.
    Type: Grant
    Filed: November 8, 2013
    Date of Patent: September 6, 2016
    Assignee: Siemens Energy, Inc.
    Inventors: Carmen Andrew Scribner, Stephen John Messmann, Jan H. Marsh
  • Publication number: 20160177723
    Abstract: A turbine airfoil assembly for installation in a gas turbine engine. The airfoil assembly includes an endwall and an airfoil extending radially outwardly from the endwall. The airfoil includes pressure and suction sidewalls defining chordally spaced apart leading and trailing edges of the airfoil. An airfoil mean line is defined located centrally between the pressure and suction sidewalls. An angle between the mean line and a line parallel to the engine axis at the leading and trailing edges defines gas flow entry angles, ?, and exit angles, ?. Airfoil inlet and exit angles are substantially in accordance with inlet angle values, ?, and exit angle values, ?, set forth in one of Tables 1, 2, 3, and 4.
    Type: Application
    Filed: November 24, 2015
    Publication date: June 23, 2016
    Inventors: Andrew S. Lohaus, Anthony J. Malandra, Carmen Andrew Scribner, Farzad Taremi, Horia Flitan, Ching-Pang Lee, Gm Salam Azad, Tobias Buchal
  • Publication number: 20150252688
    Abstract: A turbine airfoil cooling system including a low pressure cooling system and a high pressure cooling system for a turbine airfoil of a gas turbine engine is disclosed. In at least one embodiment, the low pressure cooling system may be an ambient air cooling system, and the high pressure cooling system may be a compressor bleed air cooling system. In at least one embodiment, the compressor bleed air cooling system in communication with a high pressure subsystem that may be a snubber cooling system positioned within a snubber. A delivery system including a movable air supply tube may be used to separate the low and high pressure cooling subsystems. The delivery system may enable high pressure cooling air to be passed to the snubber cooling system separate from low pressure cooling fluid supplied by the low pressure cooling system to other portions of the turbine airfoil cooling system.
    Type: Application
    Filed: March 7, 2014
    Publication date: September 10, 2015
    Applicant: Siemens Energy, Inc.
    Inventors: Jan H. Marsh, Stephen John Messmann, Carmen Andrew Scribner
  • Publication number: 20150132147
    Abstract: A turbine airfoil usable in a turbine engine and having at least one snubber with a snubber cooling system positioned therein and in communication with an airfoil cooling system is disclosed. The snubber may extend from the outer housing of the airfoil toward an adjacent turbine airfoil positioned within a row of airfoils. The snubber cooling system may include an inner cooling channel separated from an outer cooling channel by an inner wall. The inner wall may include a plurality of impingement cooling orifices that direct impingement fluid against an outer wall defining the outer cooling channel. In one embodiment, the cooling fluids may be exhausted from the snubber, and in another embodiment, the cooling fluids may be returned to the airfoil cooling system. Flow guides may be positioned in the outer cooling channel, which may reduce cross-flow by the impingement orifices, thereby increasing effectiveness.
    Type: Application
    Filed: November 8, 2013
    Publication date: May 14, 2015
    Inventors: Carmen Andrew Scribner, Stephen John Messmann, Jan H. Marsh