Patents by Inventor Abdullah B. Alp

Abdullah B. Alp 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: 10522855
    Abstract: A method for creating an oxygen depleted gas in a fuel cell system, including operating a fuel cell stack at a desired cathode stoichiometry at fuel cell system shutdown to displace a cathode exhaust gas with an oxygen depleted gas. The method further includes closing a cathode flow valve and turning off a compressor to stop the flow of cathode air.
    Type: Grant
    Filed: October 19, 2015
    Date of Patent: December 31, 2019
    Assignee: GM GLOBAL TECHNOLOGY OPERATIONS LLC
    Inventors: Thomas W. Tighe, Steven G. Goebel, Gary M. Robb, Abdullah B. Alp, Balasubramanian Lakshmanan, Joseph N. Lovria
  • Patent number: 9876243
    Abstract: A method for controlling a fuel cell system, capable of quickly detecting the pressure rise caused by a faulted open anode injector, reducing pressure in the fuel cell stack when the fault occurs, and taking remedial action to allow continued operation of the fuel cell stack, and militate against a walk-home incident.
    Type: Grant
    Filed: January 5, 2016
    Date of Patent: January 23, 2018
    Assignee: GM Global Technology Operations LLC
    Inventors: Kiran Mallavarapu, Abdullah B. Alp
  • Patent number: 9728799
    Abstract: A method for starting a cold or frozen fuel cell stack as efficiently and quickly as possible in a vehicle application is based upon a state of charge of a first power source such as a high voltage battery. Power flow between the first power source and fuel cell system is coordinated in conjunction with a specific load schedule and parallel control algorithms to minimize the start time required and optimize system warm-up.
    Type: Grant
    Filed: August 4, 2014
    Date of Patent: August 8, 2017
    Assignee: GM Global Technology Operations LLC
    Inventors: Steven D. Burch, Bruce J. Clingerman, Abdullah B. Alp, David A. Arthur, Dirk Wexel, Martin Fasse
  • Patent number: 9496572
    Abstract: A fuel cell system is provided that includes a fuel cell stack and an air compressor in communication with a cathode inlet, a hydrogen source in communication with an anode inlet, and a start-up battery adapted to power the air compressor. The start-up battery is at least one of a low-voltage battery and a high-voltage battery. A pressure sensor is in communication with the air compressor and adapted to measure a compressor outlet pressure. A power conversion module is in electrical communication with the start-up battery and the air compressor. A controller is in communication with the power conversion module and adapted to set an air compressor speed based on an available electrical energy. A closed-loop method of operating the fuel cell system at start-up is also provided, wherein an anode purge is scheduled based on an air flow rate calculated from the compressor outlet pressure and the actual speed.
    Type: Grant
    Filed: September 21, 2007
    Date of Patent: November 15, 2016
    Assignee: GM Global Technology Operations LLC
    Inventors: Abdullah B. Alp, Akbar Chowdhury, Matthew C. Kirklin, Matthew K. Hortop, John P. Salvador
  • Patent number: 9379396
    Abstract: A method for shutting down a fuel cell system including operating a fuel cell stack. the method includes providing an increased cathode air flow so as to dry fuel cell membranes in the stack until a first desired level of high frequency resistance is achieved, rehydrating the cell membranes of the stack until a second desired level of high frequency resistance is achieved, and operating the stack with a decreased cathode input relative humidity until a third desired level of high frequency resistance is achieved.
    Type: Grant
    Filed: April 21, 2010
    Date of Patent: June 28, 2016
    Assignee: GM Global Technology Operations LLC
    Inventors: Bruce J. Clingerman, Aaron Rogahn, Jun Cai, Joseph C. Gerzseny, Manish Sinha, Steven D. Burch, Abdullah B. Alp
  • Publication number: 20160181636
    Abstract: A fuel cell system is provided that includes a fuel cell stack and an air compressor in communication with a cathode inlet, a hydrogen source in communication with an anode inlet, and a start-up battery adapted to power the air compressor. The start-up battery is at least one of a low-voltage battery and a high-voltage battery. A power conversion module is in electrical communication with the start-up battery and the air compressor. The power conversion module is adapted to boost a voltage of the start-up battery as desired and power the air compressor at start-up. A controller is in communication with the power conversion module and is adapted to set an air compressor speed based on an available electrical energy. An open-loop method of operating the fuel cell system at start-up is also provided, wherein an anode purge is scheduled based on the available electrical energy from the battery.
    Type: Application
    Filed: March 11, 2015
    Publication date: June 23, 2016
    Inventors: Abdullah B. Alp, Akbar Chowdhury, Kristian M. Whitehouse, Matthew K. Hortop, Matthew C. Kirklin
  • Publication number: 20160118678
    Abstract: A method for controlling a fuel cell system, capable of quickly detecting the pressure rise caused by a faulted open anode injector, reducing pressure in the fuel cell stack when the fault occurs, and taking remedial action to allow continued operation of the fuel cell stack, and militate against a walk-home incident.
    Type: Application
    Filed: January 5, 2016
    Publication date: April 28, 2016
    Inventors: Kiran Mallavarapu, Abdullah B. Alp
  • Patent number: 9263751
    Abstract: A method for controlling a fuel cell system, capable of quickly detecting the pressure rise caused by a faulted open anode injector, reducing pressure in the fuel cell stack when the fault occurs, and taking remedial action to allow continued operation of the fuel cell stack, and militate against a walk-home incident.
    Type: Grant
    Filed: February 26, 2007
    Date of Patent: February 16, 2016
    Assignee: GM Global Technology Operations LLC
    Inventors: Kiran Mallavarapu, Abdullah B. Alp
  • Publication number: 20160043417
    Abstract: A method for creating an oxygen depleted gas in a fuel cell system, including operating a fuel cell stack at a desired cathode stoichiometry at fuel cell system shutdown to displace a cathode exhaust gas with an oxygen depleted gas. The method further includes closing a cathode flow valve and turning off a compressor to stop the flow of cathode air.
    Type: Application
    Filed: October 19, 2015
    Publication date: February 11, 2016
    Inventors: THOMAS W. TIGHE, STEVEN G. GOEBEL, GARY M. ROBB, ABDULLAH B. ALP, BALASUBRAMANIAN LAKSHMANAN, JOSEPH N. LOVRIA
  • Patent number: 9005785
    Abstract: A fuel cell system is provided that includes a fuel cell stack and an air compressor in communication with a cathode inlet, a hydrogen source in communication with an anode inlet, and a start-up battery adapted to power the air compressor. The start-up battery is at least one of a low-voltage battery and a high-voltage battery. A power conversion module is in electrical communication with the start-up battery and the air compressor. The power conversion module is adapted to boost a voltage of the start-up battery as desired and power the air compressor at start-up. A controller is in communication with the power conversion module and is adapted to set an air compressor speed based on an available electrical energy. An open-loop method of operating the fuel cell system at start-up is also provided, wherein an anode purge is scheduled based on the available electrical energy from the battery.
    Type: Grant
    Filed: September 24, 2007
    Date of Patent: April 14, 2015
    Assignee: GM Global Technology Operations LLC
    Inventors: Abdullah B. Alp, Akbar Chowdhury, Kristian M. Whitehouse, Matthew K. Hortop, Matthew C. Kirklin
  • Publication number: 20140342258
    Abstract: A method for starting a cold or frozen fuel cell stack as efficiently and quickly as possible in a vehicle application is based upon a state of charge of a first power source such as a high voltage battery. Power flow between the first power source and fuel cell system is coordinated in conjunction with a specific load schedule and parallel control algorithms to minimize the start time required and optimize system warm-up.
    Type: Application
    Filed: August 4, 2014
    Publication date: November 20, 2014
    Inventors: Steven D. Burch, Bruce J. Clingerman, Abdullah B. Alp, David A. Arthur, Dirk Wexel, Martin Fasse
  • Patent number: 8835065
    Abstract: A method for starting a cold or frozen fuel cell stack as efficiently and quickly as possible in a vehicle application is based upon a state of charge of a first power source such as a high voltage battery. Power flow between the first power source and fuel cell system is coordinated in conjunction with a specific load schedule and parallel control algorithms to minimize the start time required and optimize system warm-up.
    Type: Grant
    Filed: September 29, 2006
    Date of Patent: September 16, 2014
    Assignee: GM Global Technology Operations LLC
    Inventors: Steven D. Burch, Bruce J. Clingerman, Abdullah B. Alp, David A. Arthur, Dirk Wexel, Martin Fasse
  • Patent number: 8748053
    Abstract: A system for bleeding the anode side of first and second split fuel cell stacks in a fuel cell system that employs anode flow-shifting, where each split stack includes a bleed valve. The system determines that one or both of the bleed valves is stuck in an open position if there is flow through an orifice and a bleed has not been commanded. A shut-off valve is then used to provide the bleed if the cathode exhaust gas is able to dilute the hydrogen in the bled anode exhaust gas. An outlet valve between the first and second split stacks is used to bleed the anode exhaust gas if the cathode exhaust gas is not significant enough to dilute the hydrogen in the anode exhaust gas. If the first or second bleed valve is stuck in the closed position, then the outlet valve is used to provide the bleed.
    Type: Grant
    Filed: October 30, 2007
    Date of Patent: June 10, 2014
    Assignee: GM Global Technology Operations LLC
    Inventors: Abdullah B. Alp, Prasad Gade, Jon R. Sienkowski
  • Patent number: 8603690
    Abstract: A system and method for quickly heating a fuel cell stack at fuel cell system start-up. The fuel cell system includes a three-way valve positioned in the anode exhaust that selectively directs the anode exhaust gases to the cathode input of the fuel cell stack so that hydrogen in the anode exhaust gas can be used to heat the fuel cell stack. During normal operation when the fuel cell stack is at the desired temperature, the three-way valve in the anode exhaust can be used to bleed nitrogen to the cathode exhaust.
    Type: Grant
    Filed: December 12, 2008
    Date of Patent: December 10, 2013
    Assignee: GM Global Technology Operations LLC
    Inventors: Steven D. Burch, Bruce J. Clingerman, Abdullah B. Alp, Jon R. Sienkowski, James K Leary, Victor W. Logan, Daniel I Harris
  • Patent number: 8574776
    Abstract: A fuel cell system that employs a method for determining the potential that a freeze condition will exist after the system is shut-down based on predetermined input, such as ambient temperature, geographical location, user usage profile, date, weather reports, etc. If the system determines that a freeze condition is probable, then the system initiates a purge shut-down of the fuel cell system where water is purged out of the reactant gas flow channels. If the system determines that a freeze condition is unlikely, then it will initiate a normal shut-down procedure without purging the flow channels. The system will then periodically determine if the conditions have changed, and will initiate the purge if a freeze condition subsequently becomes probable.
    Type: Grant
    Filed: June 27, 2006
    Date of Patent: November 5, 2013
    Assignee: GM Global Technology Operations LLC
    Inventors: Bruce J. Clingerman, Jason R. Kolodziej, Derek S. Kilmer, Pinkhas A. Rapaport, David S. Mathews, Shyam Kocha, Abdullah B. Alp, Matthew K. Hortop, William H. Pettit
  • Patent number: 8568935
    Abstract: A method for managing fuel cell power increases in a fuel cell system using an air flow feedback delay. The method comprises the steps of determining a required air mass flow rate at a predetermined point in the fuel cell system, determining an actual air mass flow at a predetermined point in the fuel cell system, calculating an air flow feedback delay as a function of the required air mass flow rate and the actual air mass flow, and delaying an external circuit from increasing current draw from the fuel cell stack by the magnitude of the air flow feedback delay.
    Type: Grant
    Filed: February 3, 2011
    Date of Patent: October 29, 2013
    Assignee: GM Global Technology Operations LLC
    Inventors: David A. Arthur, Abdullah B. Alp
  • Patent number: 8372555
    Abstract: A fuel cell system that employs end cell heaters in the end cells of a fuel cell stack in the fuel cell system that consistently maintain the temperature of the end cells above the operating temperature of the stack so as to reduce water in the end cells. In one embodiment, the temperature of the end cells is maintained within the range of 80° C.-85° C. across the entire output power range of the fuel cell stack. In accordance with another embodiment of the invention, the end cells are electrically coupled in series, and the control signal for controlling the end cells heaters is selected to heat the warmest end cell to the desired temperature.
    Type: Grant
    Filed: June 27, 2006
    Date of Patent: February 12, 2013
    Assignee: GM Global Technology Operations LLC
    Inventors: David A. Arthur, Abdullah B. Alp, Joseph Mussro
  • Patent number: 8349507
    Abstract: A method for providing an accurate time that a fuel cell system has been shut-down so that the gas constituents in the anode and cathode side of the fuel cell stack can be known for an efficient next system start-up sequence. The method uses two timers, a stand-by timer that provides a time count for how long the fuel cell system has been off, but the vehicle ignition is still on, and a shut-off timer that provides a time count of how long the vehicle ignition has been off. The two time counts are added to give a complete time count of how long the fuel cell stack has been shut-down.
    Type: Grant
    Filed: September 11, 2007
    Date of Patent: January 8, 2013
    Assignee: GM Global Technology Operations LLC
    Inventors: Seth E. Lerner, Abdullah B. Alp, Rebecca Ann Dinan, David A. Arthur
  • Patent number: 8232018
    Abstract: A fuel cell system that employs a technique for nitrogen bleeding. The fuel cell system includes a fuel cell stack having a first sub-stack and a second sub-stack, where the hydrogen gas flow is flow-shifted between the sub-stacks. A first nitrogen bleed valve is provided in an anode gas input line coupled to the first sub-stack and a second nitrogen bleed valve is provided in an anode gas input line coupled to the second sub-stack. When the first sub-stack is receiving the anode gas, and a nitrogen bleed is requested, the first bleed valve is closed and the second bleed valve is opened to provide the nitrogen bleeding. When the second sub-stack is receiving the anode gas, and a nitrogen bleed is requested, the second bleed valve is closed and the first bleed valve is opened to provide the nitrogen bleed.
    Type: Grant
    Filed: September 29, 2005
    Date of Patent: July 31, 2012
    Assignee: GM Global Technology Operations LLC
    Inventors: David A. Arthur, Abdullah B. Alp
  • Patent number: 8231989
    Abstract: A method for improving fuel cell system reliability in the event of end cell heater failure in a fuel cell stack. The method includes detecting that an end cell heater has failed. If an end cell heater failure is detected, then the method performs one or more of setting a cooling fluid pump to a predetermined speed that drives a cooling fluid through cooling fluid flow channels in the fuel cell stack, limiting the output power of the fuel cell stack or the net power of the fuel cell system, limiting the maximum temperature of the cooling fluid flowing out of the stack, turning off stack anti-flooding algorithms that may be used to remove water from reactant gas flow channels in the stack, and turning off cathode stoichiometry adjustments for relative humidity control in response to water accumulating in cathode flow channels in the fuel cell stack.
    Type: Grant
    Filed: October 26, 2007
    Date of Patent: July 31, 2012
    Assignee: GM Global Technology Operations LLC
    Inventors: Derek R Lebzelter, William S Marley, John P. Salvador, Abdullah B. Alp, Loren Devries