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Method and system for controlling an air-to-fuel ratio in a non-stoichiometric power governed gaseous-fueled stationary internal combustion engine

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • F02B-043/00
  • F02D-041/00
출원번호 US-0301392 (1999-04-28)
발명자 / 주소
  • Weisbrod Joseph C.
  • Weisbrod Eric J.
  • Pedersen Curtis T.
출원인 / 주소
  • ANR Pipeline Company
대리인 / 주소
    Dykema Gossett PLLC
인용정보 피인용 횟수 : 40  인용 특허 : 29

초록

A gaseous-fueled reciprocating internal combustion engine includes a carburetor having a throttle valve that is controlled by a speed governor. A proportional fuel control valve is disposed intermediate a fuel supply and the carburetor, and is controlled by an air fuel computing device. The computin

대표청구항

[ We claim:] [1.] A speed-governed power generation system comprising:a gaseous fueled stationary internal combustion engine having an air and fuel delivery apparatus in communication with a plurality of combustion chambers of said engine;a governor configured to adjust said air and fuel delivery ap

이 특허에 인용된 특허 (29)

  1. Leshner Ervin (Cherry Hill NJ) Leshner Michael D. (Glendora NJ), Adaptive charge forming system for controlling the air/fuel mixture supplied to an internal combustion engine.
  2. Williams David (Kingsbury GB2) Ironside John M. (Birmingham GB2), Adaptive control system for an engine.
  3. Suzuki, Atsushi; Ninomiya, Masakazu; Maeda, Katsuya; Kawashima, Yutaka, Air-fuel ratio control in an internal combustion engine.
  4. Tamekio Masaaki (Hatsukaichi JPX), Air-fuel ratio control system for automotive engine.
  5. Subramaniam Anand (Springfield OH), Air-fuel ratio controller.
  6. Otsuka Kazuo (Higashikurume JPX) Narasaka Shin (Yono JPX) Hasegawa Shumpei (Niiza JPX), Air-fuel ratio feedback control system for internal combustion engines, having function of correcting position of air/fu.
  7. Leshner Ervin (Cherry Hill NJ) Leshner Michael D. (Cherry Hill NJ), Charge forming system for maintaining operation of an internal combustion engine at its lean limit.
  8. Shimizu Motohiro (Wako JPX), Control system for internal combustion engines.
  9. Oshiage Katsunori (Yokohama JPX), Control system for motor vehicle with continuously variable transmission and engine.
  10. Young Colin G. (Mississauga CAX), Fuel control system for gaseous fueled engines.
  11. Young Colin G. (Mississauga CAX), Fuel control system for gaseous fueled engines.
  12. Noguchi Masaaki (Nagoya JA) Sumiyoshi Masaharu (Toyoto JA) Hobo Nobuhito (Inuyama JA), Fuel economizing system.
  13. Saikalis George (West Bloomfield MI) Sugiura Masatoshi (Novi MI), Fuel management system for a gaseous fuel internal combustion engine.
  14. Todd ; William L., Fuel regulator for a two-cycle gas engine.
  15. Vincent Michael T. ; Borland Mark S. ; Morehouse Kim A. ; Tamm James R., Fuel scheduling as a function of misfire rate.
  16. Staerzl Richard E. (Fond du Lac WI), Fuel-optimizing electronic control circuit for a fuel-injected marine engine or the like.
  17. Mamiya Kiyotaka (Hiroshima JPX) Shiraishi Tohru (Hiroshima JPX) Yokomizo Katuhiro (Hiroshima JPX) Teramoto Takafumi (Hiroshima JPX), Gaseous fuel engine and air-fuel ratio control system for the engine.
  18. Asano Seiji (Katsuta JPX) Atago Takeshi (Katsuta JPX) Kurihara Nobuo (Hitachioota JPX), Lean burn control method and device for internal combustion engine and fuel injection quantity control method and device.
  19. Leshner Michael D. (Columbia MD), Lean burn mixture control system.
  20. Snyder Warren E. (Elm Grove WI), Method and apparatus for carburetion.
  21. Ninomiya Masakazu (Kariya JPX) Suzuki Atsushi (Kariya JPX) Kawashima Yutaka (Okazaki JPX), Method and apparatus for controlling air-fuel ratio in an internal combustion engine.
  22. Donaldson George E. ; Lane William H., Method and apparatus for operation of a speed-governed lean burn engine to improve load response.
  23. Wolters Leendert (Rhoon NLX) Lugtenburg Johan (Oostvoorne NLX), Method and device for regulating the NOx emission of an internal combustion engine.
  24. Meyer Garth M. (Dearborn MI) Asik Joseph R. (Bloomfield Hills MI), Method and system for determining and controlling a/f ratio in lean engines.
  25. Willis, Frederick G.; Radtke, Richard R.; Ellison, Joseph; Fozo, Steven R.; Kern, Glenn A., Method for generating a table of engine calibration control values.
  26. Willis Frederick G. (Ann Arbor MI) Radtke Richard R. (Plymouth MI) Ellison Joseph (Detroit MI) Fozo Steven R. (Westland MI), Method for generating energy output signal.
  27. Buchhop Thomas Robert (Canton MI) D\Alleva Randall (St. Clair Shores MI) Darnell Ronald Keith (Ortonville MI) Little Jack Ryan (Metamora MI) Pedersen Curtis Thomas (Fenton MI), Parametric emissions monitoring system having operating condition deviation feedback.
  28. Riordan Hugh E. (West Bend WI), Programmable fuel economy optimizer for an internal combustion engine.
  29. Kittelson David B. (Minneapolis MN) Pipho Michael J. (Minneapolis MN) Franklin Matthew L. (Austin MN), System for optimizing the performance of internal combustion engines.

이 특허를 인용한 특허 (40)

  1. May,Andrew, Adaptive engine control.
  2. Leslie Allan Keast CA; Howard Leigh Malm CA, Air-fuel control system.
  3. Malm, Howard Leigh; Mowat, Wade Larry, Carbureted natural gas turbo charged engine.
  4. Farmer, David George; Surnilla, Gopichandra, Closed-loop method and system for purging a vehicle emission control.
  5. Zurlo, James Richard; Konkle, Kevin Paul; May, Andrew, Controlling exhaust gas recirculation.
  6. Kreikemeier, Michael L; Beauregard, Chad D, Fuel injection system method and apparatus using oxygen sensor signal conditioning to modify air/fuel ratio.
  7. Ritter, Gregory W.; Jones, Terry A., Fumigation system for a diesel engine.
  8. Ritter,Gregory W.; Jones,Terry A., Fumigation system for a diesel engine.
  9. Nakazono, Toru; Otsubo, Hiroyuki; Kihara, Hirotoshi, Gas engine, gas heat pump system and cogeneration system using the gas engine, and method for controlling the gas engine.
  10. Bhargava, Sumit; Dunnuck, David, Humidity compensation system for an internal combustion engine.
  11. Zook,Scott A., Load-based quadratic compensator gain adjustment.
  12. Robichaux, Jerry D.; Bidner, David Karl; Surnilla, Gopichandra, Method and apparatus for controlling lean-burn engine based upon predicted performance impact.
  13. Allston,Brian K.; Kirwan,John E.; Haller,James M., Method and apparatus for fueling an internal combustion engine.
  14. Jerry D. Robichaux ; Gopichandra Surnilla ; Jeffrey Scott Hepburn ; Michael John Cullen, Method and apparatus for measuring lean-burn engine emissions.
  15. Bucktron,Edward; Egerstaffer,Derek J.; Duke,Jason D., Method and arrangement for achieving an adjusted engine setting utilizing engine output and/or fuel consumption.
  16. Meyer, Garth Michael; Asik, Joseph Richard, Method and system for controlling a regeneration cycle of an emission control device.
  17. Meyer, Garth Michael; Asik, Joseph Richard, Method and system for controlling an emission control device based on depletion of device storage capacity.
  18. Asik, Joseph Richard; Meyer, Garth Michael, Method and system for controlling storage and release of exhaust gas constituents in an emission control device.
  19. Gopichandra Surnilla ; David George Farmer, Method and system for operating dual-exhaust engine.
  20. Joseph Richard Asik ; Garth Michael Meyer, Method and system for optimizing open-loop fill and purge times for an emission control device.
  21. Meyer, Garth Michael; Asik, Joseph Richard, Method and system for optimizing purge of exhaust gas constituent stored in an emission control device.
  22. Farmer, David George; Surnilla, Gopichandra, Method and system for preconditioning an emission control device for operation about stoichiometry.
  23. Jeffrey Scott Hepburn ; JoAnne Temple ; Mark Allen Dearth, Method and system for reducing lean-burn vehicle emissions using a downstream reductant sensor.
  24. Hepburn, Jeffrey Scott; Temple, JoAnne; Dearth, Mark Allen, Method and system for reducing vehicle emissions using a sensor downstream of an emission control device.
  25. Gopichandra Surnilla ; Jeffrey Scott Hepburn ; Jerry D. Robichaux ; Michael John Cullen, Method and system for reducing vehicle tailpipe emissions when operating lean.
  26. Surnilla, Gopichandra; Farmer, David George, Method and system for transitioning between lean and stoichiometric operation of a lean-burn engine.
  27. Baldauf, Johannes; Kläser-Jenewein, Ludwig; Smuda, Peer, Method for controlling a stationary gas motor.
  28. Healy, Timothy Andrew; Simons, Derrick Walter, Method for controlling fuel splits to gas turbine combustor.
  29. Healy,Timothy Andrew; Simons,Derrick Walter, Method for controlling fuel splits to gas turbine combustor.
  30. Gopichandra Surnilla ; David Karl Bidner, Method for improved performance of a vehicle having an internal combustion engine.
  31. Johansson, Björn; Pettersson, Magnus, Method for monitoring operational parameters in an internal combustion engine.
  32. Meyer, Garth Michael; Asik, Joseph Richard, Method for quantifying oxygen stored in a vehicle emission control device.
  33. Baldauf, Johannes; Smuda, Peer; Klaeser-Jenewein, Ludwig, Method for regulating a stationary gas engine.
  34. Ganser, Thomas; Kaiser, Thomas; Koch, Charles R.; Kuhn, Michael; Maute, Kurt; Spanninger, Martin, Method of operating an internal combustion engine.
  35. Ganser, Thomas; Kaiser, Thomas; Koch, Charles R.; Maute, Kurt; Schmitz, Christoph; Spanninger, Martin, Method of operating an internal combustion engine.
  36. David George Farmer ; Gopichandra Surnilla ; Michael John Cullen, Open-loop method and system for controlling the storage and release cycles of an emission control device.
  37. Ritter, Gregory W.; Jones, Terry A., Process for use with dual-fuel systems.
  38. Ritter,Gregory W., Process for use with dual-fuel systems.
  39. Cutlip, H. David; Disbennett, Gary W., System and method for control of a gas.
  40. Rodgers,David V., Torque speed control authority for an engine having an all-speed governor.
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