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Combustibles analyzer

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • G01N-027/42
출원번호 US-0744898 (1976-11-24)
발명자 / 주소
  • Isenberg Arnold O. (Monroeville PA)
출원인 / 주소
  • Westinghouse Electric Corp. (Pittsburgh PA 02)
인용정보 피인용 횟수 : 42  인용 특허 : 0

초록

An oxygen ion conductive solid electrolyte electrochemical cell is employed to pump oxygen for combustible reaction with fuel constituents of a combustibles gas environment which diffuse through an aperture of a housing. The housing in combination with the solid electrolyte electrochemical cell form

대표청구항

A combustibles sensor apparatus operative in a monitored combustibles gas environment to measure the combustibles constituent content, comprising, an adapter having a means defining gas diffusion limiting aperture, means for establishing a diffusion of a combustibles constituent of interest from a m

이 특허를 인용한 특허 (42)

  1. Osuga Minoru (Katsuta JPX) Oyama Yoshishige (Katsuta JPX), Air-fuel ratio detection system.
  2. Asayama Yoshiaki (Himeji JPX) Kominami Seiya (Takasago JPX), Air-to-fuel ratio sensor.
  3. Yamada Tetsusyo (Aichi JPX) Hirate Shintaro (Aichi JPX), Air/fuel ratio detector.
  4. Yamada Tetsusyo (Aichi JPX) Hirate Shintaro (Aichi JPX), Air/fuel ratio detector.
  5. Kato Nobuhide,JPX, Apparatus for measuring combustible gas component by burning component.
  6. Hickam William M. (Churchill Borough PA) Lin Ching-Yu (Penn Hills PA) Zomp John M. (North Huntingdon PA), Combined O2/combustibles solid electrolyte gas monitoring device.
  7. Grass, Phillippe, Device for ascertaining a measure of a caloric value of a gas.
  8. Kitahara Tsuyoshi (Ina JPX), Device for detecting air-fuel ratio of mixture over wide range from below to above stoichiometric ratio.
  9. Nakajima Toyohei (Saitama JPX) Okada Yasushi (Saitama JPX) Mieno Toshiyuki (Saitama JPX) Ohno Nobuyuki (Saitama JPX), Device for measuring a component of a gaseous mixture.
  10. Farber Boris Y. ; O'Neill Michael G. ; Estvander Michael T. ; Thomson James W., Diagnostic method and apparatus for solid electrolyte gas analyzer.
  11. Lin Ching Y. (Monroeville PA) Hirayama Chikara (Franklin PA), Dual gas measuring solid electrolyte electrochemical cell apparatus.
  12. Mase Syunzo (Aichi JPX) Soejima Shigeo (Nagoya JPX), Electrochemical device.
  13. Mase Syunzo (Aichi JPX) Soejima Shigeo (Nagoya JPX), Electrochemical device.
  14. Mase Syunzo (Aichi JPX) Soejima Shigeo (Nagoya JPX), Electrochemical device.
  15. Mase Syunzo (Ama JPX) Soejima Shigeo (Nagoya JPX), Electrochemical device.
  16. Croset Michel (Paris FRX) Velasco Gonzalo (Paris FRX), Electrochemical sensor for measuring relative concentrations of reactive species in a fluid mixture.
  17. Abthoff Jrg (Pluederhausen DEX) Schuster Hans-Dieter (Schorndorf DEX) Loose Gunter (Remseck DEX) Ebinger Gnther (Heiningen DEX), Exhaust gas pipe for internal-combustion engines having a receiving opening for a heated probe for determining the oxyge.
  18. De Jong, Herman L., Gas analysis apparatus.
  19. Wang, Da Y.; Kennedy, Daniel T., Gas analysis apparatus.
  20. Miyoshi Tadahiko (Hitachi JPX) Yoshikawa Masanori (Hitachi JPX) Taguchi Mitsuo (Iwaki JPX), Gas detection device.
  21. Wang, Da Yu; Kikuchi, Paul C.; Symons, Walter T.; Polikarpus, Kaius K.; Oberdier, Larry M., Gas sensor.
  22. Wang, Da Yu; Kikuchi, Paul C.; Symons, Walter T; Polikarpus, Kaius K.; Oberdier, Larry M., Gas sensor and method of producing the same.
  23. Badwal Sukhvinder P. S. (Mulgrave AUX) Bannister Michael J. (Glen Waverley AUX), Low temperature solid electrolyte oxygen sensor.
  24. Blumenthal, Robert N.; Melville, Andreas T., Metal heat treating systems that control the ratio of hydrogen to water vapor in metal heat treating atmospheres.
  25. Kato Nobuhide,JPX, Method and apparatus for measuring combustible gas component by burning the component.
  26. De Pous Olivier (Chene-Bougeries CHX), Method and device for determining oxygen in gases.
  27. Archer David H. (Ross Township PA) Ahmed Mohammed M. (Wilkins Township ; both of Allegheny County PA), Method for determining the concentration of a plurality of combustible gases in a stream.
  28. Mizutani Yoshihiko (Nagoya JPX) Shibata Kazuyoshi (Nagoya JPX), Method of detecting oxygen partial pressure.
  29. Young Ching T. (Troy MI), Method of measuring oxygen and process for pretreating a solid electrolyte oxygen gas sensing element.
  30. Blumenthal,Robert N.; Melville,Andreas T., Methods for monitoring or controlling the ratio of hydrogen to water vapor in metal heat treating atmospheres.
  31. Oyama Yoshishige (Katsuta JPX) Kirisawa Tadashi (Katsuta JPX) Osuga Minoru (Hitachi JPX), Oxygen concentration control system.
  32. Chujo Yoshiki (Mishima JPX), Oxygen sensor.
  33. Fukuda Hiroshi (Nara JPX) Nagai Takeshi (Nara JPX) Ohji Kenzo (Ikoma JPX), Oxygen sensor and method of making such sensor.
  34. Shuk, Pavel; Jantz, Robert F., Oxygen sensor with electrochemical protection mode.
  35. Dietz Hermann (Gerlingen DEX), Polarographic oxygen concentration sensor and method of determining oxygen content in the exhaust gases of an internal c.
  36. Hetrick Robert E. (Dearborn Heights MI) Fate William A. (Ann Arbor MI), Steady state mode oxygen sensor and method.
  37. White, Eugene Delano; Beadie, Douglas Frank; Krull, Anthony Wayne; Floyd, II, Donald Earl, System and method for a gas turbine engine sensor.
  38. Blumenthal, Robert N; Melville, Andreas T, Systems and methods for controlling the activity of carbon in heat treating atmospheres.
  39. Blumenthal,Robert N.; Melville,Andreas T., Systems and methods for monitoring or controlling the ratio of hydrogen to water vapor in heat metal treating atmospheres.
  40. Blumenthal, Robert N.; Melville, Andreas T., Systems and methods for monitoring or controlling the ratio of hydrogen to water vapor in metal heat treating atmospheres.
  41. Blumenthal, Robert N.; Melville, Andreas T., Systems and methods for monitoring or controlling the ratio of hydrogen to water vapor in metal heat treating atmospheres.
  42. Szonntagh Eugene L. (Flourtown PA), Temperature sensor and detector cell utilizing the same.
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