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특허 상세정보

Burning rate control in hydrogen fuel combustor

국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판) F23K-005/00   
미국특허분류(USC) 431/2 ; 431/4 ; 431/12 ; 431/115
출원번호 US-0621242 (1975-10-09)
발명자 / 주소
출원인 / 주소
인용정보 피인용 횟수 : 41  인용 특허 : 0
초록

To a mixture of hydrogen and oxygen or air having the stoichiometric oxygen-to-hydrogen ratio, a diluent gas such as carbon dioxide or argon is added before the mixture is fed to the combustor when the burning rate of the mixture is excessively high. The diluent in the combustion gas can be reused after separation of water.

대표
청구항

A method of burning hydrogen contained in a gaseous mixture of hydrogen and oxygen or air at a controlled and relatively low burning rate in a combustor, comprising the steps of: regulating the quantitative ratio of oxygen to hydrogen in said gaseous mixture to the stoichiometric ratio; adding a gaseous diluent to said gaseous mixture outside said combustor, said diluent having a heat conductivity not higher than the heat conductivity of nitrogen gas; and feeding the diluted mixture to said combustor.

이 특허를 인용한 특허 피인용횟수: 41

  1. Viteri Fermin. Clean air engines for transportation and other power applications. USP2001066247316.
  2. Viteri, Fermin. Clean air engines for transportation and other power applications. USP2003026523349.
  3. Viteri, Fermin; Anderson, Roger E.. Combined fuel cell and fuel combustion power generation systems. USP2005036868677.
  4. D'Agostini, Mark Daniel; Hendershot, Reed Jacob; Slavejkov, Aleksandar Georgi; He, Xiaoyi. Combustion system with precombustor for recycled flue gas. USP2016019243799.
  5. Olszewski Walter J. (Tonawanda NY) Ziemer John H. (Grand Island NY). Cryogenic system for producing low-purity oxygen. USP1980094224045.
  6. Cheng, Dah Yu. Dynamic control system to implement homogenous mixing of diluent and fuel to enable gas turbine combustion systems to reach and maintain low emission levels. USP2011118061117.
  7. Swenson, Roger J.. Economic means of aspirating a fuel combustion engine with non-atmospheric gases to produce a subsequently useful byproduct. USP2013088516794.
  8. Goldman, Arnold J.; Kagan, Michael; Kokotov, Yuri. High density bioreactor system, devices, and methods. USP2011088003379.
  9. Goldman, Arnold J.. Hybrid generation with alternative fuel sources. USP2010127845172.
  10. Goldman,Arnold J.. Hybrid generation with alternative fuel sources. USP2008027331178.
  11. Fermin Viteri ; James P. Taylor ; Harry Brandt ; Roger E. Anderson. Hydrocarbon combustion power generation system with CO2 sequestration. USP2002056389814.
  12. Viteri, Fermin; Taylor, James P.; Brandt, Harry; Anderson, Roger E.. Hydrocarbon combustion power generation system with CO2 sequestration. USP2003076598398.
  13. Viteri,Fermin; Taylor,James P.; Brandt,Harry; Anderson,Roger E.. Hydrocarbon combustion power generation system with CO2 sequestration. USP2006057043920.
  14. Paik, Hyun Jong. Hydrogen combustion system with closed-cycle recycling of exhaust gas and method thereof. USP2015089115617.
  15. Mitani, Shinichi. Hydrogen engine using a recirculating working medium. USP2012128322128.
  16. Collier ; Jr. Robert Kirk (Merritt Island FL) Hoekstra Robert Louis (Oviedo FL) Mulligan David Neal (Oakhill FL) Hahn Douglas Edward (Melbourne FL). Hydrogen enriched natural gas as a motor fuel with variable air fuel ratio and fuel mixture ratio control. USP1997095666923.
  17. Meyer Stanley A. (3792 Broadway Blvd. Grove City OH 43123). Hydrogen gas injector system for internal combustion engine. USP1983064389981.
  18. Fletcher ; James C. Administrator of the National Aeronautics and Space ; Administration ; with respect to an invention of ; Laumann ; Eugene A. ; Reynolds ; Rollin K.. Hydrogen-fueled engine. USP1978094112875.
  19. Kuroki, Rentaro; Sawada, Daisaku. Internal combustion engine and method for controlling the internal combustion engine. USP2013018360035.
  20. Mulligan, D. Neal. Internal combustion engine with SCR and integrated ammonia production. USP2004056739125.
  21. Goldman,Arnold J.. Low emission energy source. USP2007037191736.
  22. Viteri, Fermin. Low pollution power generation system with ion transfer membrane air separation. USP2005096945029.
  23. Dah Yu Cheng. Method and apparatus to homogenize fuel and diluent for reducing emissions in combustion systems. USP2002076418724.
  24. Carroni, Richard; Biagioli, Fernando. Method and gas turbine combustion system for safely mixing H2-rich fuels with air. USP20190210208958.
  25. Ovshinsky, Stanford R.; Stempel, Robert C.; Geiss, Richard O.; Webster, Bruce A.; Kinoshta, Ian. Method and system for hydrogen powered internal combustion engine. USP2004116820706.
  26. Durst, Franz; Künzel, Jürgen. Method for a burner and a corresponding device. USP2010027666367.
  27. Bats, Johan; Huijsmans, Floris J. J.. Method for determining the heating value and the relative density of a hydrocarbon fuel and apparatus for the same. USP2014128903662.
  28. Joos Franz,DEX ; Stalder Marcel,CHX. Method of operating a burner. USP2000106128894.
  29. Chapman, Michael J.. Method of preheating catalytic heater. USP2005086932593.
  30. Teshima Kiyomi (Tamano JPX) Kajitani Yukimasa (Tamano JPX). Protective device for turbine driven by exhaust gas from blast furnace. USP1980014183506.
  31. Viteri,Fermin. Reheat heat exchanger power generation systems. USP2006047021063.
  32. Viteri, Fermin; Anderson, Roger E.. Semi-closed Brayton cycle gas turbine power systems. USP2005066910335.
  33. Viteri, Fermin; Anderson, Roger E.. Semi-closed brayton cycle gas turbine power systems. USP2003096622470.
  34. Viteri, Fermin; Anderson, Roger E.. Semi-closed brayton cycle gas turbine power systems. USP2003106637183.
  35. Latty James A. (San Juan Capistrano CA) Eisenbarth Spencer (Costa Mesa CA). Steam generating system. USP1990064930454.
  36. Powell,Don Carl. System and method for selectively increasing surface temperature of an object. USP2007077247584.
  37. Thompson, Brett Matthew. System for fuel and diluent control. USP2014018627668.
  38. Hagen, David L.; Ginter, Gary; Traverso, Alberto; Goheen, Bill; McGuire, Allan; Rankin, Janet; Massardo, Aristide; Klaus, Ronald L.. Thermodynamic cycles using thermal diluent. USP2012038136740.
  39. Wasif, Samer P.. Utilizing a diluent to lower combustion instabilities in a gas turbine engine. USP2015049017064.
  40. Viteri, Fermin; Anderson, Roger E.. Working fluid compositions for use in semi-closed brayton cycle gas turbine power systems. USP2004116824710.
  41. Pronske, Keith L.; Anderson, Roger E.; Viteri, Fermin. Zero emissions closed rankine cycle power system. USP2011027882692.