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Fuel cell power generating system

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • H01M-008/06
출원번호 US-0938615 (1986-12-05)
우선권정보 JP-0275569 (1985-12-06); JP-0026127 (1986-02-07)
발명자 / 주소
  • Matsumura Mitsuie (Amagasaki JPX)
출원인 / 주소
  • Mitsubishi Denki Kabushiki Kaisha (JPX 03)
인용정보 피인용 횟수 : 45  인용 특허 : 3

초록

A fuel cell power generating system is disclosed in which fuel cells are able to operate with satisfactory and stable cell characteristics for a long period of time even at a high fuel utilization ratio, and which has a high power generating efficiency and a long lifetime. The fuel cell power genera

대표청구항

A fuel cell power generating system comprising: a first fuel cell adapted to be supplied with a fuel gas containing water vapor and an oxidant gas which are subjected to electrochemical and/or chemical reactions for generating electric power; a second fuel cell adapted to be supplied with the exhaus

이 특허에 인용된 특허 (3)

  1. Matsumura Mitsuie (Amagasaki JPX) Okada Tatsunori (Amagasaki JPX) Gonjo Yoshihide (Amagasaki JPX), Fuel-cell power plant.
  2. Reiser ; Carl A., Process for cooling molten carbonate fuel cell stacks and apparatus therefo r.
  3. Sederquist Richard A. (Newington CT), Process for humidifying a gaseous fuel stream.

이 특허를 인용한 특허 (45)

  1. Valensa, Jeroen; Reinke, Michael J.; Voss, Mark G., Annular or ring shaped fuel cell unit.
  2. Clawson,Lawrence G.; Dorson,Matthew H.; Mitchell,William L.; Nowicki,Brian J.; Bentley,Jeffrey M.; Davis,Robert; Rumsey,Jennifer W., Auxiliary reactor for a hydrocarbon reforming system.
  3. Spink, Scott A.; Lott, David R.; Fuglevand, William A., Direct liquid fuel cell.
  4. Richards, Gilbert; Trevisan, David; Lee, Michael L; Mahler, Jessica; Parker, Ross; Clarabut, Alex; Pearson, Chad; Ballantine, Arne; Weingaertner, David; Hixson, Jason; Mitlitsky, Fred, Fuel cell mechanical components.
  5. Richards, Gilbert; Trevisan, David; Lee, Michael; Mahler, Jessica; Parker, Ross; Clarabut, Alex; Pearson, Chad; Ballantine, Arne; Weingaertner, David; Hixson, Jason; Mitlitsky, Fred, Fuel cell mechanical components.
  6. Trevisan, David; Daco, Christian; Baugh, David, Fuel cell mechanical components.
  7. Rapaport, Pinkhas A.; Rock, Jeffrey A.; Bosco, Andrew D.; Salvador, John P.; Gasteiger, Hubert A.; Paine, Lesley A., Fuel cell stack design and method of operation.
  8. Rapaport,Pinkhas A; Rock,Jeffrey A; Bosco,Andrew D; Salvador,John P; Paine,Lesley A; Gasteiger,Hubert A, Fuel cell stack design and method of operation.
  9. Perry, Martin; Ballantine, Arne, Fuel cell stack module shell with integrated heat exchanger.
  10. Hsu Michael S., Fuel cell stacks for ultra-high efficiency power systems.
  11. Perry, Martin; Ballantine, Arne, Fuel cell system components.
  12. Perry, Martin; Venkataraman, Swaminathan, Fuel cell system containing anode tail gas oxidizer and hybrid heat exchanger/reformer.
  13. Perry, Martin; Venkataraman, Swaminathan, Fuel cell system containing anode tail gas oxidizer and hybrid heat exchanger/reformer.
  14. Perry, Martin; Venkataraman, Swaminathan, Fuel cell system containing anode tail gas oxidizer and hybrid heat exchanger/reformer.
  15. Henss, Nikolai; Henss, Ferdinand, Fuel-less steam-driven electric generating system.
  16. Weingaertner, David; Venkataraman, Swaminathan, Hot box design with a multi-stream heat exchanger and single air control.
  17. Weingaertner, David; Venkataraman, Swaminathan, Hot box design with a multi-stream heat exchanger and single air control.
  18. Venkataraman, Swaminathan, Hybrid fuel heat exchanger—pre-reformer in SOFC systems.
  19. Venkataraman, Swaminathan; Weingaertner, David; Kalika, Vlad, Integrated fuel line to support CPOX and SMR reactions in SOFC systems.
  20. Clawson, Lawrence G.; Dorson, Matthew H.; Mitchell, William L.; Nowicki, Brian J.; Thijssen, Johannes; Davis, Robert; Papile, Christopher; Rumsey, Jennifer W.; Longo, Nathan; Cross, III, James C.; Ri, Integrated hydrocarbon reforming system and controls.
  21. Bentley,Jeffrey M.; Clawson,Lawrence G.; Mitchell,William L.; Dorson,Matthew H., Integrated reformer and shift reactor.
  22. Valensa, Jeroen; Reinke, Michael J.; Voss, Mark G., Integrated solid oxide fuel cell and fuel processor.
  23. Valensa, Jeroen; Reinke, Michael J.; Voss, Mark G., Integrated solid oxide fuel cell and fuel processor.
  24. James H. Kralick, Mist evaporation system for fuel cell hydration.
  25. Sridhar, K. R.; Venkataraman, Swaminathan; Lyle, William David; Ballantine, Arne, Modular fuel cell system.
  26. Sridhar, K. R.; Venkataraman, Swaminathan; Lyle, William David; Ballantine, Arne Watson, Modular fuel cell system.
  27. Mizuno Seiji,JPX, Polyelectrolytic fuel cell and the method of controlling the operation thereof.
  28. Hirano Shinichi,JPX ; Fujikawa Futoshi,JPX, Polymer electrolyte fuel cell.
  29. Weingaertner, David; Kalika, Vlad; Perry, Martin, Pre-reformer for selective reformation of higher hydrocarbons.
  30. Weingaertner, David; Kalika, Vlad; Perry, Martin, Pre-reformer for selective reformation of higher hydrocarbons.
  31. Pollica,Darryl; Northrop,William F.; Qi,Chunming (Frank C.); Hagan,Mark R.; Smith,Alexis; Clawson,Lawrence, Preferential oxidation reactor temperature regulation.
  32. Spink, Scott A.; Lott, David R.; Wright, Matthew M.; Yemul, Dinesh S.; Fuglevand, William A.; Bayuuk, Shiblihanna I.; Duan, Runrun; Bai, Lijun, Proton exchange membrane fuel cell.
  33. Spink, Scott A.; Lott, David R.; Wright, Matthew M.; Ryan, Eric J.; Yemul, Dinesh S.; Fisher, John M., Proton exchange membrane fuel cell stack and fuel cell stack module.
  34. Spink, Scott A.; Lott, David R.; Wright, Matthew M.; Ryan, Eric J.; Yemul, Dinesh S.; Fisher, John M., Proton exchange membrane fuel cell stack and fuel cell stack module.
  35. Nicolaas Jacobus Joseph Dekker NL; Richard Griffith Fellows CA, Reactant flow arrangement of a power system of several internal reforming fuel cell stacks.
  36. Perry, Martin; Edmonston, David, SOFC hot box components.
  37. Perry, Martin; Kalika, Vlad; Weingaertner, David; Sundararajan, Ananda; Krishnan, Navaneetha; Basu, Nilanjana; Ramanan, Ram; Bains, Virpaul; Lyle, William David, SOFC hot box components.
  38. Perry, Martin; Krishnan, Navaneetha; Basu, Nilanjana; Ramanan, Ram, SOFC hot box components.
  39. Perry, Martin; Weingaertner, David; Basu, Nilanjana; Petrucha, Michael; Lyle, William David; Krishnan, Navaneetha; Gottmann, Matthias, SOFC hot box components.
  40. Perry, Martin; Weingaertner, David; Basu, Nilanjana; Petrucha, Michael; Lyle, William David; Krishnan, Navaneetha; Gottmann, Matthias, SOFC hot box components.
  41. Venkataraman, Swaminathan; Kalika, Vlad; Weingaertner, David, SOFC hot box components.
  42. Venkataraman, Swaminathan; Kalika, Vlad; Weingaertner, David, SOFC hot box components.
  43. Weingaertner, David; Petrucha, Michael; Perry, Martin; Edmonston, David; Bains, Virpaul; Ta, Andy; Krishnan, Navaneetha, SOFC hot box components.
  44. Ballantine, Arne; Gurunathan, Ranganathan; Pmsvvsv, Prasad; Vishnuvarjula, Anilkumar, Structure and method for fuel cell system where multiple fuel cells and power electronics feed loads in parallel allowing for integrated electrochemical impedance spectroscopy (EIS).
  45. Gottmann, Matthias; Perry, Martin, Voltage lead jumper connected fuel cell columns.
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