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Thermally integrated heat exchange system for solid oxide electrolyte systems 원문보기

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • H01M-008/04
출원번호 US-0128522 (1993-09-29)
발명자 / 주소
  • Hartvigsen Joseph J. (Kaysville UT)
출원인 / 주소
  • Ceramatec, Inc. (Salt Lake City UT 02)
인용정보 피인용 횟수 : 60  인용 특허 : 0

초록

A thermally integrated heat exchange system for solid oxide electrolyte systems includes a thermally insulated furnace enclosure structure having an internal chamber therein and a plurality of solid oxide electrolyte plates disposed within the internal chamber. A heat exchanger particularly suited f

대표청구항

A thermally integrated heat exchange system for a solid oxide fuel cell comprising: a furnace enclosure structure having an interior chamber substantially enclosed by thermally insulated walls; a plurality of spaced apart solid oxide fuel cell plates disposed within said interior chamber, said plate

이 특허를 인용한 특허 (60)

  1. Valensa, Jeroen; Reinke, Michael J.; Voss, Mark G., Annular or ring shaped fuel cell unit.
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  2. Wallin Sten A. ; Wijeyesekera Sunil D., Cathode composition for solid oxide fuel cell.
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  3. Chiao Yi-Hung, Consinterable ceramic interconnect for solid oxide fuel cells.
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  4. Chiao Yi-Hung, Cosintering of multilayer stacks of solid oxide fuel cells.
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  5. Robert C. Ruhl ; Christopher E. Milliken ; Michael A. Petrik, Electrochemical apparatus with reactant micro-channels.
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  6. Ruhl, Robert C.; Milliken, Christopher E.; Petrik, Michael A., Electrochemical apparatus with reactant micro-channels.
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  7. Hartvigsen Joseph J. (Kaysville UT) Khandkar Ashok C. (Salt Lake City UT) Elangovan Singaravelu (Sandy UT), Fuel cell column heat exchanger mated module.
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  8. Florence,Stephen; English,Joseph; Sharman,Bryce; Price,Glenn, Fuel cell insulating heat exchanger.
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  9. 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.
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  10. 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.
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  11. Trevisan, David; Daco, Christian; Baugh, David, Fuel cell mechanical components.
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  12. Harrington, Matthew; Barnard, Paul; Leah, Robert; Morgan, Robert, Fuel cell stack flow hood.
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  13. Perry, Martin; Ballantine, Arne, Fuel cell stack module shell with integrated heat exchanger.
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  14. Perry, Martin; Ballantine, Arne, Fuel cell system components.
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  15. Perry, Martin; Venkataraman, Swaminathan, Fuel cell system containing anode tail gas oxidizer and hybrid heat exchanger/reformer.
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  16. Perry, Martin; Venkataraman, Swaminathan, Fuel cell system containing anode tail gas oxidizer and hybrid heat exchanger/reformer.
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  17. Perry, Martin; Venkataraman, Swaminathan, Fuel cell system containing anode tail gas oxidizer and hybrid heat exchanger/reformer.
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  18. Valensa, Jeroen, Fuel cell system with partial external reforming and direct internal reforming.
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  19. Endou Tsuneo,JPX ; Takahashi Tsutomu,JPX ; Yanai Hideyuki,JPX ; Kawamura Toshiki,JPX ; Wakayama Tokiyuki,JPX, Heat exchanger.
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  20. Tsunoda Tadashi,JPX, Heat exchanger.
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  21. Briselden, Thomas D., Heat exchanging insert and method for fabricating same.
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  22. Ward C. Stevens ; Delwyn Cummings ; Philip Chen, High temperature pressure swing adsorption system for separation of oxygen-containing gas mixtures.
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  23. Weingaertner, David; Venkataraman, Swaminathan, Hot box design with a multi-stream heat exchanger and single air control.
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  24. Weingaertner, David; Venkataraman, Swaminathan, Hot box design with a multi-stream heat exchanger and single air control.
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  25. Venkataraman, Swaminathan, Hybrid fuel heat exchanger—pre-reformer in SOFC systems.
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  26. Venkataraman, Swaminathan; Weingaertner, David; Kalika, Vlad, Integrated fuel line to support CPOX and SMR reactions in SOFC systems.
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  27. Issacci, Farrokh; Doshi, Rajiv, Integrated recuperation loop in fuel cell stack.
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  28. Khandkar Ashok C. ; Elangovan Singaravelu, Integrated reformer/CPN SOFC stack module design.
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  29. Valensa, Jeroen; Reinke, Michael J.; Voss, Mark G., Integrated solid oxide fuel cell and fuel processor.
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  30. Valensa, Jeroen; Reinke, Michael J.; Voss, Mark G., Integrated solid oxide fuel cell and fuel processor.
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  31. Hartvigsen, Joseph J.; Elangovan, S.; Czernichowski, Piotr; Hollist, Michele, Method for forming synthesis gas using a plasma-catalyzed fuel reformer.
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  32. Hartvigsen, Joseph J; Elangovan, Singaravelu; Czernichowski, Piotr; Hollist, Michele; Boettcher, Michael, Method of plasma-catalyzed, thermally-integrated reforming.
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  33. Sridhar, K. R.; Venkataraman, Swaminathan; Lyle, William David; Ballantine, Arne, Modular fuel cell system.
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  34. Sridhar, K. R.; Venkataraman, Swaminathan; Lyle, William David; Ballantine, Arne Watson, Modular fuel cell system.
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  35. Ruhl, Robert C., Multipurpose reversible electrochemical system.
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  36. Geisbrecht, Rodney A.; Williams, Mark C., Planar solid oxide fuel cell with staged indirect-internal air and fuel preheating and reformation.
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  37. Czernichowski,Albin; Wesolowska,Krystyna; Czernichowski,Jan, Plasma-catalytic conversion of carbonaceous matters.
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  38. Hartvigsen, Joseph J.; Elangovan, S.; Czernichowski, Piotr; Hollist, Michele, Plasma-catalyzed fuel reformer.
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  39. Hartvigsen, Joseph J.; Elangovan, Singaravelu; Czernichowski, Piotr; Hollist, Michele; Boettcher, Michael, Plasma-catalyzed, thermally-integrated reformer for fuel cell systems.
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  40. Hartvigsen, Joseph J; Elangovan; Czernichowski, Piotr; Hollist, Michele; Boettcher, Michael, Plasma-catalyzed, thermally-integrated reformer for fuel cell systems.
    상세보기
  41. Weingaertner, David; Kalika, Vlad; Perry, Martin, Pre-reformer for selective reformation of higher hydrocarbons.
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  42. Weingaertner, David; Kalika, Vlad; Perry, Martin, Pre-reformer for selective reformation of higher hydrocarbons.
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  43. Perry, Martin; Edmonston, David, SOFC hot box components.
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  44. Perry, Martin; Kalika, Vlad; Weingaertner, David; Sundararajan, Ananda; Krishnan, Navaneetha; Basu, Nilanjana; Ramanan, Ram; Bains, Virpaul; Lyle, William David, SOFC hot box components.
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  45. Perry, Martin; Krishnan, Navaneetha; Basu, Nilanjana; Ramanan, Ram, SOFC hot box components.
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  46. Perry, Martin; Weingaertner, David; Basu, Nilanjana; Petrucha, Michael; Lyle, William David; Krishnan, Navaneetha; Gottmann, Matthias, SOFC hot box components.
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  47. Perry, Martin; Weingaertner, David; Basu, Nilanjana; Petrucha, Michael; Lyle, William David; Krishnan, Navaneetha; Gottmann, Matthias, SOFC hot box components.
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  48. Venkataraman, Swaminathan; Kalika, Vlad; Weingaertner, David, SOFC hot box components.
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  49. Venkataraman, Swaminathan; Kalika, Vlad; Weingaertner, David, SOFC hot box components.
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  50. Weingaertner, David; Petrucha, Michael; Perry, Martin; Edmonston, David; Bains, Virpaul; Ta, Andy; Krishnan, Navaneetha, SOFC hot box components.
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  51. Horiuchi, Michio; Tokutake, Yasue; Suganuma, Shigeaki; Yoshiike, Jun; Katagiri, Fumimasa, Solid oxide fuel cell.
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  52. Huber, James M.; Lindstrom, Joel D.; Daggett, David L.; Friend, Michael G., Solid oxide fuel cell as auxiliary power source installation in transport aircraft.
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  53. Simpkins, Haskell; Thomas, Stephen M.; Labarge, William J., Solid oxide fuel cell having a monolithic heat exchanger and method for managing thermal energy flow of the fuel cell.
    상세보기
  54. Chiao Yi-Hung, Solid oxide fuel cells.
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  55. Haltiner, Jr., Karl J.; Faville, Michael T.; Kelly, Sean M., Solid-oxide fuel cell assembly having a thermal enclosure within a structural enclosure.
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  56. Haltiner, Jr., Karl J.; Mukerjee, Subhasish; Kelly, Sean M.; England, Diane M., Solid-oxide fuel cell system having tempering of fuel cell stacks by exhaust gas.
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  57. Wallin Sten A. ; Wijeyesekera Sunil D., Solide oxide fuel cell stack with composite electrodes and method for making.
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  58. 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).
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  59. Christopher E. Milliken ; Carrie Manon Hawk ; Adam B. Brakas, Technique for rapid cured electrochemical apparatus component fabrication.
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  60. Gottmann, Matthias; Perry, Martin, Voltage lead jumper connected fuel cell columns.
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