이 특허를 인용한 특허 (121)

1. Gottmann, Matthias, Adaptive purge control to prevent electrode redox cycles in fuel cell systems.

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2. Andrew Kindler ; Sekharipuram R. Narayanan ; Thomas I. Valdez, Aerosol feed direct methanol fuel cell.

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3. Valensa, Jeroen; Reinke, Michael J.; Voss, Mark G., Annular or ring shaped fuel cell unit.

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4. Batawi, Emad El; Hickey, Darren; McElroy, James, Anode with remarkable stability under conditions of extreme fuel starvation.

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5. El Batawi, Emad, Anode with remarkable stability under conditions of extreme fuel starvation.

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6. Clawson Lawrence G. ; Mitchell William L. ; Bentley Jeffrey M. ; Thijssen Johannes H. J., Apparatus for converting hydrocarbon fuel into hydrogen gas and carbon dioxide.

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7. Lawrence G. Clawson ; William L. Mitchell ; Jeffrey M. Bentley ; Johannes H. J. Thijssen, Apparatus for converting hydrocarbon fuel into hydrogen gas and carbon dioxide.

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8. Pesavento Philip V., Carbon-air fuel cell.

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9. Sridhar,K. R.; McElroy,James F.; Finn,John E.; Mitlitsky,Fred; Gottmann,Matthias, Co-production of hydrogen and electricity in a high temperature electrochemical system.

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10. Sridhar, K. R.; Gottmann, Matthias, Combined energy storage and fuel generation with reversible fuel cells.

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11. Sridhar,K. R.; Gottmann,Matthias, Combined energy storage and fuel generation with reversible fuel cells.

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12. Neels, Jacobus; Li, Xuantian; Sederquist, Richard Allan; Boulet, Andre; Logan, William Allison, Compact fuel processor.

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13. Miller, David N.; Savaniu, Cristian; Irvine, John T S; Armstrong, Tad, Doped scandia stabilized zirconia electrolyte compositions.

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14. Venkataraman, Swaminathan, Dual function heat exchanger for start-up humidification and facility heating in SOFC system.

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15. Fellows Richard Griffith,GBX, Electric power generation system including fuel cells.

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16. Fellows Richard Griffith,GBX, Electric power generation system using fuel cells.

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17. Batawi, Emad El; Petersen, Eric; Stephenson, Richard, Electrolyte supported cell designed for longer life and higher power.

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18. Couse, Stephen, Electrolyte supported cell designed for longer life and higher power.

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19. Couse, Stephen, Electrolyte supported cell designed for longer life and higher power.

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20. El Batawi, Emad; Petersen, Eric; Stephenson, Richard, Electrolyte supported cell designed for longer life and higher power.

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21. Gottmann, Matthias; Nguyen, Dien; Batawi, Emad El; Armstrong, Tad; Wang, Gonghou; Hickey, Darren, Electrolyte supported cell designed for longer life and higher power.

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22. McElroy,James F.; Sridhar,K. R., Environmentally tolerant anode catalyst for a solid oxide fuel cell.

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23. Levan, M. Douglas; Finn, John E.; McElroy, James F., Fuel cell anode exhaust fuel recovery by adsorption.

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24. 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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25. 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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26. Trevisan, David; Daco, Christian; Baugh, David, Fuel cell mechanical components.

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27. Perry, Martin; Ballantine, Arne, Fuel cell stack module shell with integrated heat exchanger.

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28. Perry, Martin; Ballantine, Arne, Fuel cell system components.

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29. Perry, Martin; Venkataraman, Swaminathan, Fuel cell system containing anode tail gas oxidizer and hybrid heat exchanger/reformer.

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30. Perry, Martin; Venkataraman, Swaminathan, Fuel cell system containing anode tail gas oxidizer and hybrid heat exchanger/reformer.

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31. Perry, Martin; Venkataraman, Swaminathan, Fuel cell system containing anode tail gas oxidizer and hybrid heat exchanger/reformer.

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32. Venkataraman, Swaminathan; Ballantine, Arne Watson; Weingaertner, David, Fuel cell system operated on liquid fuels.

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33. McElroy, James; Venkataraman, Swaminathan, Fuel cell system with electrochemical anode exhaust recycling.

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34. Ballantine, Arne Watson; McElroy, James F., Fuel cell system with greater than 95% fuel utilization.

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35. McElroy, James; Venkataraman, Swaminathan; Finn, John; LeVan, M. Douglas; Mitlitsky, Fred, Fuel cell system with partial recycling of anode exhaust.

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36. Huppmann Gerhard,DEX, Fuel cell system with reforming device.

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37. Venkataraman, Swaminathan; Lyle, William David; Perry, Martin; Whittenberger, William, Fuel cell system with thermally integrated combustor and corrugated foil reformer.

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38. Bernard Randolph M. ; Allen Jeffrey, Fuel cell with internal combustion chamber.

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39. Daggett, David L., Fuel cell/combustor systems and methods for aircraft and other applications.

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40. Kazuhito Matsuda JP; Takahiro Tachihara JP; Hikaru Okada JP; Shoji Isove JP; Kouji Ueda JP; Hideaki Sumi JP; Takeshi Yamagami JP; Eiji Iseki JP; Yasunori Kotani JP, Fuel-reforming apparatus comprising a plate-shaped reforming catalyst.

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41. Venkataraman, Swaminathan; El Batawi, Emad; Gottmann, Matthias; Armstrong, Tad; Pillai, Manoj; Anantha, Padiadpu Shankara; Radhakrishnan, Vijay; Sharif, Mohamed; Mohan, Pradhiba; Kandiboina, Rakesh, High temperature air purge of solid oxide fuel cell anode electrodes.

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42. Venkataraman, Swaminathan; Gottmann, Matthias; Finn, John, High temperature fuel cell system and method of operating same.

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43. Venkataraman,Swaminathan; Gottmann,Matthias; Finn,John, High temperature fuel cell system and method of operating same.

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44. Bandhauer, Todd M.; Reinke, Michael J.; Valensa, Jeroen, High temperature fuel cell system with integrated heat exchanger network.

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45. Bandhauer, Todd M.; Reinke, Michael J.; Valensa, Jeroen, High temperature fuel cell system with integrated heat exchanger network.

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46. Bandhauer, Todd M.; Reinke, Michael J.; Valensa, Jeroen, High temperature fuel cell system with integrated heat exchanger network.

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47. Gottmann, Matthias; Armstrong, Tad, High utilization stack.

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48. Weingaertner, David; Venkataraman, Swaminathan, Hot box design with a multi-stream heat exchanger and single air control.

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49. Weingaertner, David; Venkataraman, Swaminathan, Hot box design with a multi-stream heat exchanger and single air control.

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50. Venkataraman, Swaminathan, Hybrid fuel heat exchanger—pre-reformer in SOFC systems.

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51. Venkataraman, Swaminathan, Hybrid reformer for fuel flexibility.

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52. Venkataraman, Swaminathan, Hybrid reformer for fuel flexibility.

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53. Singh Prabhakar (Export PA) Shockling Larry A. (Plum Borough PA) George Raymond A. (Pittsburgh PA) Basel Richard A. (Plub Borough PA), Hydrocarbon reforming catalyst material and configuration of the same.

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54. Sridhar, K. R.; Russell, Ian; Gottmann, Matthias, Increasing thermal dissipation of fuel cell stacks under partial electrical load.

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55. Sridhar, K. R.; Russell, Ian; Gottmann, Matthias, Increasing thermal dissipation of fuel cell stacks under partial electrical load.

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56. Sridhar, K. R.; Russell, Ian; Gottmann, Matthias, Increasing thermal dissipation of fuel cell stacks under partial electrical load.

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57. Fernandes, Neil Edward; Brown, Michael S.; Cheekatamaria, Praveen; Deng, Thomas; Dimitrakopoulos, James; Litka, Anthony F., Integral reactor system and method for fuel cells.

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58. Fernandes, Neil Edward; Brown, Michael S.; Cheekatamarla, Praveen; Deng, Thomas; Dimitrakopoulos, James; Litka, Anthony F., Integral reactor system and method for fuel cells.

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59. Venkataraman, Swaminathan; Weingaertner, David; Kalika, Vlad, Integrated fuel line to support CPOX and SMR reactions in SOFC systems.

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60. Woods Richard R. ; Greiner Leonard ; Moard David, Integrated power module.

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61. Bentley,Jeffrey M.; Clawson,Lawrence G.; Mitchell,William L.; Dorson,Matthew H., Integrated reformer and shift reactor.

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62. Valensa, Jeroen; Reinke, Michael J.; Voss, Mark G., Integrated solid oxide fuel cell and fuel processor.

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63. Valensa, Jeroen; Reinke, Michael J.; Voss, Mark G., Integrated solid oxide fuel cell and fuel processor.

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64. Armstrong, Tad; Batawi, Emad El; Petersen, Eric, Internal reforming anode for solid oxide fuel cells.

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65. Gottmann,Matthias; McElroy,James F., Load matched power generation system including a solid oxide fuel cell and a heat pump and an optional turbine.

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66. Sridhar, K. R.; McElroy, James F., Low pressure hydrogen fueled vehicle and method of operating same.

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67. Clawson Lawrence G. ; Mitchell William L. ; Bentley Jeffrey M. ; Thijssen Johannes H.J., Method and apparatus for converting hydrocarbon fuel into hydrogen gas and carbon dioxide.

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68. Clawson Lawrence G. ; Mitchell William L. ; Bentley Jeffrey M. ; Thijssen Johannes H. J., Method for converting hydrocarbon fuel into hydrogen gas and carbon dioxide.

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69. Clawson Lawrence G. ; Mitchell William L. ; Bentley Jeffrey M. ; Thijssen Johannes H. J., Method for converting hydrocarbon fuel into hydrogen gas and carbon dioxide.

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70. Clawson Lawrence G. ; Mitchell William L. ; Bentley Jeffrey M. ; Thijssen Johannes H. J., Method for converting hydrocarbon fuel into hydrogen gas and carbon dioxide.

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71. Ballantine, Arne; McElroy, James, Method for high temperature fuel cell system start up and shutdown.

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72. Mitlitsky, Fred; Sridhar, K. R.; Gottman, Matthias; Venkataraman, Swaminathan, Method of optimizing operating efficiency of fuel cells.

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73. Mitlitsky, Fred; Sridhar, K. R.; Gottmann, Matthias; Venkataraman, Swaminathan, Method of optimizing operating efficiency of fuel cells.

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74. Mitlitsky, Fred; Sridhar, K. R.; Gottmann, Matthias; Venkataraman, Swaminathan, Method of optimizing operating efficiency of fuel cells.

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75. Schumer,Steven Edward; Ballantine,Arne Watson, Methods for fuel cell system optimization.

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76. Sridhar, K. R.; Venkataraman, Swaminathan; Lyle, William David; Ballantine, Arne, Modular fuel cell system.

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77. Sridhar, K. R.; Venkataraman, Swaminathan; Lyle, William David; Ballantine, Arne Watson, Modular fuel cell system.

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78. Taylor, Owen S.; Zymboly, Gregory E., Multi-function solid oxide fuel cell bundle and method of making the same.

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79. Taylor,Owen S.; Zymboly,Gregory E., Multi-function solid oxide fuel cell bundle and method of making the same.

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80. Weingaertner, David; Perry, Martin; Venkataraman, Swaminathan; Kalika, Vlad, Multi-stream heat exchanger for a fuel cell system.

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81. Weingaertner, David; Perry, Martin; Venkataraman, Swaminathan; Kalika, Vlad, Multi-stream heat exchanger for a fuel cell system.

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82. McElroy, James F.; Weingaertner, David; Venkataraman, Swaminathan; Couse, Stephen, Operation of fuel cell systems with reduced carbon formation and anode leading edge damage.

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83. McElroy, James F.; Finn, John E.; LeVan, M. Douglas; Venkataraman, Swaminathan; Mitlitsky, Fred, Partial pressure swing adsorption system for providing hydrogen to a vehicle fuel cell.

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84. Armstrong, Tad; Batawi, Emad El; Janousek, Martin; Pillai, Manoj, Phase stable doped zirconia electrolyte compositions with low degradation.

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85. Armstrong, Tad; El Batawi, Emad; Janousek, Martin; Pillai, Manoj, Phase stable doped zirconia electrolyte compositions with low degradation.

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86. Armstrong, Tad; El Batawi, Emad; Janousek, Martin; Pillai, Manoj, Phase stable doped zirconia electrolyte compositions with low degradation.

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87. Botti Jean Joseph ; Grieve Malcolm James ; Miller Carl Elmer, Power generation system and method.

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88. Botti, Jean Joseph; Grieve, Malcom James; Miller, Carl Elmer, Power generation system and method with exhaust side solid oxide fuel cell.

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89. Weingaertner, David; Kalika, Vlad; Perry, Martin, Pre-reformer for selective reformation of higher hydrocarbons.

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90. Weingaertner, David; Kalika, Vlad; Perry, Martin, Pre-reformer for selective reformation of higher hydrocarbons.

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91. Pollica,Darryl; Northrop,William F.; Qi,Chunming (Frank C.); Hagan,Mark R.; Smith,Alexis; Clawson,Lawrence, Preferential oxidation reactor temperature regulation.

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92. Gorman Michael E. ; Murach Bryan L., Purged anode low effluent fuel cell.

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93. Bentley Jeffrey M. ; Mitchell William L. ; Clawson Lawrence G. ; Cross ; III James C., Reactor for producing hydrogen from hydrocarbon fuels.

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94. Bentley, Jeffrey M.; Mitchell, William L.; Clawson, Lawrence G.; Cross, III, James C., Reactor for producing hydrogen from hydrocarbon fuels.

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95. Hickey, Darren; Karuppaiah, Chockkalingam; McElroy, James, Reduction of SOFC anodes to extend stack lifetime.

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96. Perry, Martin; Edmonston, David, SOFC hot box components.

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97. 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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98. Perry, Martin; Krishnan, Navaneetha; Basu, Nilanjana; Ramanan, Ram, SOFC hot box components.

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99. Perry, Martin; Weingaertner, David; Basu, Nilanjana; Petrucha, Michael; Lyle, William David; Krishnan, Navaneetha; Gottmann, Matthias, SOFC hot box components.

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100. Perry, Martin; Weingaertner, David; Basu, Nilanjana; Petrucha, Michael; Lyle, William David; Krishnan, Navaneetha; Gottmann, Matthias, SOFC hot box components.

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101. Venkataraman, Swaminathan; Kalika, Vlad; Weingaertner, David, SOFC hot box components.

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102. Venkataraman, Swaminathan; Kalika, Vlad; Weingaertner, David, SOFC hot box components.

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103. Weingaertner, David; Petrucha, Michael; Perry, Martin; Edmonston, David; Bains, Virpaul; Ta, Andy; Krishnan, Navaneetha, SOFC hot box components.

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104. McElroy, James F.; Ballantine, Arne Watson, SOFC system producing reduced atmospheric carbon dioxide using a molten carbonated carbon dioxide pump.

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105. Gottmann, Matthias; McElroy, James Frederick; Mitlitsky, Fred; Sridhar, K. R., SORFC power and oxygen generation method and system.

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106. Gottmann,Matthias; McElroy,James Frederick; Mitlitsky,Fred; Sridhar,K. R., SORFC power and oxygen generation method and system.

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107. McElroy,James Frederick; Finn,John E., SORFC system and method with an exothermic net electrolysis reaction.

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108. Hickey, Darren; Russell, Ian, SORFC system with non-noble metal electrode compositions.

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109. Hickey, Darren; Russell, Ian, SORFC system with non-noble metal electrode compositions.

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110. Hickey,Darren; Russell,Ian, SORFC system with non-noble metal electrode compositions.

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111. Draper, Robert; Veyo, Stephen E.; Kothmann, Richard E., Segregated exhaust SOFC generator with high fuel utilization capability.

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112. Robert Draper ; Stephen E. Veyo, Segregated exhaust fuel cell generator.

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113. Draper, Robert; Zhang, Gong; Ruka, Roswell J.; Litzinger, Kevin P.; Zafred, Paolo R.; Basel, Richard A., Solid oxide fuel cell generator including a glass sealant.

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114. Draper, Robert; Zafred, Paolo R.; Gillett, James E.; Iyengar, Arun K. S.; George, Raymond A.; DiGiuseppe, Gianfranco, Solid oxide fuel cell generator with mid-stack fuel feed.

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115. McElroy, James; Gottmann, Matthias; Finn, John; Mitlitsky, Fred, Solid oxide regenerative fuel cell.

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116. McElroy, James Frederick, Solid oxide regenerative fuel cell with selective anode tail gas circulation.

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117. Robert C. Ruhl ; Christopher E. Milliken ; Michael A. Petrik, Solid-oxide fuel cell hot assembly.

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118. Zhao, Jian Lian; Northrop, William F.; Bosco, Timothy; Rizzo, Vincent; Kim, Changsik, Startup burner.

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119. 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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120. Gottmann, Matthias; Perry, Martin, Voltage lead jumper connected fuel cell columns.

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121. Narayanan,Sekharipuram R.; Yen,Shiao Pin S., Water free proton conducting membranes based on poly-4-vinylpyridinebisulfate for fuel cells.

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