이 특허를 인용한 특허 (80)

1. Pierson, Tom L.; Penton, John David, Advanced heat recovery and energy conversion systems for power generation and pollution emissions reduction, and methods of using same.

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2. Pierson, Tom L.; Penton, John David, Advanced power recovery and energy conversion systems and methods of using same.

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3. Hart, Katherine; Held, Timothy James, Automated mass management control.

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4. Hart, Katherine; Held, Timothy James, Automated mass management control.

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5. Hansen Paul L. ; Kuczma Paul D. ; Palsson Jens O.,SEX ; Simon Jonathan S., Blowdown recovery system in a Kalina cycle power generation system.

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6. Held, Timothy James; Vermeersch, Michael Louis; Xie, Tao, Carbon dioxide refrigeration cycle.

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7. Shifferaw, Tessema Dosho, Closed-loop geothermal power generation system with turbine engines.

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8. Juchymenko, Victor, Controlled organic rankine cycle system for recovery and conversion of thermal energy.

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9. Kalina Alexander I. ; Rhodes Lawrence B., Converting heat into useful energy using separate closed loops.

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10. Hansen Paul L. ; Kuczma Paul D. ; Palsson Jens O.,SEX ; Simon Jonathan S., Distillation and condensation subsystem (DCSS) control in kalina cycle power generation system.

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11. Held, Timothy James; Vermeersch, Michael Louis; Xie, Tao, Driven starter pump and start sequence.

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12. Held, Timothy James; Vermeersch, Michael; Xie, Tao, Driven starter pump and start sequence.

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13. Kalina, Alexander I., Dual pressure geothermal system.

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14. Kalina, Alexander I., Dual pressure geothermal system.

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15. Lewis Larry ; Monroe Walter D. ; Pinion James H., Energy conversion system.

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16. Peletz ; Jr. Lawrence J., Fluidized bed for kalina cycle power generation system.

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17. Margiott, Paul, Fuel cell power plant cooling network integrated with a thermal hydraulic engine.

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18. Kalina, Alexander I., Geothermal system.

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19. Kalina, Alexander I., Heat conversion system simultaneously utilizing two separate heat source stream and method for making and using same.

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20. Held, Timothy J.; Miller, Jason D., Heat engine and heat to electricity systems and methods for working fluid fill system.

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21. Held, Timothy J.; Hostler, Stephen; Miller, Jason D.; Vermeersch, Michael; Xie, Tao, Heat engine and heat to electricity systems and methods with working fluid mass management control.

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22. Held, Timothy James; Hostler, Stephen; Miller, Jason D.; Vermeersch, Michael; Xie, Tao, Heat engine and heat to electricity systems and methods with working fluid mass management control.

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23. Held, Timothy James, Heat engine cycles for high ambient conditions.

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24. Kacludis, Alexander Steven; Hostler, Stephen R.; Zakem, Steve B., Heat engine system with a supercritical working fluid and processes thereof.

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25. Held, Timothy James, Heat engines with cascade cycles.

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26. Gurin, Michael H., Heat pump with integral solar collector.

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27. Held, Timothy James, Hot day cycle.

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28. Peletz ; Jr. Lawrence J., Hybrid dual cycle vapor generation.

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29. Gurin, Michael H., Hybrid power systems.

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30. Ast, Gabor; Kopecek, Herbert; Freund, Sebastian Walter; Huck, Pierre Sebastien, Integrated generator cooling system.

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31. Kalina, Alexander I., Low temperature geothermal system.

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32. Gabrielli Frank ; Gibbons Thomas B. ; Goodstine Stephen L. ; O'Neill James K., Material selection and conditioning to avoid brittleness caused by nitriding.

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33. Mirolli, Mark D.; Rhodes, Lawrence; Lerner, Yakov; Pelletier, Richard I., Method and apparatus for acquiring heat from multiple heat sources.

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34. Mirolli,Mark D.; Rhodes,Lawrence; Lerner,Yakov; Pelletier,Richard I., Method and apparatus for acquiring heat from multiple heat sources.

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35. Kalina Alexander I. (Hillsborough CA) Pelletier Richard I. (San Leandro CA), Method and apparatus for implementing a thermodynamic cycle.

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36. Kalina, Alexander I., Method and apparatus for the utilization of waste heat from gaseous heat sources carrying substantial quantities of dust.

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37. Kalina Alexander I. ; Pelletier Richard I. ; Rhodes Lawrence B., Method and apparatus of converting heat to useful energy.

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38. Nayar, Ramesh C., Method and system for a thermodynamic process for producing usable energy.

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39. Kalina, Alexander I., Method and system for converting waste heat from cement plant into a usable form of energy.

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40. Kalina Alexander I., Method and system of converting thermal energy into a useful form.

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41. Jatila Ranasinghe ; Raub Warfield Smith ; Robert William Bjorge, Method for Kalina combined cycle power plant with district heating capability.

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42. Van Beveren, Petrus Carolus, Method for energy saving.

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43. Lengert, Jörg; Lengert, Martina; Lutz, Roland, Method for operating a thermodynamic cycle, and thermodynamic cycle.

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44. Bronicki Lucien Y.,ILX ; Kaplan Uri,ILX ; Grassiani Moshe,ILX, Method for utilizing acidic geothermal fluid for generating power in a rankine cycle power plant.

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45. Bronicki Lucien Y. (Yavne ILX) Grassiani Moshe (Herzliya ILX) Amir Nadav (Rehovot ILX), Method of and means for producing power from geothermal fluid.

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46. Smith,Douglas Wilbert Paul, Method of converting energy.

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47. Kalina, Alexander I., Methods and apparatus for optimizing the performance of organic rankine cycle power systems.

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48. Vermeersch, Michael Louis; Bowan, Brett A.; Khairnar, Swapnil, Methods for reducing wear on components of a heat engine system at startup.

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49. Held, Timothy James; Vermeersch, Michael Louis; Xie, Tao; Miller, Jason, Parallel cycle heat engines.

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50. Schwarck, Matthew N., Passive heat extraction and electricity generation.

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51. Kalina, Alexander I., Power cycle and system for utilizing moderate and low temperature heat sources.

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52. Kalina, Alexander I., Power cycle and system for utilizing moderate and low temperature heat sources.

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53. Kalina, Alexander I., Power cycle and system for utilizing moderate and low temperature heat sources.

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54. Hadianto, Mohammad Ashari; Taniguchi, Akihiro; Rodionov, Mikhail; Okita, Nobuo; Ito, Shoko; Yamashita, Katsuya; Furuya, Osamu; Takayanagi, Mikio, Power generating system including a gas/liquid separator.

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55. Pierson,Tom L.; Penton,John David, Power recovery and energy conversion systems and methods of using same.

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56. Kalina, Alexander I., Power systems utilizing two or more heat source streams and methods for making and using same.

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57. Kalina,Alexander I., Process and apparatus for boiling and vaporizing multi-component fluids.

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58. Kalina,Alexander I., Process and system for the condensation of multi-component working fluids.

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59. Bowan, Brett A., Process for controlling a power turbine throttle valve during a supercritical carbon dioxide rankine cycle.

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60. Peletz ; Jr. Lawrence J. ; Tanca Michael C., Refurbishing conventional power plants for Kalina cycle operation.

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61. Hansen Paul L. ; Kuczma Paul D. ; Palsson Jens O.,SEX ; Simon Jonathan S., Regenerative subsystem control in a kalina cycle power generation system.

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62. Rosenblatt Joel H., Reheat cycle for a sub-ambient turbine system.

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63. Xie, Tao; Vermeersch, Michael; Held, Timothy, Supercritical carbon dioxide power cycle for waste heat recovery.

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64. Vermeersch, Michael Louis, Supercritical working fluid circuit with a turbo pump and a start pump in series configuration.

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65. Juchymenko, Victor, Supplementary thermal energy transfer in thermal energy recovery systems.

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66. Held, Timothy James, System and method for managing thermal issues in gas turbine engines.

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67. Held, Timothy James, System and method for managing thermal issues in one or more industrial processes.

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68. Kalina, Alexander I., Systems and methods for low temperature heat sources with relatively high temperature cooling media.

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69. Kalina, Alexander I., Systems, methods and apparatuses for converting thermal energy into mechanical and electrical power.

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70. Hansen Paul L. ; Kuczma Paul D. ; Palsson Jens O.,SEX ; Simon Jonathon S., Technique for balancing regenerative requirements due to pressure changes in a Kalina cycle power generation system.

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71. Hansen Paul L. ; Kuczma Paul D. ; Palsson Jens O.,SEX ; Simon Jonathan S., Technique for controlling DCSS condensate levels in a Kalina cycle power generation system.

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72. Hansen Paul L. ; Kuczma Paul D. ; Palsson Jens O.,SEX ; Simon Jonathan S., Technique for controlling regenerative system condensation level due to changing conditions in a Kalina cycle power generation system.

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73. Hansen Paul L. ; Kuczma Paul D. ; Palsson Jens O.,SEX ; Simon Jonathan S., Technique for controlling superheated vapor requirements due to varying conditions in a Kalina cycle power generation system cross-reference to related applications.

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74. Gralton Gary ; Sun Chang-Yu ; Waryasz Richard E., Technique for cooling furnace walls in a multi-component working fluid power generation system.

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75. Hansen Paul L. ; Kuczma Paul D. ; Palsson Jens O.,SEX ; Simon Jonathan S., Technique for maintaining proper vapor temperature at the super heater/reheater inlet in a Kalina cycle power generation system.

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76. Held, Timothy J.; Hostler, Stephen; Miller, Jason D.; Hume, Brian F., Thermal energy conversion device.

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77. Held, Timothy J.; Hostler, Stephen; Miller, Jason D.; Hume, Brian F., Thermal energy conversion method.

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78. Hansen Paul L. ; Kuczma Paul D. ; Palsson Jens O.,CHX ; Simon Jonathan S., Vapor temperature control in a kalina cycle power generation system.

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79. Gibble, John; Andersson, Arne, Waste heat recovery system with partial recuperation.

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80. Fancher David H. ; Garcia Juan F. ; Goodstine Stephen L. ; Waryasz Richard E., Waste heat recovery technique.

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