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Method and apparatus for implementing a thermodynamic cycle using a fluid of changing concentration

국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • F01K-025/06
출원번호 US-0693470 (1985-01-22)
발명자 / 주소
  • Kalina Alexander I. (12214 Clear Fork Houston TX 77077)
인용정보 피인용 횟수 : 42  인용 특허 : 1

초록

A method and apparatus for implementing a thermodynamic cycle involves utilizing partial distillation of a multi-component working fluid stream. At least one main enriched solution is produced which is relatively enriched with respect to the lower boiling temperature component, together with at leas

대표청구항

A method of generating usable energy comprising the steps of: vaporizing, at an upper intermediate pressure, only part of an initial multi-component working fluid stream having lower and higher temperature boiling components to form a first vapor fraction, said first vapor fraction being enriched wi

이 특허에 인용된 특허 (1)

  1. Kogan Abraham (Haifa ILX) Moore Uri (Ramat-Hasharon ILX), Method and apparatus for the absorption of a gas in a liquid and their use in energy conversion cycles.

이 특허를 인용한 특허 (42)

  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.
  2. Pierson, Tom L.; Penton, John David, Advanced power recovery and energy conversion systems and methods of using same.
  3. Kalina Alexander I. ; Rhodes Lawrence B., Converting heat into useful energy using separate closed loops.
  4. 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.
  5. Kalina, Alexander I., Dual pressure geothermal system.
  6. Kalina, Alexander I., Dual pressure geothermal system.
  7. Pelletier, Richard I., Efficient conversion of heat to useful energy.
  8. Kalina, Alexander I., Geothermal system.
  9. Kalina, Alexander I., Heat conversion system simultaneously utilizing two separate heat source stream and method for making and using same.
  10. Chu, Mosi, Heat exchangers, boilers, and systems incorporating the same.
  11. Mahmoud, Ahmad M.; Lee, Jaeseon; Radcliff, Thomas D., High gliding fluid power generation system with fluid component separation and multiple condensers.
  12. Ranasinghe Jatila ; Anand Ashok Kumar ; Smith Raub Warfield, Integrated gasification combined cycle power plant with kalina bottoming cycle.
  13. Kalina, Alexander I., Low temperature geothermal system.
  14. Mirolli, Mark D.; Rhodes, Lawrence; Lerner, Yakov; Pelletier, Richard I., Method and apparatus for acquiring heat from multiple heat sources.
  15. Mirolli,Mark D.; Rhodes,Lawrence; Lerner,Yakov; Pelletier,Richard I., Method and apparatus for acquiring heat from multiple heat sources.
  16. Kalina Alexander I. (105 Glen Garry Way Hillsborough CA 94010), Method and apparatus for converting heat from geothermal fluid to electric power.
  17. Kalina Alexander I. (105 Glen Garry Way Hillsborough CA 94010), Method and apparatus for converting low temperature heat to electric power.
  18. Kalina Alexander I. (Hillsborough CA) Pelletier Richard I. (San Leandro CA), Method and apparatus for implementing a thermodynamic cycle.
  19. Kalina, Alexander I., Method and apparatus for the utilization of waste heat from gaseous heat sources carrying substantial quantities of dust.
  20. Kalina Alexander I. ; Pelletier Richard I. ; Rhodes Lawrence B., Method and apparatus of converting heat to useful energy.
  21. Nayar, Ramesh C., Method and system for a thermodynamic process for producing usable energy.
  22. Kalina, Alexander I., Method and system for converting waste heat from cement plant into a usable form of energy.
  23. Kalina Alexander I., Method and system of converting thermal energy into a useful form.
  24. Ranasinghe Jatila ; Smith Raub Warfield, Method of heating gas turbine fuel in a combined cycle power plant using multi-component flow mixtures.
  25. Kalina, Alexander I., Methods and apparatus for optimizing the performance of organic rankine cycle power systems.
  26. Kalina, Alexander I., Power cycle and system for utilizing moderate and low temperature heat sources.
  27. Kalina, Alexander I., Power cycle and system for utilizing moderate and low temperature heat sources.
  28. Kalina, Alexander I., Power cycle and system for utilizing moderate and low temperature heat sources.
  29. Pierson,Tom L.; Penton,John David, Power recovery and energy conversion systems and methods of using same.
  30. Kalina, Alexander I., Power system and apparatus utilizing intermediate temperature waste heat.
  31. Kalina, Alexander I., Power systems utilizing two or more heat source streams and methods for making and using same.
  32. Kalina,Alexander I., Process and apparatus for boiling and vaporizing multi-component fluids.
  33. Kalina,Alexander I., Process and system for the condensation of multi-component working fluids.
  34. Hansen Paul L. ; Kuczma Paul D. ; Palsson Jens O.,SEX ; Simon Jonathan S., Regenerative subsystem control in a kalina cycle power generation system.
  35. Kalina, Alexander I., Systems and methods for low temperature heat sources with relatively high temperature cooling media.
  36. Kalina, Alexander I., Systems, methods and apparatuses for converting thermal energy into mechanical and electrical power.
  37. 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.
  38. 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.
  39. 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.
  40. 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.
  41. 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.
  42. 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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