$\require{mediawiki-texvc}$
  • 검색어에 아래의 연산자를 사용하시면 더 정확한 검색결과를 얻을 수 있습니다.
  • 검색연산자
검색연산자 기능 검색시 예
() 우선순위가 가장 높은 연산자 예1) (나노 (기계 | machine))
공백 두 개의 검색어(식)을 모두 포함하고 있는 문서 검색 예1) (나노 기계)
예2) 나노 장영실
| 두 개의 검색어(식) 중 하나 이상 포함하고 있는 문서 검색 예1) (줄기세포 | 면역)
예2) 줄기세포 | 장영실
! NOT 이후에 있는 검색어가 포함된 문서는 제외 예1) (황금 !백금)
예2) !image
* 검색어의 *란에 0개 이상의 임의의 문자가 포함된 문서 검색 예) semi*
"" 따옴표 내의 구문과 완전히 일치하는 문서만 검색 예) "Transform and Quantization"

특허 상세정보

Distributed control method for multiple connected generators

국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판) H02J-001/00   
미국특허분류(USC) 307/085; 307/052; 307/059; 307/064; 307/065; 307/068; 307/080; 307/084; 307/087
출원번호 US-0007219 (2001-11-02)
발명자 / 주소
출원인 / 주소
대리인 / 주소
    Sterne, Kessler, Goldstein & Fox P.L.L.C.
인용정보 피인용 횟수 : 41  인용 특허 : 1
초록

An energy generation network according to the present disclosure includes energy generating elements organized in a tree structure of superior and inferior system levels, with control systems and a communication network. In a currently preferred embodiment, energy generating elements are turbogenerators as described above. Communications and processing are distributed throughout the systems and sub-systems of energy generating elements. Inferior sub-systems and systems of sub-systems appears as a single unit to the superior system or sub-system level. Th...

대표
청구항

1. An energy generation network comprising: a plurality of energy generating elements capable of receiving system commands, generating system commands, and distributing system commands; a plurality of systems and subsystems of energy generating elements, organized using subsets of the plurality of energy generating elements; a plurality of control systems for controlling the plurality of systems and subsystems of energy generating elements; and a communication network interconnecting the plurality of control systems and the plurality of system...

이 특허를 인용한 특허 피인용횟수: 41

  1. Kesseli, James B.; Nash, James S.. Ceramic-to-metal turbine shaft attachment. USP2015069051873.
  2. Baldwin, Matthew Stephen. Ceramic-to-metal turbine volute attachment for a gas turbine engine. USP20181010094288.
  3. Hamrin, Douglas; Lampe, Steve. Controls for multi-combustor turbine. USP2016039273606.
  4. Donnelly, Frank Wegner; Dewis, David William. Dispatchable power from a renewable energy facility. USP2014108866334.
  5. Prabhu, Edan. Fuel oxidation in a gas turbine system. USP2017039587564.
  6. Dewis, David William; Kesseli, James; Donnelly, Frank Wegner; Wolf, Thomas; Upton, Timothy; Watson, John D.. Gas turbine energy storage and conversion system. USP2013088499874.
  7. Dewis, David William; Kesseli, James; Donnelly, Frank Wegner; Wolf, Thomas; Watson, John D.. Gas turbine energy storage and conversion system. USP2014048708083.
  8. Donnelly, Frank Wegner; Dewis, David William. Gas turbine engine configurations. USP2014038669670.
  9. Prabhu, Edan D.. Gasifier power plant and management of wastes. USP2015069057028.
  10. Maslov, Boris A.. Gradual oxidation and autoignition temperature controls. USP2015129206980.
  11. Maslov, Boris A.. Gradual oxidation and autoignition temperature controls. USP2016039273608.
  12. Denison, Thomas Renau; Maslov, Boris A.. Gradual oxidation and multiple flow paths. USP2015038980193.
  13. Maslov, Boris A.. Gradual oxidation and multiple flow paths. USP2016059328660.
  14. Armstrong, Jeffrey. Gradual oxidation below flameout temperature. USP2016069371993.
  15. Maslov, Boris A.. Gradual oxidation below flameout temperature. USP2015038980192.
  16. Armstrong, Jeffrey; Martin, Richard; Hamrin, Douglas. Gradual oxidation with adiabatic temperature above flameout temperature. USP2016079381484.
  17. Maslov, Boris A.. Gradual oxidation with adiabatic temperature above flameout temperature. USP2015018926917.
  18. Maslov, Boris A.; Armstrong, Jeffrey. Gradual oxidation with flue gas. USP2017089726374.
  19. Hamrin, Douglas; Armstrong, Jeffrey. Gradual oxidation with heat control. USP2016069359948.
  20. Lampe, Steve; Hamrin, Douglas. Gradual oxidation with heat control. USP2016059347664.
  21. Lampe, Steve; Hamrin, Douglas. Gradual oxidation with heat control. USP2016059328916.
  22. Lampe, Steve; Hamrin, Douglas. Gradual oxidation with heat control. USP2016069359947.
  23. Maslov, Boris A.; Hamrin, Douglas. Gradual oxidation with heat exchange media. USP2015049017618.
  24. Armstrong, Jeffrey; Martin, Richard; Hamrin, Douglas. Gradual oxidation with heat transfer. USP2017029567903.
  25. Armstrong, Jeffrey; Maslov, Boris A.. Gradual oxidation with heat transfer. USP2016019234660.
  26. Hamrin, Douglas; Martin, Richard; Armstrong, Jeffrey. Gradual oxidation with heat transfer. USP2016059353946.
  27. Schnepel, Mark. Gradual oxidation with reciprocating engine. USP2014038671917.
  28. Schnepel, Mark; Maslov, Boris A.. Gradual oxidation with reciprocating engine. USP2014098844473.
  29. Prabhu, Edan. Heating a reaction chamber. USP2014018621869.
  30. Martin, Richard; Armstrong, Jeffrey; Hamrin, Douglas. Hybrid gradual oxidation. USP2017019534780.
  31. Prabhu, Edan. Managing leaks in a gas turbine system. USP2013038393160.
  32. Kesseli, James B.; Baldwin, Matthew Stephen. Metallic ceramic spool for a gas turbine engine. USP2015038984895.
  33. Hamrin, Douglas; Lampe, Steve. Multi-combustor turbine. USP2016039279364.
  34. Takehara, Toru; Takada, Shinichi. Network topology for monitoring and controlling a solar panel array. USP2013118593103.
  35. Takehara, Toru; Takada, Shinichi. Network topology for monitoring and controlling a solar panel array. USP2012098264195.
  36. Prabhu, Edan. Oxidizing fuel. USP2014038671658.
  37. Prabhu, Edan. Oxidizing fuel in multiple operating modes. USP2018039926846.
  38. Prabhu, Edan. Oxidizing fuel in multiple operating modes. USP2014048701413.
  39. Prabhu, Edan D.. Processing fuel and water. USP2014118893468.
  40. Armstrong, Jeffrey; Martin, Richard; Hamrin, Douglas. Staged gradual oxidation. USP2016029267432.
  41. Armstrong, Jeffrey; Martin, Richard; Hamrin, Douglas; Perry, Joe. Staged gradual oxidation. USP2014088807989.