[특허]Dispatchable power from a renewable energy facility

Dispatchable power from a renewable energy facility 원문보기

IPC분류정보
국가/구분	United States(US) Patent 등록
국제특허분류(IPC7판)	H02J-001/12 H02J-003/38 H02J-001/10
출원번호	US-0039088 (2011-03-02)
등록번호	US-8866334 (2014-10-21)
발명자 / 주소	Donnelly, Frank Wegner Dewis, David William
출원인 / 주소	ICR Turbine Engine Corporation
대리인 / 주소	Sheridan Ross P.C.
인용정보	피인용 횟수 : 13 인용 특허 : 314

초록 ▼

The placement of fully available prime movers having a DC output at a location inside or adjacent to an inverter-based intermittently available renewable energy site is disclosed. The fully available prime movers add reliability to an unreliable energy asset that is reaching its maximum penetration within the grid due to its unpredictability and the requirement for additional spinning reserves in other parts of the grid. The present invention can provide a portion or all of the power to an intermittently available renewable power generating facility so that the power output to the power grid is dispatchable power. In particular, a method and means are disclosed to utilize high-efficiency engines operated on various fuels some of which may be non-fossil fuels to maintain a constant power output from an otherwise intermittent power generating facility.

대표청구항 ▼

1. A method of converting a renewable power plant to a dispatchable power plant, comprising: providing a computer system with a processor;providing at least one intermittently available renewable energy source;providing at least one fully available energy source;providing a DC bus;wherein the at least one intermittently available renewable energy source is associated with an existing power electronics interface that connect the DC bus to a regulated AC power grid, the existing power electronics interface adapted to transform DC voltage to regulated AC voltage;converting power from the at least one intermittently available renewable energy source to DC power on a DC bus;the processor accessing whether the power delivered by the at least one intermittently available renewable energy source will be less than a predetermined amount of power;operating the at least one fully available energy source to supply sufficient DC power to the DC bus to supply an amount of power requested by a regulated AC power grid up to the maximum rated power of the at least one intermittently available renewable energy source; andsupplying the power requested by the regulated AC power grid utilizing the existing power electronics interface, wherein the at least one fully available energy source is only associated with the existing power electronics interface as the existing power electronics interface are capable of carrying the maximum rated power of the at least one intermittently available renewable energy source. 2. The method of claim 1, wherein the at least one fully available energy source provides dispatchable power, wherein each of the at least one fully available energy source comprises at least one of a gas turbine engine, a reciprocating engine and a fuel cell, and power control apparatuses to provide DC electrical power to a DC bus. 3. The method of claim 1, wherein the at least one intermittently available energy source is at least one of a photovoltaic array, a solar thermal plant, a wind turbine and a water turbine, wherein the predetermined amount of power is an existing or probable electrical power requirement by the AC power grid. 4. A non-transitory computer readable medium comprising processor executable instructions to perform the steps of claim 1. 5. A system for converting a renewable power plant to a dispatchable power plant, comprising: a DC bus;at least one available renewable energy source electrically connected to the DC bus, wherein output power of the at least one renewable energy source is convertible to DC power;an existing power electronics interface connecting the DC bus to a regulated AC power grid wherein the existing power electronics interface is capable of carrying the maximum rated power of the at least one renewable energy source, the existing power electronics interface associated with the at least one available renewable energy source;at least one fully available energy source also interconnected to the existing power electronics interface, the output power of the at least one fully available energy source is convertible to DC power by the existing power electronics interface; andwherein the power on the DC bus is regulated by the existing power electronics interface so as to maintain a requested power level by the grid up to the maximum rated power of the at least one renewable energy source. 6. The system of claim 5, wherein the at least one fully available energy source comprises a prime power source, wherein the at least one fully available energy source provides dispatchable power, and wherein the at least one fully available energy source comprises a power control apparatus to provide DC electrical power to a DC bus. 7. The system of claim 6, wherein the at least one available renewable energy source is at least one of a photovoltaic array, a solar thermal plant, a wind turbine and a water turbine, wherein the requested power level is an existing or probable electrical energy requirement by the AC power grid. 8. The system of claim 5, further comprising: a processor operable to set an energy storage system power control apparatus voltage to a level sufficient to send electrical energy from an energy storage system to the DC bus and set at least one fully available energy source power control apparatus voltages to a level sufficient to send electrical power from the at least one fully available energy source to the DC bus. 9. The system of claim 8, wherein the processor engages and/or adjusts a determined amount of power from the at least one fully available energy source required to provide sufficient electrical energy to the grid to satisfy the requested power level and, as the at least one fully available energy source supplies the requested power level, adjusts the energy storage system power control apparatus voltage to a lower first level to decrease an amount of electrical power supplied by the energy storage system to the DC bus. 10. The system of claim 9, wherein the processor is operable to set an energy storage system power control apparatus voltage to a level sufficient to charge an energy storage system. 11. The system of claim 5, further comprising: a wind turbine comprising a rotor to rotate in response to air movement and produce mechanical power;a generator operable to convert the mechanical power into alternating current AC electrical energy; anda power control apparatus operable to convert the AC electrical energy into direct current (“DC”) electrical energy that is forwarded to the DC bus. 12. The system of claim 11, wherein the at least one fully available energy source is located in a nacelle of the wind turbine. 13. The system of claim 11, wherein at least one fully available energy source is located in a tower of the wind turbine. 14. The system of claim 11, wherein at least one fully available energy source is located adjacent to a tower of the wind turbine. 15. The method of claim 1 wherein the DC bus receives electrical power from at least one of the at least one fully available energy source and at least one intermittently available renewable energy source, and further comprising providing power to an inverter, the inverter converting the DC electrical power to an AC electrical power for supply to the regulated AC power grid. 16. The method of claim 1, further comprising providing at least one DC energy storage device, and supplying power from the at least one DC energy storage device to the DC bus. 17. The method of claim 16, further comprising: setting an energy storage system power control apparatus voltage to a level sufficient to send electrical power from an energy storage system to the DC bus; andsetting the at least one fully available energy source's power control apparatus voltages to levels sufficient to send electrical energy from the one or more fully available energy source to the DC bus. 18. The method of claim 17, further comprising: engaging and/or adjusting a determined amount of power from the at least one fully available energy source required to provide sufficient electrical power to the grid to satisfy the determined amount;as the at least one fully available energy source supplies the predetermined amount of power, adjusting the energy storage system power control apparatus voltage to a lower first level to decrease an amount of electrical power supplied by the energy storage system to the DC bus. 19. The system of claim 5, wherein the at least one fully available energy source provides an aggregate power output substantially equal to the maximum rated power of the at least one renewable energy source. 20. The system of claim 5, wherein the at least one DC energy storage source is connected to the DC bus. 21. The system of claim 5, wherein the DC bus is electrically connected to an inverter. 22. The method of claim 1, further comprising an energy storage system that supplies energy to the DC bus to reduce the amount of power required by the at least one fully available energy source. 23. The method of claim 22, wherein the energy storage system can be charged by the at least one intermittently available energy source. 24. The method of claim 23, wherein an amount of power being requested by the AC power grid is less than that available from the at least one intermittently available energy source. 25. The method of claim 22, wherein the energy storage system can call for more power than the intermittent source can provide. 26. The method of claim 22, wherein the energy storage system provides power while the at least one fully available energy sources are preparing to provide power. 27. A system for converting a renewable power plant to a dispatchable power plant, comprising: a DC bus;at least one available renewable energy source electrically connected to the DC bus, wherein output power of the at least one renewable energy source is convertible to DC power;an existing power electronics interface connecting the DC bus to a regulated AC power grid wherein the existing power electronics interface is capable of carrying the maximum rated power of the at least one renewable energy source;at least one fully available energy source, the output power of the at least one fully available energy source is convertible to DC power; wherein the power on the DC bus is regulated by the existing power electronics interface so as to maintain a requested power level by the grid up to the maximum rated power of the at least one renewable energy source; a wind turbine comprising a rotor to rotate in response to air movement and produce mechanical power;a generator operable to convert the mechanical power into alternating current AC electrical energy;a power control apparatus operable to convert the AC electrical energy into direct current (“DC”) electrical energy that is forwarded to the DC bus; andwherein the at least one fully available energy source is located in a nacelle of the wind turbine, a tower of the wind turbine, or adjacent to a tower of the wind turbine. 28. The system of claim 27, wherein the at least one fully available energy source comprises a prime power source, wherein the at least one fully available energy source provides dispatchable power, and wherein the at least one fully available energy source comprises a power control apparatus to provide DC electrical power to a DC bus. 29. The system of claim 28, wherein the at least one available renewable energy source is at least one of a photovoltaic array, a solar thermal plant, a wind turbine and a water turbine, wherein the requested power level is an existing or probable electrical energy requirement by the AC power grid. 30. The system of claim 27, further comprising: a processor operable to set an energy storage system power control apparatus voltage to a level sufficient to send electrical energy from an energy storage system to the DC bus and set at least one fully available energy source power control apparatus voltages to a level sufficient to send electrical power from the at least one fully available energy source to the DC bus. 31. The system of claim 30, wherein the processor engages and/or adjusts a determined amount of power from the at least one fully available energy source required to provide sufficient electrical energy to the grid to satisfy the requested power level and, as the at least one fully available energy source supplies the requested power level, adjusts the energy storage system power control apparatus voltage to a lower first level to decrease an amount of electrical power supplied by the energy storage system to the DC bus. 32. The system of claim 31, wherein the processor is operable to set an energy storage system power control apparatus voltage to a level sufficient to charge an energy storage system. 33. The system of claim 27, wherein the at least one fully available energy source provides an aggregate power output substantially equal to the maximum rated power of the at least one renewable energy source. 34. The system of claim 27, wherein the at least one DC energy storage source is connected to the DC bus. 35. The system of claim 27, wherein the DC bus is electrically connected to an inverter. 36. An electrical power generating system for converting a renewable power plant to a dispatchable power plant, comprising; at least one renewable energy source that outputs DC electrical power to a DC bus;the DC bus and an inverter connected to an electrical utility grid wherein the DC bus and inverter transmits power to the electrical utility grid up to a rated power level of the at least one renewable energy source;at least one back-up power source comprising an engine and a fuel supply, the at least one back-up power source outputting DC electrical power to the DC bus; anda computer system that, based on the demand requested by the electrical utility grid, commands the requested power to be delivered to the electrical utility grid, up to the rated power level. 37. A method of converting a renewable power generating facility to a dispatchable power generating facility, comprising: providing a DC bus and an inverter connected to an electrical utility grid;providing at least one renewable energy source outputting DC electrical power to the DC bus;providing at least one back-up power source comprising an engine and a fuel supply, the at least one back-up power source outputting DC electrical power to the DC bus;providing a computer system;determining, by the computer system, an amount of electrical power being delivered by the at least one renewable energy source to the electrical utility grid;determining, by the computer system, the power requested by the electrical utility grid;operating, by the computer system, the at least one back-up power source to supply power to the DC bus equal to the power requested by the electrical utility grid minus the amount of electrical power being delivered by the at least one renewable energy source, up to a rated power level of the at least one renewable energy source.

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Munoz, Jules Ricardo; Bertuccioli, Luca; Sahm, Michael K.; Fletcher, Jay; Lents, Charles E.; Squier, Steve; Welch, Richard; Becker, Arthur Curtis, Integrated air turbine driven system for providing aircraft environmental control.
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Kast Howard B. (Fairfield OH), Integrated control system for a gas turbine engine.
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Weber Kent, Integrated emergency power and environmental control system.
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Lui, Clarence W. T.; Derouineau, Jean Luc; Claeys, Henry M., Integrated environmental control and auxiliary power system for an aircraft.
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Varatharajan, Balachandar; Balan, Chellappa; Dey, Debashis, Integrated fuel cell hybrid power plant with controlled oxidant flow for combustion of spent fuel.
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Olsen, Andrew J.; Child, Malcolm S.; Sandoe, Ernest J., Integrated microturbine gearbox generator assembly.
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Klaass Reinhard M. (Phoenix AZ) Minshall Bert J. (Scottsdale AZ) Suriano Francis J. (Scottsdale AZ) Caan William (Scottsdale AZ), Integrated power unit control apparatus and method.
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Lampe Steven W. ; Edelman Edward C. ; Wacknov Joel B., Integrated reciprocating engine generator set and turbogenerator system and method.
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Munoz, Jules Ricardo; Bertuccioli, Luca; Sahm, Michael K.; Fletcher, Jay; Lents, Charles E.; Squier, Steven E.; Welch, Richard; Becker, Arthur Curtis, Integrated system for providing aircraft environmental control.
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Chou ; Cheng-Chien ; Rosebrock ; Theodore L., Iris control for gas turbine engine air brake.
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Benham, Jr., Durward S.; Koerner, Michael S., Jet fuel and air system for starting auxiliary power unit.
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Shekleton Jack R., Liquid fuel injector.
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Shekleton Jack R. ; Martin Curtis C., Liquid fuel injector and injector system for a small gas turbine engine.
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Shekleton Jack R. ; Martin Curtis C., Liquid fuel injector purge system.
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Shekleton Jack R. ; Martin Curtis C, Liquid fuel injector system.
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Bosley Robert W. ; Edelman Edward C. ; Lampe Steven W. ; Miller Ronald F., Liquid fuel pressurization and control method.
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Bosley Robert W. ; Edelman Edward C. ; Lampe Steven W. ; Miller Ronald F., Liquid fuel pressurization and control system.
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Breton Robert A. (Old Saybrook CT), Louver burner liner.
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Willis Jeffrey W. ; Pont Guillermo ; Alder ; Jr. Bruce L., Low emissions combustion system for a gas turbine engine.
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Willis Jeffrey W. ; Pont Guillermo ; Alder ; Jr. Bruce L., Low emissions combustion system for a gas turbine engine.
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Willis Jeffrey W. ; Pont Guillermo ; Alder ; Jr. Bruce L., Low emissions combustion system for a gas turbine engine employing flame stabilization within the injector tube.
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Thompson,Robert G., Main engine electric start system.
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Wegner-Donnelly, Frank; Watson, John David, Marine power train system and method of storing energy in a marine vehicle.
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Gupta, Suresh C.; Burnham, Douglas R.; Teets, J. Michael; Teets, Jon W., Method and apparatus for compensating output voltage fluctuations of turbine/alternator on common shaft.
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Dewis, David, Method for gas turbine light-off.
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Barton, Werner; Buecker, Andreas, Method for operating a frequency converter of a generator and wind energy turbine having a generator operated according to the method.
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Geary ; Jr. Carl H. (Greensburg PA) Samurin Norman A. (Houston TX), Method for starting an FCC power recovery string.
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Bronicki Lucien Y. (Yavne ILX), Method of and apparatus for producing power using compressed air.
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Beacom, William F., Method of fabricating vanes.
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Nakhamkin Michael (Mountainside NJ), Method of generating power with high efficiency multi-shaft reheat turbine with interccooling and recuperation.
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Stewart Matthew J. ; Roberts Kenneth G. ; Weissert Dennis H. ; Bosley Robert W., Method of making double diaphragm compound shaft.
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Cullen David M.,GBX ; Kimmel Hans E., Method to optimize thermodynamic expansion in gas liquefaction processes.
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Andrew,Philip Lynn; Ford,John Edward; Melsert,Timothy Andrew, Methods and apparatus for electric power grid frequency stabilization.
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Miller, Nicholas Wright; Clark, Kara, Methods and systems for generating electrical power.
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Kesseli, James B., Microturbine for combustion of VOCs.
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Cronin Michael J. (Sherman Oaks CA), Multi role primary/auxiliary power system with engine start capability for aircraft.
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O'Sullivan George A. ; O'Sullivan Joseph A., Multimode power processor.
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Hartzheim, Anthony A., Multiple control loop acceleration of turboalternator previous to self-sustaining speed.
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Donnelly, Frank; Tarnow, Andrew; Wolff, Bruce; Watson, John D., Multiple prime power source locomotive control.
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Hauser,Raymond, Planet brake differential.
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Mark Gilbreth ; Joel Wacknov ; Simon Wall, Power controller.
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Kesseli, James B.; Wolf, Thomas L., Power conversion systems.
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Kesseli,James B.; Wolf,Thomas L., Power conversion systems.
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Paul S. Bixel, Power converter and control for microturbine.
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McKelvey, Terence; Marui, Eishi; Miyamoto, Masahiro; Furuya, Tai; Kataoka, Tadashi; Sato, Motoyasu; Ishihara, Seiichi; Ozawa, Takahide; Kinoshita, Noboru; Zheng, Shaojun, Power generating apparatus.
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Mackay Robin (Rancho Palos Verdes CA), Power generating system.
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Wang,Quincy Q., Power generating system including a high-frequency alternator, a rectifier module, and an auxiliary power supply.
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Altenschulte, Markus, Power generation system and method for storing electrical energy.
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Halsey, David G.; Romenesko, Charles J., Power turbine speed control using electrical load following.
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Halsey, David G.; Romenesko, Charles J., Power turbine speed control using electrical load following.
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Teets,Joseph Michael; Teets,Jon William, Rankine--microturbine for generating electricity.
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Johnson Kenneth O. (Cincinnati OH), Rapid power response turbine.
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Kang,Yungmo; McKeirnan, Jr.,Robert D., Recuperator assembly and procedures.
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Ryan, William R., Recuperator for use with turbine/turbo-alternator.
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William R. Ryan, Recuperator for use with turbine/turbo-alternator.
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Stevenson, Paul D.; Armstrong, Paula J.; Wittkopp, Scott H., Selectable one-way clutch.
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Smith Lawrence S. (Simsbury CT), Servoed throttle valve for fuel controls.
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Skowronski Mark J. ; Prophet Tony, Single shaft microturbine power generating system including turbocompressor and auxiliary recuperator.
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Mackay Robin (Rancho Palos Verdes CA), Solar powered turbine system.
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Near Timothy P. (Scotia NY), Synchronization fuel control for gas turbine-driven AC generator by use of maximum and minimum fuel signals.
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Herlihy,Christopher J., Synchronizing stationary clutch of compression braking with a two spool gas turbine engine.
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Rossi Anthony J. (Leominster MA) Behringer Donald F. (Ashburnham MA), Turbine control.
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Richards, Martyn; Howarth, Nicholas, Turbine engine and a method of operating a turbine engine.
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Balas, Francois, Turbogenerator cooling method.
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Balas, Francois, Turbogenerator cooling system.
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Wall, Simon; Dickey, Brian; Pont, Guillermo, Turbogenerator with electrical brake.
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Kesseli,James B.; Robinson,Ward H.; Corbeil,Antoine H., Variable position turbine nozzle.
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Parkhideh, Babak; Kim, Hongrae, Reconfigurable power systems and converters.
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Ekanayake, Sanji; Scipio, Alston Ilford; Davis, Dale J.; Kauffman, Eric J.; Yang, Timothy Tah-teh, System and method to minimize grid spinning reserve losses by pre-emptively sequencing power generation equipment to offset wind generation capacity based on geospatial regional wind conditions.
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Fortmann, Jens, Wind turbine and method for operating a wind turbine.
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IPC	Description
A	생활필수품
A62	인명구조; 소방(사다리 E06C)
A62B	인명구조용의 기구, 장치 또는 방법(특히 의료용에 사용되는 밸브 A61M 39/00; 특히 물에서 쓰이는 인명구조 장치 또는 방법 B63C 9/00; 잠수장비 B63C 11/00; 특히 항공기에 쓰는 것, 예. 낙하산, 투출좌석 B64D; 특히 광산에서 쓰이는 구조장치 E21F 11/00)
A62B-1/08	.. 윈치 또는 풀리에 제동기구가 있는 것

내보내기 구분	파일저장 인쇄 메일전송
구성항목	기본정보 상세정보 관리번호, 국가코드, 자료구분, 상태, 출원번호, 출원일자, 공개번호, 공개일자, 등록번호, 등록일자, 발명명칭(한글), 발명명칭(영문), 출원인(한글), 출원인(영문), 출원인코드, 대표IPC 관리번호, 국가코드, 자료구분, 상태, 출원번호, 출원일자, 공개번호, 공개일자, 공고번호, 공고일자, 등록번호, 등록일자, 발명명칭(한글), 발명명칭(영문), 출원인(한글), 출원인(영문), 출원인코드, 대표출원인, 출원인국적, 출원인주소, 발명자, 발명자E, 발명자코드, 발명자주소, 발명자 우편번호, 발명자국적, 대표IPC, IPC코드, 요약, 미국특허분류, 대리인주소, 대리인코드, 대리인(한글), 대리인(영문), 국제공개일자, 국제공개번호, 국제출원일자, 국제출원번호, 우선권, 우선권주장일, 우선권국가, 우선권출원번호, 원출원일자, 원출원번호, 지정국, Citing Patents, Cited Patents
저장형식	Text(ASCII format) Excel format PIAS분석(.xls)
메일정보	받는사람 (필수) @ 보내는사람 (선택) @ 제목 내용 KISTI 검색결과 이메일 서비스
안내	총 건의 자료가 검색되었습니다. 다운받으실 자료의 인덱스를 입력하세요. (1-10,000) 검색결과의 순서대로 최대 10,000건 까지 다운로드가 가능합니다. 데이타가 많을 경우 속도가 느려질 수 있습니다.(최대 2~3분 소요) 다운로드 파일은 UTF-8 형태로 저장됩니다. 파일의 내용이 제대로 보이지 않을실 때는 웹브라우저 상단의 보기 -> 인코딩 -> 자동선택 여부를 확인하십시오. ~ Text(ASCII format) Excel format

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Dispatchable power from a renewable energy facility 원문보기

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