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完整後設資料紀錄
DC 欄位 | 值 | 語言 |
---|---|---|
dc.contributor.advisor | 許源浴(Yuan-Yih Hsu) | |
dc.contributor.author | Long-An Lee | en |
dc.contributor.author | 李龍安 | zh_TW |
dc.date.accessioned | 2021-06-15T06:00:26Z | - |
dc.date.available | 2010-12-23 | |
dc.date.copyright | 2010-08-18 | |
dc.date.issued | 2010 | |
dc.date.submitted | 2010-08-17 | |
dc.identifier.citation | [1] http://unfccc.int/resource/docs/convkp/kpeng.html ”Kyoto Protocal To The United Nations Framework Convention On Climate Change,” 2007.
[2] http://www.moeace.gov.tw/ ”台灣地區風能分布圖、風力發電示範系統,” 2010. [3] http://www.taipower.com.tw/ “台電主要新增個別發電計畫,” 2009. [4] Z.M. Salameh and L.F. Kazda, “Analysis of the steady state performance of the double output induction generator,” IEEE Transactions on Energy Conversion, Vol. EC-1, No.1,March 1986. [5] I. Cadirci and M. Ermis, “Double-output induction generator operating at subsynchronous and supersynchronous speeds:steady-state performance optimization and wind-energy recovery,” IEE Proceedings-b, Vol. 139, No.5,September 1992. [6] R. Bergen and V. Vittal, Power System Analysis, Pearson Prentice Hall, 2000. [7] N. G. Hingorani and L. Gyugyi, Understanding FACTS: Concepts and Technology of Flexible AC Transmission Systems, Institute of Electrical and Electronics Engineers, Inc, IEEE Press, 2000. [8] T. J. E. Miller, Reactive Power Control in Electric System, John Wiley & Sons, Inc, 1982. [9] G. Boyle, Renewable Energy, Oxford, Inc, 2004. [10] Martin O.L. Hansen, Aerodynamics of Wind Turbines, Earthscn, Inc, 2007. [11] N. Mohan, T. M. Undeland and W.P. Robbins, Power Electronics, John Wiley and Sons, Inc, 2003. [12] C. Schauder and H. Mehta, ”Vector Analysis and Control of Advanced Static VAR Compensators,” IEE Proceedings-C, vol. 140, no. 4, pp. 299 – 306, 1993. [13] 梁國堂,「靜態同步補償器控制器參數之設計」,台灣大學電機所碩士論 文,2008。 [14] 陳偉倫,「風力-感應發電機系統之電壓及頻率調整器設計」,台灣大學電機 所博士論文,2006。 [15] R. Pena, J.C. Clare and G.M. Asher, “Doubly fed induction generator using back-to-back PWM converters and its application to variable-speed wind-energy generation,” IEE Proc.-Electr. Power Appl. Vol. 143, No. 3, May 1996. [16] C.H. Liu and Y.Y. Hsu, “Effcet of Rotor Excitation Voltage on Steady-State Stability and Maximum Output Power of a Doubly-Fed Induction Generator,” Accepted by IEEE Transactions on Industrial Electronics. [17] C.M. Ong, Dynamic Simulation Of Electric Machinery, Pearson Education Taiwan Ltd. Feb 2005. [18] 劉昌煥,「交流電機控制」,東華書局,2005。 [19] G.A. Smith, C. Eng. and K.A. Nigim, “Wind-energy recovery by a static Scherbius induction generation,” IEE Proc., Vol. 128, Pt. C, No. 6, November 1981. [20] 翁川翔,「雙饋式感應發電機動態特性之模擬」,台灣大學電機所碩士論 文,2009。 | |
dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/47451 | - |
dc.description.abstract | 本論文之主要目的在研究雙饋式感應風力發電機與配電系統之併聯運轉。文中利用背對背之兩組變流器控制雙饋式感應發電機之工作特性,主要研究內容有兩點,第一為研究電力系統之變動對風力發電機的影響;第二為研究不同風速下風力發電機之最大功率追蹤。
首先針對風力機之特性及雙饋式感應發電機之特性進行分析,其次建立控制方塊圖,再利用脈波寬度調變技術搭配 PI控制器控制背對背變流器,以使雙饋式感應風力發電機同時具備穩定定子端電壓及輸出最大功率之能力。 模擬方面使用MATLAB○R/Simulink/SimPowerSystems軟體模擬整個系統。本論文將模擬出負載變動及風速變動下,雙饋式感應發電機之動態特性。 | zh_TW |
dc.description.abstract | Dynamic performance of a doubly-fed induction generator(DFIG) connected to a distribution system is investigated in this thesis using a back-to-back converter tocontrol the doubly-fed induction generator. Two major topics are covered in this
study. One is the effect of a disturbance in the power system on the dynamicperformance of the DFIG. The other is the maximum power point tracking(MPPT) ofthe DFIG under different wind speeds. The characteristics of wind turbine and doubly-fed induction generator are first studied. Then the control block diagram for the DFIG is established. The real andreactive power outputs of the DFIG are controlled by a back-to back converter using aPI controller and the pulse width modulation(PWM) technology. Dynamic simulations for the system subject to disturbances such as load changes and wind speed variations are conducted MATLAB○R/Simulink/SimPowerSystems. It is concluded from the simulation results that stator voltage can be effectively regulated and maximum power can be extracted from the wind turbine by theproposed DFIGcontroller. | en |
dc.description.provenance | Made available in DSpace on 2021-06-15T06:00:26Z (GMT). No. of bitstreams: 1 ntu-99-R97921053-1.pdf: 3499366 bytes, checksum: 0079bb115d5cf682024ffca0c4f757da (MD5) Previous issue date: 2010 | en |
dc.description.tableofcontents | 致謝.................................i
摘要...................................ii Abstract...............................iii 目錄..................................iv 圖目錄.................................vi 表目錄...............................viii 第一章 緒論............................1 1.1 研究背景............................1 1.2 文獻回顧............................1 1.3 研究方法與目的.........................2 1.4 論文內容介紹..........................2 第二章 基礎理論分析........................4 2.1 前言..............................4 2.2 電壓補償器原理.........................5 2.2.1 電壓穩定度........................6 2.2.2 電壓支撐.........................8 2.3 風力發電機最大功率追蹤.....................9 2.3.1 風力功率曲線.....................10 2.3.2 最大功率曲線.....................11 2.4 脈波寬度調變切換技術.......................11 2.4.1 弦式脈波寬度調變控制器...................12 2.4.2 變流器切換頻率之分析....................14 第三章 系統側變流器(GSI)分析....................15 3.1 前言............................15 3.2 同步旋轉座標轉換法.....................15 3.3 系統側變流器之控制.....................17 3.3.1 數學模型建立.....................17 3.3.2 系統側變流器控制方塊圖...................18 第四章 轉子側變流器(RSI)分析....................22 4.1 前言............................22 4.2 定子磁通導向(SFO)分析.....................22 4.3 風機最佳動態曲線......................24 4.4 轉子側變流器之控制.....................25 4.4.1 數學模型建立.....................25 4.4.2 轉子側變流器控制方塊圖...................27 4.5 向量關係.............................29 4.5.1 補償端電壓導向與定子磁通導向關係..............29 4.5.2 轉子電氣轉速與定子磁通導向關係............30 第五章 模擬結果與分析.....................31 5.1 前言............................31 5.2 模擬系統描述........................31 5.2.1 電壓等級及電流與功率流向定義................32 5.2.2 風機參數..........................33 5.2.3 感應發電機參數.......................33 5.2.4 系統線路元件參數......................34 5.3 負載變動模擬........................34 5.4 最大功率追蹤模擬......................41 5.4.1 操作點模擬.........................41 5.4.2 低風速至高風速之模擬結果...............42 5.4.3 高風速至低風速之模擬結果...............49 5.4.4 總諧波失真量.....................56 5.4.5 風速變動模擬結果討論....................57 第六章 結論.............................60 6.1 結論............................60 6.2 未來研究方向........................61 參考文獻...............................62 作者簡介...............................64 | |
dc.language.iso | zh-TW | |
dc.title | 雙饋式感應風力發電機與配電系統之併聯運轉 | zh_TW |
dc.title | Doubly-fed Induction Generator Connected to Distribution Systems | en |
dc.type | Thesis | |
dc.date.schoolyear | 98-2 | |
dc.description.degree | 碩士 | |
dc.contributor.oralexamcommittee | 楊金石,陳偉倫,張忠良,劉添華 | |
dc.subject.keyword | 風力發電,雙饋式感應發電機,配電系統,最大功率追蹤,背對背變流器,脈波寬度調變, | zh_TW |
dc.subject.keyword | wind energy conversion,duubly-fed induction generator,distribution systems,maximum power point tracking,back-to-back converter,pulse width modulation, | en |
dc.relation.page | 64 | |
dc.rights.note | 有償授權 | |
dc.date.accepted | 2010-08-17 | |
dc.contributor.author-college | 電機資訊學院 | zh_TW |
dc.contributor.author-dept | 電機工程學研究所 | zh_TW |
顯示於系所單位: | 電機工程學系 |
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