研究生: |
王閔賢 Min-sian Wang |
---|---|
論文名稱: |
分散型發電併網運轉對配電系統常用電壓控制方法衝擊與影響研究 Study on the Impact of Interconnection of Distributed Generation on the Existing Voltage Control Methods |
指導教授: |
陳在相
Tsai-hsiang Chen |
口試委員: |
蕭弘清
Horng-ching Hsiao 蕭瑛東 Ying-tung Hsiao 許炎豐 Yen-feng, Hsu |
學位類別: |
碩士 Master |
系所名稱: |
電資學院 - 電機工程系 Department of Electrical Engineering |
論文出版年: | 2006 |
畢業學年度: | 94 |
語文別: | 中文 |
論文頁數: | 96 |
中文關鍵詞: | 分散型發電 、電壓控制 |
外文關鍵詞: | distributed generation, voltage control |
相關次數: | 點閱:446 下載:16 |
分享至: |
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報 |
本論文旨在研究分散型發電併網運轉對配電系統常用電壓控制方法之衝擊與影響,研究內容包括分散型發電併網運轉對OLTC變壓器電壓控制技術與台電RPDC電壓控制模式衝擊與影響。本論文先以商用套裝軟體Matlab/simulink建構一典型範例系統及開發配電系統各種常用電壓控制方法之控制系統方塊,針對分散型發電運轉功因、併網位置與考量2.5%電壓變動所能併接容量之影響因子進行模擬與評估。模擬結果可為後續因應對策研提及電壓品質維護之參考。
The main purpose of this thesis is to investigate the impact of interconnection of DG on the existing voltage control methods. The research focuses on the effects of DG interconnection on the control methods of OLTC transformer and Taipower’s RPDC. First of all, a software package Matlab/simulink was used to build a full-scale model of a typical distribution system and form the control blocks of various existing voltage control methods. Then, the sample system was simulated and analyzed by taken into account the power factor, the interconnection point, and the capacity of DG, and assumed the maximum voltage variation due to DG to be 2.5%. The research results are of values to the distribution engineers to maintain the voltage quality after DG interconnection.
[1] 台灣電力公司網站 http://www.taipower.com.tw/index.htm
[2] Global Wind Energy Council (GWEC), “Record year for wind energy:global wind power market increased by 40.5% in 2005”, February 2006.
[3] GWEC, Wind Force 12 “A blueprint to achieve 12% of the world’s electricity from wind power by 2020”, June 2005.
[4] European Wind Energy Association (EWEA), “Future prospects for wind power markets”, Nov. 2004.
[5] 陳在相、辜志承,「風力發電機與市電系統併聯之衝擊及其分析與模擬技術之研究」,民國九十四年四月。
[6] 余勝雄、張燕全,「我國風力發電應用現況及展望」,中國工程師學會會刊,第七十八卷,第五期,第17∼26頁,民國九十四年。
[7] IEEE Std 1547-2003, IEEE standard for interconnecting distributed resources with electric power systems.
[8] 日本電器協會,「分散型電源系統連繫技術指針」,2002年。
[9] I. Erlich, U.Bachmann, “Grid code requirements concerning connection and operation of wind turbines in Germany”, 2005.
[10] E.ON Netz , “Grid code for high and extra high voltage”, August 2003.
[11] VDEW, “Guidelines for the parallel operation of own energy generation systems with the middle voltage grid of the utility company”.
[12] VDN, “REA generating plants connected to the high and extra-high voltage network”, August 2004.
[13] Eltra, “Wind turbines connected to grids with voltages above 100 kV”, November 2004.
[14] Eltra, “Wind turbines connected to grids with voltages below 100 kV”, 19 May 2004.
[15] 台灣電力公司,「再生能源發電系統併聯技術要點」(修正草案),民國94年七月十二號。
[16] 配電技術手冊(二),架空配電線路計計,台灣電力公司,民國八十五年八月。
[17] Joon-Ho Choi and Jae-Chul Kim, “Advanced voltage regulation method of power distribution systems interconnected with dispersed storage and generation systems,” IEEE transactions on power delivery, Vol. 16, Issue 2, pp. 329 – 334, April 2001.