[10] M. Alshamali and B. Fox, “Unsymmetrical Faults and Their Potential for Nuisance Tripping of Embedded Generators,” IEE Seventh International Conference on Power System Protection, No. 479, Apr. 2001, pp. 238-241.
[11] Barry Pagel, “Energizing International Drive”, Transmission & Distribution World, April 2000, pp. 18-29
[12] M. T. Doyle, “Reviewing the Impacts of Distributed Generation on Distribution System Protection,” IEEE Power Engineering Society Summer Meeting, Vol. 1, pp. 103-105.
[13] C. W. So and K. K. Li, “Protection Relay Coordination on Ring-fed Distribution Network with Distributed Generations,” IEEE Proceedings Region 10 Conference on Computers, Communications, Control and Power Engineering, Vol. 3,Oct. 2002, pp. 1885-1888.
[14] A. A. Girgis and S. M. Brahma, “Effect of Distributed Generation on Protective Device Coordination in Distribution System,” IEEE LESCOPE Large Engineering Systems Conference on Power Engineering,Jul. 2001, pp. 115-119.
[15] J. R. Ubeda, Rodriguez Garcia, and M. A. R., “Reliability and Production Assessment of Wind Energy Production Connected to the Electric Network Supply,” IEE Proceedings Generation, Transmission and Distribution, Vol. 146, Issue 2, Mar. 1999, pp. 169-175.
[16] N. Hadjsaid, J. Canard, and F. Dumas, “Dispersed Generation Impact on Distribution Networks,” IEEE Computer Application in Power, Vol. 12, Issue 2, Apr. 1999, pp. 22-28.
[17] S. Persaud, B. Fox, and D. Flynn, “Impact of Remotely Connected Wind Turbines on Steady State Operation of Radial Distribution Networks,” IEE Proceedings - Generation, Transmission and Distribution, Vol. 147, Issue 3, May 2000, pp. 157-163.
[18] J. E. Kim and J. S. Hwang, “Islanding Detection Method on Distributed Generation Units Connected to Power Distribution System,” IEEE PowerCon Proceedings, International
Conference on Power System Technology, Vol. 2, Dec. 2000, pp. 643-647.
[19] T. E. Kim and J. E. Kim, “Voltage Regulation Coordination of Distributed Generation System in Distribution System,” IEEE Power Engineering Society Summer Meeting,Vol. 1,Jul.
2001, pp. 480-486.
[20] S.II Jang, K. H. Kim, “An Islanding Detection Method for Distributed Generations Using Voltage Unbalance and Total Harmonic Distortion of Current.” IEEE Trans. on Power Delivery, Vol. 19, Issue 2, Apr. 2004, pp. 745-752.
[21] S. K. Salman, D. J. King, and G. Weller, “New Loss of Main Detector Algorithm for Embedded Generation Using Rate of Change of Voltage and Change in Power Factors,” IEE Seventh International Conference on Power System Protection, Apr. 2001, pp. 82-85.
[22] S. K. Salman, “Detection of Embedded Generator Islanding Using Elliptical Technique,”
IEEE Sixth International Conference on Power System Protection, No. 434, Mar. 1997, pp.
103-106.
[23] M. Guillot, C. Collombet, P. Bertrand, and B. Gotzig, “ Protection of Embedded Generation Connected to a Distribution Network and Loss of Mains Detection,” IEE 16th International Conference and Exhibition on Electricity Distribution, Vol. 4, No. 482, Jun. 2001, pp. 18-21.
[24] S. J. Haslam, P. A. Crossley, and N. Jenkins, “Design and Evaluation of a Wind Farm Protection Relay,” IEE Proceedings - Generation, Transmission and Distribution, Vol. 146, Issue 1, Jun. 1999, pp. 37-44.
[25] A. Bhowmik, A. M. Maitra, S. M. Halpin, and J. E. Schatz, “Determination of Allowed Penetration Levels of Distributed Generation Resources Based on Harmonic Limit Consideration,” IEEE Trans. on Power Delivery, Vol. 18, No. 2, Apr. 2003, pp. 619-624.
[26] S. II Jang and K. H. Kim, “Development of A Logical Rule-based Islanding Detection Method for Distributed Resources.” IEEE Power Engineering Society Winter Meeting, Vol. 2, Jun. 2002, pp. 800-806.
[27] S. J. Huang and F. S. Pai, “A New Approach to Islanding Detection of Dispersed Generators With Self-commuted Static Power Converters,” IEEE Trans. on Power Delivery, Vol. 15, Apr.
2000, pp. 500-507.
[28] L. J. Borle, M. S. Dymond, and C. V. Naray, “Development and Testing of A 20-kw Grid Interactive Photovoltaic Power Conditioning System In Western Australia,” IEEE Trans. on Industry Applications, Vol. 33, Mar. 1997, pp. 502-508.
[29] IEEE Power System Relaying Committee Report, “Distribution Line Protection Practices:
Industry Survey Analysis,” IEEE Trans. Power Application system, Vol. 102, pp. 3279-3287.
[30] C. M. Jose, Walmir Freitas, Wilsun Xu, and Andre Morelato, “Efficient Coordination of ROCOF and Frequency Relays for Distributed Generation Protection by Using the Application Region,” IEEE Transaction on Power Delivery.
[31] W.G. Hartmann “Adhering to Utility Interconnection Standards May Not Guarantee DG Security,” Beckwith Electric Company.2003
[32] Gerald Dalke, “Proctive Relaying When Distributed Generation Is Added to Your Circuit,”
Basler Electric Company, 2004
[33] A.K. Pradhan and A. Routray, “Fault Direction Estimation in Radial Distribution System Using Phase Change in Sequence Current,” Power Delivery, IEEE Transactions on Volume 22, Issue 4, Oct. 2007. pp.2065-2071.
[34] A. Girgis and S. Brahma, “Microprocessor-based Reclosing to Coordinate Fuse and Recloser in a System with High Penetration of Distributed Generation,” Power Engineering Society Winter Meeting, IEEE Volume 1, 27-31 Jan 2002, pp.453-458.
[35] J. Jäger, T. Keil, L. Shang and R. Krebs, “New Protection Co-ordination Methods in the Presence of Distributed Generation,” Developments in Power System Protection, 2004.
Eighth IEE International Conference on Volume 1, 5-8 April 2004 pp. 319-322.
[36] S. Chaitusaney and A. Yokoyama, “Reliability Analysis of Distribution System with Distributed Generation Considering Loss of Protection Coordination,” Probabilistic Methods Applied to Power Systems, 2006. PMAPS 2006. International Conference on 11-15 June 2006 pp.1-8.
[37] T. M. De Britto, D. R. Morais, M. A. Marin, J. G. Rolim,; H. H. Zurn and R. F. Buendgens,
“Distributed Generation Impacts on the Coordination of Protection Systems in Distribution Networks,” Transmission and Distribution Conference and Exposition: Latin America, 2004 IEEE/PES 8-11 Nov. 2004. pp. 623-628.
[38] Hui Wan, K.K. Li and K.P. Wong, “An Multi-Agent Approach to Protection Relay Coordination with Distributed Generators in Industrial Power Distribution System,” Industry Applications Conference, 2005. Fourtieth IAS Annual Meeting. Volume 2, 2-6 Oct. 2005, pp.830 - 836.
[39] 殷桂梁、孫美玲、肖麗萍,「分布式發電系統孤島檢測方法研究」,燕山大學學報,066004,
第 30 卷,第 1 期,2007 年,1 月。
[40] Jeraputra, C. and Prasad N. Enjeti, “Development of a Robust Anti-Islanding Algorithm for Utility Interconnection of Distributed Fuel Cell Powered Generation,” IEEE Transactions on Power Electronics, Vol. 19, No.5, September, 2004.
[41] 林保全、黃永福、羅天賜,「分散型發電單獨運轉偵測保護技術」,電力電子第 2 卷第 4 Frequency Relays for Distributed Generation Protection by Using the Application Region,”
IEEE Transaction on Power Delivery, Vol. 21, pp. 1878-1884, Oct. 2006.
[45] Freitas, W., W. Xu, C. M. Affonso, and Z. Huang, “Comparative Anlaysis Between ROCOF and Vector Surge Relays for Distributed Generation Applications,” IEEE Transaction on Power Delivery, Vol. 20, No.2, April 2005.
[46] Vieira, J. C. M., W. Freitas, Z. Huang, W. Xu and A. Morelato, “Formulas for Predicting the Dynamic Performance of ROCOF Relays for Embedded Generation Applications,” IEE Proc.-Gen. Trans. Dis. Vol. 153, No.4, July 2006.
[47] Redfern, M. A., J. I. Barrett and O. Usta, “A New Loss of Grid Protection based on Power
Measurements,” Proceeding of IEE 25-27th International Conference on Developments in Power System Protection, pp. 91-94, March 1997.
[48] Menon, V. and M. H. Nehrir, “A Hybrid Islanding Detection Technique Using Voltage Unbalance and Frequency Set Point,” IEEE Transactions on Power Systems, Vol. 22, No.1, February 2007.
[49] 陳清山、羅天賜,「Vector Surge 及 ROCOF 孤島保護電驛之模擬分析」,第 26 屆電力工 程研討會,民國 94 年 12 月 9 日。
[50] 黃盛豐、楊慶祥,工業配線實習高壓篇,全華科技圖書股份有限公司,民國 94 年 11 月。
[51] Yang, J. Z. and C. W. Liu, “A New Family of Measurement Technique for Tracking Voltage Phaser, Local System Frequency, Harmonics and DC Offset,” IEEE Power Engineering Society Summer Meeting, Vol. 3, pp.1327-1332, July 2000.
[52] Walling, R. A. and R. Saint, “Summary of Distributed Resources Impact on Power Delivery System,” IEEE Transactions on Power Delivery, Vol. 3, Issue: 99, pp.1-11, 2003.
1 (英文) 7th WSEAS International Conference on Power Systems 發表
論文 題目
(中文) 常閉環路式配電系統之效能評估
(英文)Performance Assessment for Normally Closed-loop Type Distribution Power Systems
Wang Zhixin 之演講,題目為「The Key Technology of Offshore Wind Energy Development and Practice in China」,其主要內容在於闡述離岸式風力發電優於駐岸式風力發電,及中 國大陸目前及未來於此領域之發展。15:30 開始本日之議程,主要皆聽取與風能與太陽 能相關之論文,如日本 Prof. Arai 所發表之”風力變動下之風力發電電壓模式”及華北電力 學院 Dr. Kong 所發表之多部 MW 等級風力發電機組之最佳功率追蹤控制策略。17:30 開 始,則擔任「Load Magement and Power Systems」單元之主持人,共有九篇文章發表,
包括本人之論文「常閉環路式配電系統之效能評估」,其中有二篇缺席,本日議程約於 20:00 結束。
九月十六日 09:00 開始之議題以模糊控制、基因演算法與智能技術為主,應用於配電 所與變電所之自動化系統,如日本 Dr. Yamakawa 之「Fuzzy Control Shunt Capacitors Applied in Distribution Feeders」與韓國 Prof. Lee 之「A Study on the Expert System to Identify Topological Error in Distribution Automation Systems」。11:00 開始則係由本校吳啟 瑞教授所主持,有關電力品質、電力損失及電磁評估等相關之論文發表,包括吳教授之”
三相電壓閃爍之等效評估法”及我國海洋大學 Dr. Wang 之”應用混合差分法於電力系統 穩定器之設計”。
九月十七日之議程至 11:30 才開始,主要以電力系統之監視與保護為主,包括 Mr.
Francesco 之「A new Distance relay Based on a Weighted Recursive Least-square
Algorithm」、Dr. Wong 之「Partial Discharge Signal Sensing on Overhead Conductors」及本 校博士班研究生 Mr. Wang 之「Impact of Distributed Generation on Voltage Reguration by