本計畫經現場實測資料,對於超出管制標準甚多之各級諧波電 流,提出被動式濾波器之規劃方式(決定濾波器的型式、組數及其重 要參數),以有效消除諧波電流;而在電流三相不平衡方面,由本分 析報告得知,無論是在電信機房抑或捷運機房,其電壓及電流三相不 平衡率均相當嚴重,雖濾波器之設置無法解決三相不平衡問題,但或 許可以利用其他如特殊三相變單相或兩相的變壓器等方式解決;另 外,在最佳化理論部分,本計畫所應用之蟻行演算法,相較於其他最 佳化方法,是否為最經濟之方式;或者是否可以利用其他演算法之部 分優點,重新思考並修改本最佳化方法,以最經濟之方式,獲得諧波 污染之有效改善。相信此研究的完成將可大為改善高壓被動式諧波濾 波器的性能及對電力品質的提昇有所貢獻。
五、計畫成果自評
本 計 畫 於 第 三 年 度 之 執 行 期 限 內 , 為 求 設 計 資 料 之 真 實 性,以 現 場 量 測 之 方 式,對 於 諧 波 問 題 提 出 分 析 與 改 善 報 告 , 研 究 成 果 可 供 工 業 配 電 系 統 之 諧 波 改 善,使 其 含 有 諧 波 污 染 之 配 電 系 統,於 電 力 品 質 及 設 備 建 構 成 本 方 面 可 以 獲 得 改 善,且 有 應 用 價 值 , 整 理 後 適 合 在 學 術 期 刊 上 發 表 。
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六、參考文獻
[1] IEEE Std. 519-1992, IEEE Recommended Practices and Requirements for Harmonic Control in Electrical Power Systems.
[2] L. Benchaita, S. Saadate, A. Salem nia, “A Comparison of Voltage Source and Current Source Shunt Active Filter by Simulation and Experimentation”, IEEE Trans. on Power Systems, Vol. 14, No. 2, pp.642-647, May 1999.
[3] E. H. Watanabe, R. M. Stephan, M. Aredes, “New Concepts of Instantaneous Active and Reactive Powers in Electrical System with Generic Loads”, IEEE Trans.
on Power Delivery, Vol. 8, No. 2, pp.697-703, 1993.
[4] Y. Hayachi, N. Sato, K. Takahashi, “A Novel Control of a Current Source Active Filter for AC Power System Harmonic Compensation”, IEEE Trans. on Industry Applications, Vol. 27, No. 2, pp.380-384, 1991.
[5] V. B. Bhavaraju, P. Enjeti, “A Fast Active Filter to Correct Line Voltage Sags”, IEEE trans. on Industrial Electronics, Vol. 41, No. 3, pp.333-338, 1994.
[6] Robert L. Almonte, A. Wayne Ashley, “Harmonic at the Utility Industrial Interface:
A Real World Example”, IEEE Trans. on Industry Applications, Vol. 31, No. 6, pp.1419-1426, November/December 1995.
[7] J. S. Arora, A. I. Chahande and J. K. Paeng, “Multiplier Methods for Engineering Optimization”, International Journal for Numerical Methods in Engineering, Vol.
32, pp.1485-1525, 1991.
[8] S. R. Mendis, D. A. Gonzalez, “Harmonic and Transient Overvoltage in Arc Furnace Power Systems”, IEEE Trans. on Industry Applications, Vol. 28, No. 2, pp.336-342, March/April 1992.
[9] Syed M. Peeran, Creg W. P. Cascadden, “Application, Design, and Specification of Harmonic Filter for Variable Frequency Drives”, IEEE Trans. on Industry Applications, Vol. 31, No. 4, pp.841-847, July/August 1995.
[10] J. A. Bonner, W. M. Hurst, R.G. Rocamora, R. F. Dudley, M. R. Sharp, J. A.
Twiss, “Selecting Rating for Capacitors and Reastors in Applications Involving Multiple Single-Tuned Filters”, IEEE Trans. on Power Delivery, Vol. 10, No. 1, pp.547-555, January 1995.
46
[11] Elham B. Makram, E. V. Subramaniam, Adly A. Girgis, Ray Catoe, “Harmonic Filter Design using Actual Recorded Data”, IEEE Trans. on Industry Applications, Vol. 29, No. 6, pp.1176-1182, November/December 1993.
[12] 曾乙申,「捷運系統主變電站與牽引動力變電站諧波量測」,第二屆電力電 子研討會,487-493頁,民國九十二年九月。
[13] 台北市政府捷運工程局,中和線供電系統特別技術規範,民國八十一年八月。
[14] Siemens/BES, Harmonic Analysis Study for MRT Chungho Line Project, Submittal No. 363ZAH-010, March 1994.
[15] 台灣電力公司,電力系統諧波管制暫行標準,民國八十二年六月。
[16] 台北市政府捷運工程局,新莊—蘆洲線供電系統特別技術規範,民國九十二 年二月。
[17] Kiyoshi Tsutsvi, Swutched Rectifier JTR, April 1986.
[18] 福峰公司,交換式直流電源設備操作手冊。
[19] 陳光明,「鋼鐵廠電力系統諧波分析與探討」,碩士論文,國立中正大學電 機研究所,民國九十三年。
[20] Tsai-Hsiang Chen and Jeng-Tyann Cherng “Optimal Phase Arrangement of Distribution Transformers connected to a Primary Feeder for System Unbalance Improvement and Loss Reduction Using a Genetic Algorithm,” Proceedings of the 21st International Conference on Power Industry Computer Applications, pp.145-151, May 1999.
[21] 郭政謙,「應用多目標規劃法之配電自動化決策軟體」,博士論文,國立台 灣科技大學電機所,民國八十七年。
[22] Tsai-Hsiang Chen. and Yung-Liang Cgang, “Integrated Models of Distribution Transformers and Their Loads for Three-phase Power Flower Analyses,” IEEE Trans. on Power Delivery, Vol. 11, No. 1, pp.507-513, January 1996.
[23] Cornelia Kawann, Alexander E. Emanuel, “Passive Shunt Harmonic Filters For Low and Medium Voltage: A Cost Comparison Study,” IEEE Trans. on Power Systems, Vol.11, No.4, pp.1825-1831, November 1996.
[24] James Will Gray, Frank J. Haydock, “Industrial Power quality Considerations When Installing Adjustable Speed Drive Systems,” IEEE Trans. on Industry Applications, Vol.32, No.3, pp.646-652, May/June 1996.
47
[25] Thomas E. Grebe, “Application of Distribution System Capacitor Banks and Their Impact on Power Quality,” IEEE Trans. on Industry Applications, Vol.32, No.3, pp.714-719, May/June 1996.
[26] M. Etezadi-Amoli and T. Florence, “Voltage and Current Harmonic Content of a Utility System- A Summary of 1120 Test Measurements,” IEEE Trans. on Power Delivery, Vol. 5, No. 3, pp.1552-1557, July 1990.
[27] T. A. Haskew, J. Ray, “Harmonic Filter Design and Installation: A Case Study with Resonance,” Electric Power Systems Research, Vol.40, pp.121-125 1997.
[28] Mark F. McGranaghan, David R. Mueller, “Designing Harmonic Filters for Adjustable-Speed Drive to Comply with IEEE-519 Harmonic Limits,” IEEE Trans.
on Industry Applications, Vol.35, No.2, pp.312-318, March/April 1999.
[29] Douglas Andrews, Martin T. Bishop, “Harmonic Measurement, Analysis, and Power Factor Correction in a Modern Steel Manufacturing Facility,” IEEE Trans.
on Industry Applications, Vol.32, No.3, pp.617-624, May/June 1996.
[30] Saad J. Merhej, William H. Nichols, “Harmonic Filtering for the Offshore Industry,” IEEE Trans. on Industry Applications, Vol.30, No.3, pp.533-542, May/June 1994.
[31] Chi- Jui Wu, Jung- Chen Chiang, and Ching- Jung Liao, “Investigation and Mitigation of Harmonic Amplification Problems Caused by Single-tend Filters,”
IEEE Trans. on Power Delivery, Vol.13, No.3, pp.800-806, July 1998.
[32] Elham B.Makram, E. V. Subramaniam, “Harmonic Filter Design Using Actual Recorded Data,” IEEE Trans. on Industry Applications, Vol.29, No.6, pp.1176-1183, November/December 1993.
[33] Thomas H. Ortmeyer and Khaled Zehar, “Distribution System Harmonic Design,”
IEEE Trans. on Power Delivery, Vol.6, No.1, pp.289-294, January 1991.
[34] R.F. Chu, Jin-Chen Wang, and Hsiao-Dong Chiang, “Strategic Planning of LC Compensators in Nonsinusoidal Distribution Systems,” IEEE Trans. on Power Delivery, Vol.9, No.3, pp.1558-1563, July 1994.
[35] Thomas H. Ortmeyer and Takashi Hiyama, “Distribution System Harmonic Filter Planning,” IEEE Trans. on Power Delivery, Vol.11, No.4, pp.2005-2012, October 1996.
[36] 胡中興,「配電系統的諧波分析與抑制策略」,博士論文,國立台灣科技大 學電機所,民國八十七年。
48
[37] A. M. Zahedi, A. E. Emanuel, “Optimum Location and Size of the LC Harmonic Filters in the Feeders with Uniformly Distributed Linear and Nonlinear Loads,”
Electric Power Systems Research, Vol.44, pp.127-136, 1998.
[38] 江榮城,「電力系統串並聯共振分析與諧波問題改善」,博士論文,國立台 灣科技大學電機所,民國八十七年。
[39] IEEE Task Force on Harmonics Modeling and Simulation, “Modeling and Simulation of the Propagation of Harmonics in Electric Power Networks, Part 1 &
2”, IEEE Trans. on Power Delivery, Vol. 11, No. 1, pp.452-474, January 1996.
[40] J. Arrillaga, D. A. Bradley, "Power System Harmonics", John and Sons, New York, l985.
[41] 李坤達,「考慮商品規格及內部保護協調之高壓大容量被動式諧波濾波器之 最佳設計」,碩士論文,私立中原大學,民國八十八年。
[42] M. Dorigo, V. Maniezzo, and A. Colorni, “Optimization by a Colony of Cooperating Agents,” IEEE Trans. on Syst. Man and Cybernetics, Vol. 26, pp.29-41, 1996.
[43] S. J. Huang, “Enhancement of Hydroelectric Generation Scheduling Using Ant Colony System Based Optimization Approaches”, IEEE Trans. on Energy Conversion, Vol. 16, pp.296-301, 2001.
[44] Y. H. Hou, Y. W. Wu, L. J. Lu, and X. Y. Xiong, “Generalized ant Colony Optimization for Economic Dispatch of Power Systems,” Power System Technology, pp.225-229, 2002.