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| 研究生: |
蔡忠佑 Chung-yu Tsai |
|---|---|
| 論文名稱: |
架空配電饋線磁場分析與改善 Magnetic Field Analysis and Improvement of Overhead Distribution Feeder |
| 指導教授: |
吳啟瑞
Chi-Jui Wu |
| 口試委員: |
陳南鳴
Nan-Ming Chen 黃培華 Pei-Hwa Huang 陸臺根 Tai-Ken Lu 陳昭榮 Chao-Rong Chen |
| 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: | 2009 |
| 畢業學年度: | 97 |
| 語文別: | 中文 |
| 論文頁數: | 141 |
| 中文關鍵詞: | 架空配電饋線 、電力頻率磁場 、屏蔽 |
| 外文關鍵詞: | Overhead Distribution Feeders, Power-Frequency Magnetic Field, Shielding |
| 相關次數: | 點閱:170 下載:6 |
| 分享至: |
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本論文探討台電架空配電系統週遭所產生的電力頻率磁場的分佈情形,並且研討可行的抑低之技術。首先利用EMDEX II磁場量測儀器針對架空配電饋線、及引上(下)桿電纜、地下配電饋線、變壓器、以及開關設備周圍進行實地量測,評估空間架構及用電量大小對磁場之影響,並確定主要及次要磁場源,作為後續提出改善技術的依據。接著使用Flux3D電磁數值分析程式,依照實際裝置與配線方式建立架空配電饋線、及引上(下)桿配電饋線的磁場計算模型,探討磁場的分佈並且針對主要磁場源實行相序排列、以及利用金屬屏蔽板來抑低主要磁場來源。
This thesis is used to evaluate the magnetic field conditions around the overhead distribution feeders and connection pole distribution feeders of the overhead distribution feeders and the underground distribution lines. It is required to develop the computation programs for use in magnetic field analysis and mitigation methods. At first, it is using the EMDEX II to obtain the characteristics of magnetic field produced by distribution feeders, transformers, and switching devices. It will identify the major magnetic field source and the secondary one for the design of mitigation technology. The feasible strategies to reduce the magnetic field are important to improve the performance of distribution systems. At secondary, using the software of FLUX3D causes the distribution system in accordance with reality condition. It is to finish the model of the overhead distribution feeders and connection pole distribution feeders. Finally, it is considering spread of the magnetic field. It reduces technology of the magnetic field by the best method and board of the metal.
[1] 吳啟瑞、王珠麗,「電業之變電設施磁場分部之研究」,台灣電力股份有限公司研究報告(TPC-546-92-2106-07),臺北,臺灣,民國九十四年六月。
[2] 吳啟瑞、楊成發,「輸電線路三維磁場計算程式應用開發與抑低技術之研究」,台灣電力股份有限公司研究報告,(TPC-546-92-2101-9404),臺北,臺灣,民國九十四年十一月。
[3] The International Agency for Research on Cancer (IARC), “Evaluation of carcinogenic risks to unmans static and extremely low frequency electric and magnetic fields”, IARC Monographs, Vol. 80, June 2001.
[4] 世界衛生組織第322號文件「電磁場與公共衛生-極低頻電磁場暴露」,發表日期:2007年6月
[5] IEEE Std 644-1994: Standard Procedures for Measurement of Power frequency Electric and Magnetic Fields from AC Power Lines.
[6] 環保署網站,「非屬原子能游離輻射管制網」,http://ivy3.epa.gov.tw/NonIonized_Net/EME/safety.aspx.
[7] Maracas, K.B., “Electric and magnetic fields”, Potentials, IEEE, Volume 13, Issue 2, April 1994.
[8] Kong, S., Du, Y. and Bunnett, J., “Experiment on finite-width planar sheets for ELF magnetic field shielding”, Electromagnetic Compatibility, 1999 International Symposium on 17-21 May 1999 .
[9] IEEE Magnetic Fields Task Force of the AC Fields Working Group, “A protocol for spot measurements of residential power frequency magnetic fields”, Power Delivery, IEEE Transactions on Volume 8, Issue 3, July 1993.
[10] Buccella, C., Feliziani, M. and Fuina, V., “ELF magnetic field mitigation by active shielding”, Industrial Electronics, 2002. ISIE 2002. Proceedings of the 2002 IEEE International Symposium on Volume 3, 26-29 May 2002.
[11] 吳啟岳,板金材料,東大圖書有限公司,民國六十五年。
[12] 吳啟岳,金屬材料,台北,東大圖書有限公司,民國六十五年。
[13] 李玉龍,板金材料,大中國圖書公司,民國六十六年。
[14] 吳裕慶,金屬材料學,台北,大中國圖書公司,民國六十六年。
[15] 張宏展、吳瑞南、陳在相譯,電力系統分析,東華書局有限公司,民國九十三年。
[16] 台灣電力公司業務處編,配電技術手冊(二)-架空配電線路設計,民國七十二年。
[17] 台灣電力公司業務處編,配電技術資料(三)-架空線路裝置標準及組件代號,民國七十五年。
[18] 台灣電力公司業務處編,配電技術手冊(五)-地下線路裝置標準及組件代號,民國七十五年。
[19] 台灣電力公司業務處編,配電技術資料(二)-地下配電器材,民國八十一年。
[20] Celozzi, S., “Active compensation and partial shields for the power-frequency magnetic field reduction”, Electromagnetic Compatibility, 2002 IEEE International Symposium on Volume 1, 19-23 Aug. 2002.
[21] Hiles, M.L., Olsen, R.G., Holte, K.C., Jensen, D.R. and Griffing, K.L., “Power frequency magnetic field management using a combination of active and passive shielding technology”, Power Delivery, IEEE Transactions on Volume 13, Issue 1, Jan. 1998.
[22] Mizuno, Y. and Naito, K., “Effect of power frequency magnetic field on image of computer monitor”, Electric Power Engineering, 1999. PowerTech Budapest 99. International Conference on 29 Aug.-2 Sept. 1999.
[23] Zaffanella, L., “School Exposure Assessment Survey”, California EMF Program, interim results, Novmber,1997.
[24] Olsen, R.G., “Electromagnetic fields from power lines”, Electromagnetic Compatibility, 1993. Symposium Record. 1993 IEEE International Symposium on 9-13 Aug. 1993.
[25] 陳韋達,「電力電纜線路磁場之降低對策」,碩士論文,國立台灣科技大學碩士論文,民國九十四年六月。
[26] 李東、王金墩、王珠麗、李富雄,「電磁場控訴案例之整理分析」,台電工程月刊,第五九六期,pp. 35-44,民國八十七年四月。
[27] 李中一、林瑞雄,「第二期極低頻電磁場暴露與癌症之流行病學-文獻探討」,勞工安全衛生研究所季刊,pp.1-16,民國八十四年五月。
[28] L.Hasselgren,E.Moller and Y.Hamnerius, ”Calculation of Magnetic Shielding of a Substation at Power Frequency Using FEM” , IEEE Transactions on Power Delivery ,Vol.9, No.3,July 1994.
[29] L.Hasselgren,E.Moller and Y.Hamnerius,”Three Dimensional FEM Calculations on Shielding of Power Frequency Magnetic Fields from a Substation”, IEEE Transactions on Power Delivery,1993.
[30] Robert G. Olsen and Paul S. Wong, “Characteristics of Low Frequency Electric and Magnetic Fields in The Vicinity of Electric Power Line”, IEEE Transactions on Power Delivery, Vo7, No.4,October 1992.
[31] Ruan Jiangjun, Huang Jinghui,Chen Yunping and Liu Qisheng ,”Shielding effectiveness of Shielding Cabinet in Substation with 3D Eddy Current FEM Calculation”, IEEE Transactions on Power Delivery, 2002.
[32] 吳啟瑞、楊成發,「台灣銀行總行西大樓高壓變電站電力頻率磁場改善研究計畫評估報告」,國立台灣科技大學,民國九十年。
[33] Curt R. Dunnam, “Magnetic Fields Sources Surveys and Solutions,” Linear Research Associates, Trumansburg, NY.
[34] J.R. Gauger and T.R. Johnson and D.A. Shafer, “EMF RAPID Program, Project #8: Evaluation of Field Reduction Technologies,” Martin-Marietta Energy Systems.
[35] Ener Salinas, “Mitigation of Power-Frequency Magnetic Fields With Applications to Substations and Other Parts of the Electric Network,” Chalmers Library.
[36] IEEE Working Group, “Power Line Harmonic Effects on Communication Line Interference,” IEEE Trans. on Power Apparatus and Systems, Vol. PAS-104, No.9, pp.2578-2587, Sept. 1985.
[37] C. M. Wiggins, D. E. Thomas, F. S. Nickel, and S. E. Wright, “Transient Electromagnetic Interference in Substations,” IEEE Trans. on Power Delivery, Vol.9, No.4, pp.1869-1881, Oct. 1994.
[38] M. J. Frazier and J. Dabkowski, “Magnetic Coupled Longitudinal Electric Field Measurements on Two Transmission Lines,” IEEE Trans. on Power Apparatus and Systems, Vol.PAS-104, No.4, pp.933-940, April 1985.
[39] 林建男,「電力系統電磁相容之研究」,碩士論文,國立台灣科技大學碩士論文,民國八十九年。
[40] 劉佳益,「電力頻率磁場之改善與分析」,碩士論文,國立台灣科技大學碩士論文,民國九十二年六月。
[41] 陳志誠,「電力頻率磁場之改善與分析」,碩士論文,國立台灣科技大學碩士論文,民國九十三年六月。
[42] 王柏智,「電纜連接站電力頻率磁場屏蔽分析」,碩士論文,國立台灣科技大學碩士論文,民國九十五年六月。
[43] 張洪樑,「地下電纜線路電力頻率磁場分析與改善」,碩士論文,國立台灣科技大學碩士論文,民國九十五年六月。
[44] 周佳德,「161kV地下電纜涵洞磁場之降低對策」,碩士論文,國立台灣科技大學碩士論文,民國九十六年六月。
[45] 楊坤昇,「架空線路與地下管路磁場分析與改善」,碩士論文,國立台灣科技大學碩士論文,民國九十六年六月。
[46] 洪建斌,「地下電纜磁場改善與機率分析」,碩士論文,國立台灣科技大學碩士論文,民國九十七年六月。
[47] Coulomb, J., Du Terrail, Y. and Meunier, G., “Flux3D, a finite element package for magnetic computation”, Magnetics, IEEE Transactions on Volume 21, Issue 6, Nov 1985.
[48] Meunier, G.; Sabonnadiere, J.C.; Coulomb, J.L., “The finite element post-processor of FLUX3D, Magnetics, IEEE Transactions on Volume 27, Issue 5, Sep 1991.
[49] Flux3D User’s Guide Version3.20, MAGSOFT Corporation, 2000.
[50] Cheng, David k., “Field and Wave Electromagnetics”, Addison-Wesley Publishing Company,1989.
[51] 林惠民、吳建賢、鄭富升、林家宏、黃琮暉、何承哲,「輸電線路磁場抑制策略之研究」,中華民國第二十七屆電力工程研討會,民國九十五年。
[52] 楊成發、楊金石,「輸電地下電纜多回線管路共設時之送電容量研究」,台灣電力股份有限公司研究報告(TPC-546-92-2103-07),民國九十三年三月。
