進階搜尋


   電子論文尚未授權公開,紙本請查館藏目錄
(※如查詢不到或館藏狀況顯示「閉架不公開」,表示該本論文不在書庫,無法取用。)
系統識別號 U0026-1407201519165200
論文名稱(中文) 深度磁場感應加熱線圈設計與分析
論文名稱(英文) Design and Analysis of Deep Magnetic Field Generator Coil for Induction Heating
校院名稱 成功大學
系所名稱(中) 電機工程學系碩士在職專班
系所名稱(英) Department of Electrical Engineering (on the job class)
學年度 103
學期 2
出版年 104
研究生(中文) 洪家銘
研究生(英文) Chia-Ming Hung
學號 N27011210
學位類別 碩士
語文別 中文
論文頁數 62頁
口試委員 指導教授-戴政祺
召集委員-王冠智
口試委員-黃世杰
口試委員-尤崇智
中文關鍵字 腫瘤熱治療  深度磁場  電磁加熱線圈  匝長比 
英文關鍵字 electromagnetic thermotherapy  induction heating  induction coil  finite element method  turn density 
學科別分類
中文摘要 低頻電磁熱系統應用於腫瘤熱治療已有多年的研究,其中深度磁場的設計是為長久以來主要課題與難處,若是磁場作用距離不足便無法針對位處人體深層腫瘤作有效治療,所以本深度磁場之改良型電磁加熱線圈設計就是為改善這問題而所作的研究,其主要思考方向是藉由線圈結構的改良來強化磁場,更進一步的提高磁場深度與加熱效能。本論文之目的是為探討螺線管線圈匝長比與深度磁場間的關係,藉由有限元素分析法模擬其磁場分布,並實際繞製不同匝長比線圈作加熱實驗,比較實測數值驗證線圈加熱深度與能力,結果顯示高匝長比線圈有更強的加熱效果,所以提高匝長比來提升線圈效能在此驗證是為可行。本論文研究結果可做為電磁加熱線圈設計之參考。
英文摘要 The application of low-frequency electromagnetic thermal system to tumor thermotherapy has been studied for years, where the design of deep magnetic field applicator has long been the key issue and dilemma. A needle with insufficient functioning distance for magnetic field could not effectively treat a tumor deeply in a human body. The improved electromagnetic heating coil with deep magnetic field is designed to resolve such a problem. The magnetic field is reinforced by the improvement of coil structure so as to enhance the magnetic field depth and the heating efficiency. Aiming at discussing the relationship between the turn density of solenoid coil and the deep magnetic field, finite element analysis (COMSOL™) is applied to simulate the magnetic field distribution. The coil with distinct turn density is made for the heating experiments, and the measured values are compared to verify the heating depth and ability of the new designed coils. The results show that coils with high turn-length ratio present heating effects. The research results could be the reference for the design of various electromagnetic heating coils.
論文目次 摘 要 I
誌謝 VI
目錄 VII
圖目錄 IX
表目錄 XI
第一章 緒論1
1-1 研究背景1
1-2國內外文獻回顧2
1-3研究動機與目的3
1-4 論文架構3
第二章 感應加熱系統原理及分析 4
2-1前言4
2-2電磁熱感應加熱物特性5
2-3高匝長比線圈電磁分析7
第三章 線圈設計與磁場模擬分析12
3-1 前言 12
3-2 線圈設計及分析 12
3-2-1 線圈電感計算 16
3-3 線圈與感磁針體間等效電路分析17
3-4 電磁場模擬分析20
3-4-1 磁通量取樣23
3-4-2 內徑7 cm線圈組磁場模擬數據分析24
3-4-3內徑8 cm線圈組磁場模擬數據分析29
3-5 模擬實驗結論35
第四章 加熱實驗結果與討論37
4-1 高頻感應加熱硬體介紹37
4-2 高匝比線圈組及加熱針具38
4-2-1 加熱實驗條件 38
4-2-2 SUS420 深層兩兩段針
4-3 加熱實驗結果 40
4-3-1 內徑7 cm線圈組加熱實驗41
4-3-2內徑8 cm線圈組加熱實驗 46
4-4 內徑7 cm線圈組與8 cm比較51
4-5 實驗結論53
第五章 結論與未來展望55
5-1結論55
5-2未來展望55
參考文獻57
自述62

參考文獻 [1]辛達塔.穆克吉,「萬病之王」,時報出版社,2012。
[2]S. N. Goldberg, G. S. Gazelle and P. R. Mueller, "Thermal ablation therapy for focal mailignancy:a unified approach to underlying principles, techniques, and diagnostic imaging guidance",American Journal of Roentgenology,Diagnostic Imaging and Related Sciences, vol.174, pp. 323-331, 2000.
[3]S. N. Goldberg, "Radiofrequency tumor ablation: principles and techniques", European Journal Ultrasound, vol.13, pp. 129-147, 2001.
[4]H. Rhim, S. N. Goldberg, G. D. Dodd III, L. Solbiati, H. K. Lim, M. Tonolini, and O. K. Cho, "Essential techniques for successful radio-frequency thermal ablation of malignant hepatic tumors", Radiographics, vol.21, pp. 517-535, 2001.
[5]S. A. Curley, "Radiofrequency ablation of malignant liver tumors", Annals Surgical Oncology, vol.10, pp. 338-347, 2003.
[6]R. Girelli, I. Frigerio, R. Salvia, E. Barbi, P. Tinazzi Martini and C. Bassi, "Feasibility and safety of radiofrequency ablation for locally advanced pancreatic cancer", British Journal Surgery, vol.97, pp. 220-225, 2010.
[7]E. Pikoulis, E. Felekouras, I. Papaconstantinou, M. Kontos, E. Prassas, I. Griniatsos, C. Bacoyiannis, P. Pappa, A. Papalois, C. Tsigris, A. Giannopoulos, E. Papalambros, J. Bramis and E. Bastounis“,A novel spleen-preserving laparoscopic technique using radiofrequency ablation in a porcine model”, Springer ScienceBusiness Media, 2005.
[8]F. Wu, W. Chen, J. Bai, J. Zou, Z. Wang, H. Zhu and Z. Wang, “Tumor vessel destruction resulting from high-intensity focused ultrasound in patients with solid malignancies”, Ultrasound in medicine & biology, vol.28, pp. 535-542, 2002.
[9]F. Tascioglu, S. Kuzgun, O. Armagan and G. Ogutler, "Short-term effectiveness of ultrasound therapy in knee osteoarthritis", Journal of International Medical Research, vol.38, pp. 1233-1242, 2010.
[10]A. Giombini, A. Di Cesare, M. Ripani and N. Maffulli, "Localized hyperthermia induced by microwave diathermy in osteoarthritis of the knee: a randomized placebo-controlled double-blind clinical trial",Knee Surgery Sports Traumatology Arthroscopy, vol. 19, pp. 980-987, 2011.
[11]S. Bae, S.W. Lee, T. Yasushi, Y. H. Jo and S.G. Lee, “AC Magnetic-Field-Induced Heating and Physical Properties of Ferrite Nanoparticles for a Hyperthermia Agent in Medicine”,IEEE Transactions on Nanotechnology, vol.8, pp. 86-94, 2009.
[12]X. Z. Lin, R. Zuchini, H. W. Tsai, C. Y. Chen, C. H. Huang and S. C. Huang, "Electromagnetic thermotherapy using fine needles for hepatoma treatment", European Journal Surgery Oncology, vol. 37, pp. 604-610, 2011.
[13]J. B. Mathieu and S. Martel, "MRI-based magnetic navigation of nanomedical devices for drug delivery and hyperthermia in deep tissues",IEEE-NANO 2007.7th Conference on Nanotechnology, pp. 312-315, 2007.
[14]M. Li, D.X. Yin, L. Wang and J.W. Li, “Preliminary Experimental Investigations on Near Field Breast Cancer Thermotherapy”, IEEE IMWS-BIO, 2013.
[15]H.Y. Tseng, C.Y. Lee, Y.H. Shih, X.Z. Lin and G.B. Lee, “Localized Heating of Tumor Cells Utilizing Superparamagnetic Nanoparticles”, IEEE International Conference on Nano/Micro Engineered and Molecular Systems, 2007.
[16]李定宣、丁增敏,「現代高頻感應加熱電源工程設計與應用」,中國電力出版社,2010。
[17]陳明坤、戴政祺,「半橋式串聯共振變流器於磁性奈米粒子熱療系統之應用」,生物醫學工程科技研討會暨國科會醫學工程學門成果發表會,2006。
[18]陳俊成,「應用於奈米磁粒之半橋串聯諧振式雙頻耦合熱療加熱系統」,國立成功大學電機工程學系碩士論文,2008。
[19]賴耿陽,「高週波工業應用技術」,復漢出版社,1987。
[20]陳熹棣,「高週波基礎理論與應用 焠火、微波加熱、電漿、超音波加工」,全華出版社,1995。
[21]張勳皓,「用於腫瘤熱療之高效率磁場感應加熱技術」,大同大學電機工程學系碩士學位論文,2010。
[22]陳建良,「變頻半橋感應式磁奈米粒熱療加熱系統」,國立成功大學電機工程學系碩士論文,2007。
[23]陳建興,「全橋相移式高頻溫控感應加熱器之設計與研製」,中原大學電機工程學系碩士學位論文,2005。
[24]蕭正昌,「應用於腫瘤熱療之奈米磁粒加熱系統研製」,國立成功大學電機工程學系碩士論文,2006。
[25]徐彬翔,「高頻感應加熱器之DSP數位控制設計」,國立成功大學電機工程學系碩士論文,2011。
[26]陳勁克,「以DSP建構數位監控系統於腫瘤電磁熱療加熱器」,國立成功大學電機工程學系碩士論文,2011。
[27]C. C. Chen, C. C. Tai and J. L. Chen, "The design of an applicator and half-bridge series-resonant type heating system for magnetic nanoparticle thermotherapy", IEEE International Magnetics Conference, 2009.
[28]曾子庭,「電磁熱療系統之即時數位電流回授控制」,國立成功大學電機工程學系碩士論文,2012。
[29]黃則通,「以DSP設計模糊感應加熱控制器」,逢甲大學電機工程學系碩士學位論文,2009。
[30]游本傳,「15-kW數位控制式高週波加熱系統之自動頻率追蹤」,國立成功大學電機工程學系碩士論文,2012。
[31]林璟宏,「金屬針生物組織電磁熱燒灼微創治療系統介面設計與溫升分析」,國立成功大學電機工程學系碩士論文,2013。
[32]蔡志遠,「電磁感應加熱系統之電路模擬分析與溫度預測模型建置」,國立成功大學電機工程學系碩士論文,2014。
[33]戴書哲,「電磁熱療系統之自調式模糊溫度控制」,國立成功大學電機工程學系碩士論文,2014。
[34]J. S. R. Jang and C. T. Sun, "Neuro-fuzzy modeling and control", Proceedings of the IEEE, vol.83, pp. 378-406, 1995.
[35]S. Yugang, W. Xueqin, D. Cuijing and S. Yue, "Fuzzy Control Method with Forward Feedback Integration for Table Furnace",The 38th Annual Conference Proceedings of the SICE Annual, pp. 1193-1197, 1999.
[36]K. R. Mudi and R. N. Pal, "A Robust Self-Tuning Scheme for PI- and PD-Type Fuzzy Controllers", IEEE Transaction Fuzzy Systems, vol.7, pp. 2-16, 1999.
[37]孔維彬,「奈米磁粒感應加熱線圈設計與聚磁效應模擬」,國立成功大學電機工程學系碩士論文,2009。
[38]林子翔,「奈米粒熱療加熱系統之中低頻磁場聚焦探頭設計」,國立成功大學電機工程學系碩士論文,2009。
[39]C. F. Huang, X. Z. Lin and W. H. Lo, "Design and Construction of a Hyperthermia System with Improved Interaction of Magnetic Induction-Heating",Annual International Conference of the IEEE, Engineering in Medicine and Biology Society (EMBC), pp. 3229-3232, 2010.
[40]G. Jia, U. C. Son and H. C. O, "Design and Application of Main-Frequency Inductive Coil", Advances in Energy and Power Engineering, vol.1, pp. 152-157, 2013.
[41]A. Boadi, Y. Tsuchida, T. Todaka and M. Enokizono, "Designing of Suitable Construction of High-Frequency Induction Heating Coil by Using Finite-Element Method", IEEE Transactions on Magnetics, vol.41, pp. 4048-4045, 2005.
[42]L. C. Meng, K. W. E. Cheng,K. W. Chan and Y. Lu,"Variable turn pitch coils design for heating performance enhancement of commercial induction cooker",Power Electronics, IET, vol.5, pp. 134-142, 2012.
[43]H. A. Wheeler, “Inductance formulas for circular and square coils”, Proceedings of the IEEE, vol.70, pp. 1449-1450, 1982.
[44]T. Miyoshi, M. Sumiya and H. Omori," Analysis of an Induction Heating System by the Finite Element Method Combined with a Boundary Integral Equation", IEEE Transactions on Magnetics, vol.23, pp.1827-1832, 2003.
[45]S.C. Huang, J.W. Kang, H.W. Tsai, Y.S. Shan, X.Z. Lin and G.B. Lee, “Electromagnetic Thermotherapy System With Needle Arrays: A Practical Tool for the Removal of Cancerous Tumors ”, IEEE Transactions Biomedical Engineering, vol.61, pp. 598-605, 2013.
[46]C. F. Huang, X. Z. Lin and Y. R. Yang, "Application of Magnetic Circuit and Multiple-Coils Array in Induction Heating for Improving Localized Hyperthermia", International Conference on Bioinformatics and Biomedicine, Venice, Italy, 2009.
[47]R. T. Gordon, J. R. Hines and D. Gordon, “Intracellular hyperthermia – a biophysical approach to cancer via intracellular temperature and biophysical alterations”, Medical Hypotheses, vol.5, pp. 83-103, 1979.
[48]A. Jordan, R. Scholz, P. Wust, H. Fähling and F. Roland, “Magnetic fluid hyperthermia (MFH): Cancer treatment with AC magnetic field induced excitation of biocompatible superparamagnetic nanoparticles”,Journal of Magnetism and Magnetic Materials, vol. 201, pp. 413-419, 1999.
[49]A. Jordan, P. Wust, H. Fahling, W. John, A. Hinz and R. Felix, “Inductive heating of ferromagnetic particles and magnetic fluid: physical evaluation of their potential for hyperthermia”, International Journal of Hyperthermia, Vol.9, pp. 51-68, 1993.
[50]金重勳編,「磁性技術手冊」,中華民國磁性技術協會,2002。
[51]張昫、李學養譯,「磁性物理學」,聯經出版社,1982。
[52]王剛,「COMSOL Multiphysics工程實踐與理論仿真--多物理場數值分析技術」,電子工業出版社,2012。
[53]M. W. Kennedy, "Magnetic Fields and Induced Power in the Induction Heating of Aluminium Billets", KTH Royal Institute of Technology, 2013.
[54]C. C. Chen, C. C. Tai, S. J. Huang, Y. H. Chen and C. H. Lin, "Thermotherapy induction heating apparatus with new magnetic-wrapped coil design",IEEE Transaction on Industrial Electronics, vol.61, pp. 2733-2739, 2014.
[55]林方偉,「應用於電磁熱療之新型可撓式線圈設計」,國立成功大學電機工程學系碩士論文,2014。
[56]陳錫桓,「電磁學」,中央圖書出版社,1984。
[57]J. Lannacci,「Practical Guide To RF-MEMS」,John Wiley&Sons,2013。
[58]H. W. Koertzen, J. Vanwyk and J. A. Ferreira,"Investigating the influence of material properties on the efficiency of an induction heating load transformer using", IEEE Industry Applications Conference, vol.1, pp.868-873, 1995.
[59]皮托科技,「COMSOL Multiphysics 電磁模擬教學」,皮托科技股份有限公司,2013。
[60]林方偉,「應用於電磁熱療之新型可撓式線圈設計」,國立成功大學電機工程學系碩士論文,2014。
[61]S. C. Hung, Y. Y. Chang, Y. J. Chao, Y. S. Shan, X. Z. Lin and G. B. Lee, "Dual-Row Needle Arryss Under an Electormagnetic Thermotherapy System for Bloodless Liver Resection Surgery", IEEE Transactions Biomedical Engineering, vol.59, pp.824-831, 2011.
論文全文使用權限
  • 同意授權校內瀏覽/列印電子全文服務,於2020-07-23起公開。


  • 如您有疑問,請聯絡圖書館
    聯絡電話:(06)2757575#65773
    聯絡E-mail:etds@email.ncku.edu.tw