微流道中以旅波介電泳方式驅動的二相懸浮流

Yong-Chi Lin; 林永錡

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/35324

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DC 欄位	值	語言
dc.contributor.advisor	李雨
dc.contributor.author	Yong-Chi Lin	en
dc.contributor.author	林永錡	zh_TW
dc.date.accessioned	2021-06-13T06:48:09Z	-
dc.date.available	2005-08-01
dc.date.copyright	2005-08-01
dc.date.issued	2005
dc.date.submitted	2005-07-29
dc.identifier.citation	[1]F. Bordi, C. Cametti, R. Misasi, R. De Presio, G. Zimatore 1997 Conductometric properties of humam erythrocyte membrance: dependence on haematocrit and alkali metal ions of the suspending medium. Eur Biophys J 26, 215-225. [2]Fuhr, G., T. Schnelle, and B. Wagner, 1994 Travelling wave-driven microfabricated electrohydrodynamic pumps for liquids. J. Micromech. Microeng., 4, 217-216. [3]Fuhr, G., R. Hagedorn, T. Muller, 1991 Linear motion of dielectric particles and living cells in microfabricated structures induced by traveling electric fields. Proceedings of IEEE MEMS, 259-264. [4]Gascoyne, P. R. C., X. B. Wang, Y. Huang, F. F. Becker, 1997 Dielectrophoretic separation of cancer cells from blood. IEEE Transactions on Industry Applications 33, 670-678. [5]Huang, Y., X. B. Wang, J. A. Tame, R. Pethig, 1993 Electrokinetic behaviour of colloidal particles in travelling electric fields: studies using yeast cells. Journal of Physics D: Applied Physics 26, 1528-1535. [6]Jones, T. B., 1995 Electromechanics of Particles, Cambridge Univ. Press. [7]Asami, K., T. Hanai and N. Koizumi, 1980 Dielectric approach to suspensions of ellipsoidal particles covered with a shell in particular reference to biological cells. Japanes Journal of Applied Physics 9, 359-365. [8]Asami, K., T. Hanai and N. Koizumi, 1980 Dielectric analysis of escherichia coli suspensions in the light of interfacial polarization. Biophys. J., 31, 215-228. [9]Masuda, M. S., M. Washizu, M. Iwadare, 1987 Separation of small particles suspened in liquid by nonuniform traveling field. IEEE Transcations on Industry Applications 23, 474-480. [10]Masuda, M. S., M. Washizu, I. Kawabata, 1988 Movement of blood cells in liquids by nonuniform traveling field. IEEE Transcations on Industry Applications 24, 217-233. [11]Patankar, S. V., 1980 Numerical Heat Transfer and Fluid Flow. Hemisphere Publishing Corporation Press. [12]Pohl, H. A., 1978 Dielectrophoresis. Cambridge University Press. [13]Wang, X. B., Y. Huang, F. F. Becker, P. R. C. Gascoyne, 1994 A unified theory of dielectrophoresis and travelling wave dielectrophoresis. Journal of Physics D: Applied physics 27, 1571-1574. [14]Wang, X. B., M. P. Hughes, R. Pethig, 1995 Dielectrophoretic forces on particles in travelling electric fields. Journal of Physics D: Applied Physics, 28, 474-482. [15]Wang, X. B., Y. Huang, F. F. Becker, P. R. C. Gascoyne, 1997 Dielectrophoretic manipulation of particles. IEEE Transcations on Industry Applications, 33, 660-669. [16]Wang, X. B., Y. Huang, R. Holzel, J. P. H. Burt, R. Pethig, 1993 Theoretical and experimental investigations of the interdependence of the dielectric, dielectrophoretic and electrorotational behavior of colloidal particles. Journal of Physics D: Applied Physics, 26, 312-322. [17]謝鴻彦，2003 “以旅波式介電泳分離全血中血球之模擬”，國立台灣大學應用力學研究所碩士論文。 [18]孫志璿，2004 “以旅波介電泳驅動二相懸浮槽流的數值研究”，國立台灣大學應用力學所碩士論文。
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/35324	-
dc.description.abstract	在本文研究中，吾人利用及修改孫志璿(2004)所撰寫的程式，研究以旅波式介電電泳來驅動全血中的紅血球運動，進而帶動血漿前進。本文中主要的研究工作分為三個部份:ㄧ、對於運算程式作詳細的格點測試，本文的最適當格點系統為取時間格點，電場格點0.5μm，源項控制體積大小為及流場格點間距取2μm作為運算。二、討論當微流道長度增加時，管長阻力對於吾人計算中以介電電泳驅動血球運動的影響有多大。以及探討不同電極設計對於以旅波式介電電泳來驅動血球運動的效用，計算發現當流道中電極設計為上下壁各一組電極作用時，計算後的平均流速值可以達到4145μm/sec，而以兩組電極並排驅動的效應則為4737μm/sec，故若是以此兩種電極搭配的方式作為電極設計，則必可以達到更大效用。三、探討當微流道中導電度和介電係數隨著血球所在位置產生變化時的二項耦合效應結果顯示，其出口耦合流速值達到2642μm/sec，跟先前不考慮空間介電特性的電場計算出來的平均流速1869μm/sec比較，前者具有較佳的效果。	zh_TW
dc.description.abstract	In the study, I drive the two phase suspension flow with the traveling-wave dielectrophoresis. There are three parts in my study. First, it’s about the condition of grid dependence test. The best grid system is time grid , electric field grid 0.5μm, controlling volume from the source term ,and the distance between grid of the flow field . Second, how serious does dielectrophoresis drive the particle because of influence from drag, when the length increases? The other topic is the effect from dielectrophoresis driving the particle caused by different design of electric poles. I found that the poles put in upside wall and down wall may result to the average velocity, 4145μm/sec. And when putting in parallel, the average velocity could reach 4737μm/sec. If combing the two design, it will be better. The final part is about the result of the two way coupling when the conductivity and the permittivity change. And the result is that the coupling outlet average velocity, 2642μm/sec, compare with the result when considering the permittivity and the conductivity in the channel space are constant. The former will be better.	en
dc.description.provenance	Made available in DSpace on 2021-06-13T06:48:09Z (GMT). No. of bitstreams: 1 ntu-94-R92543075-1.pdf: 4311792 bytes, checksum: 3673d4574712d4a1a7c2591149ae813a (MD5) Previous issue date: 2005	en
dc.description.tableofcontents	摘要 Ⅰ 目錄 III 圖表目錄 V 符號說明 XIII 第一章導論 1 1.1 研究背景 1 1.2 研究動機 3 1.3 文獻回顧 5 1.4 本文架構 8 第二章理論模式 10 2.1 介電電泳作用力 10 2.2 質點運動方程式 16 2.3 質點與流體的雙向耦合 17 2.4 電場方程式 18 2.5 體積比率的計算 23 第三章數值計算 25 3.1 質點運動分析 25 3.2 流場分析 26 3.3 質點與流場雙向耦合分析 34 第四章計算結果與討論 37 4.1 程式收斂性 38 4.2 隔點測試 39 4.3 前後管長加長對於耦合後流速的影響 44 4.4 電場工作頻率對於耦合後流速的影響 45 4.5 給定不同電壓下對耦後合流速的影響 47 4.6 不同質點濃度對於耦合效應的影響 47 4.7 比較不同電極設計對於耦合後流速的影響 48 4.8 空間中介電特性改變對於耦合流速的影響… …56 第五章結論與未來展望 61 5.1 結論 61 5.2 未來工作 62 參考文獻 63 附圖表 66
dc.language.iso	zh-TW
dc.subject	雙向耦合	zh_TW
dc.subject	旅波	zh_TW
dc.subject	介電電泳	zh_TW
dc.subject	dielectrophoresis	en
dc.subject	traveling wave	en
dc.subject	two-way coupling	en
dc.title	微流道中以旅波介電泳方式驅動的二相懸浮流	zh_TW
dc.title	Two-phase suspension flow in micro-channel driven by traveling dielectrophoresis	en
dc.type	Thesis
dc.date.schoolyear	93-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	胡文聰,楊政穎
dc.subject.keyword	介電電泳,雙向耦合,旅波,	zh_TW
dc.subject.keyword	dielectrophoresis,two-way coupling,traveling wave,	en
dc.relation.page	100
dc.rights.note	有償授權
dc.date.accepted	2005-07-29
dc.contributor.author-college	工學院	zh_TW
dc.contributor.author-dept	應用力學研究所	zh_TW
顯示於系所單位：	應用力學研究所

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