振動床於弱振動下顆粒分離機制研究

以作者查詢圖書館館藏

、以作者查詢臺灣博碩士

、以作者查詢全國書目

、勘誤回報

、線上人數：35

、訪客IP：13.58.145.198

姓名

方啟守(Chi-Shou Fang) 查詢紙本館藏

畢業系所

機械工程學系

論文名稱

振動床於弱振動下顆粒分離機制研究
(Segregation Mechanisms in the vibrated granular bed under weakly vibration)

相關論文

★ 筆記型電腦改良型自然對流散熱設計	★ 移動式顆粒床過濾器濾餅流場與過濾性能之研究
★ IP67防水平板電腦設計研究	★ 汽車多媒體導航裝置散熱最佳化研究
★ 流動式顆粒床過濾器三維流場觀察及能性能測試	★ 流動式顆粒床過濾器冷性能測試
★ 流動式顆粒床過濾器過濾機制研究	★ 二維流動式顆粒床過濾器內部配置設計研究
★ 循環式顆粒床過濾器過濾性能研究	★ 流動式顆粒床過濾器之流場型態設計與研究
★ 流動式顆粒床過濾器之流動校正單元設計與分析研究	★ 流動式顆粒床過濾器之雙葉片型流動校正單元設計與冷性能過濾機制研究
★ 稻稈固態衍生燃料成型性分析之研究	★ 流動式顆粒床過濾器之不對稱葉片設計與冷性能過濾機制研究
★ 流動式顆粒床過濾器之滾筒式粉塵分離系統與冷性能過濾及破碎效應研究	★ 稻稈固態衍生燃料加入添加物成型性分析之研究

檔案

[Endnote RIS 格式]

[Bibtex 格式]

[相關文章]

[文章引用]

[完整記錄]

[館藏目錄]

[檢視]

[下載]

本電子論文使用權限為同意立即開放。
已達開放權限電子全文僅授權使用者為學術研究之目的，進行個人非營利性質之檢索、閱讀、列印。
請遵守中華民國著作權法之相關規定，切勿任意重製、散佈、改作、轉貼、播送，以免觸法。

摘要(中)

混合顆粒體在振動床中，會有大顆粒向上昇，而小顆粒向下沈的分離現象，本文即是探討在圓柱振動床中影響粒子分離機制的原因。由於振動床的分離現象在實驗中極易受到各種因素變化的影響，因此本文討論的方向有三部分：第一部分為類固體層高度實驗，藉由這個部分的實驗可以得知在不同振動條件下所對應的類固體層高度，同時知道各個頻率能達到充分流動現象之最小振動加速度。第二部分則是幾何分離實驗，由第一部分的實驗結果來進行尺寸分離的實驗，並找出能使顆粒體分離的振動條件。第三部份則為對流效應實驗，這個部分的實驗，整體的振動強度較之前兩個部分的實驗強烈，顆粒體受到較大的振動加速度在實驗容器內作對流的運動。
由前述的三個實驗結果，可以定義出三種不同的運動機制。在不同運動機制下的顆粒體，有著不同的運動行為，微弱運動機制下的顆粒活動並不是相當活躍，因此實驗容器內會有類固層的存在；幾何分離機制下的顆粒，因為有適當的給予能量，所以不同尺寸的粒子會有分離的情形發生；對流運動機制下的顆粒，因為受到強烈的振動加速度，粒子在容器內做劇烈的對流運動，主要的原因是受迴流胞的影響。

摘要(英)

In vibration granular bed, the larger particles existed in the upper regions of the bed, and the small ones stayed in the lower regions of the bed. The study investigated the effects on segregation mechanisms in a cylindrical vibrated bed. The three main experiments were performed to study the segregation mechanisms in a vibrated granular bed. First, the solid-like experiment was performed to investigate the minimum vibration acceleration under the different vibration frequencies, which all the particles in the bed flowed allover the bed. Second, the geometrical experiment was performed to investigate the vibration conditions causing the particle segregation. Last, the effects of convection strength on particle segregation were be examined by performing convection roll experiment.
The three different motion mechanisms were found in this study. The solid-like layer existed in weak motion mechanism where the vibration conditions were weak. In geometrical mechanism regions, the binary mixture of particles segregated due to different diameter of particles. For the stronger vibration conditions, the effects of convection strength on particles’ motions in the vibrated granular bed were dominant.

關鍵字(中)

★ 振動床
★ 梯度材料
★ 弱振動

關鍵字(英)

★ weakly vibration
★ vibrated granular

論文目次

第一章簡介1
1.1 顆粒體介紹1
1.2 顆粒體在振動床內的現象2
1.3分離現象(巴西豆效應)4
1.4研究動機與方向5
第二章實驗方法7
2.1 實驗設備7
2.2 實驗步驟11
2.3 實驗原理與方法14
2.3.1 實驗參數14
2.3.2 實驗量測方式及判別方法15
(a)類固體層高度及類液體層深度15
(b)實驗運動機制判定16
第三章結果與討論20
3.1 類固體層高度實驗20
3.2 幾何分離實驗22
3.3 對流效應實驗24
3.4 振動床中顆粒運動的機制相圖26
第四章結論30
參考文獻31

參考文獻

Bachman, D., 1940, Verfahrenstechnik Z .D.I . Beiheft, No. 2, pg. 43. (cited by Thomas et al., 1989.)
Duran, J., Rajchenbach, J. and Clement, E., 1993, “Arching Effect Model for Particle Size Segregation,” Phys. Rev. Lett., Vol. 70, pp. 2431-2434.
Faraday, M., 1831, “On a peculiar class of acoustical figures and on certain forms assumed by groups of particles upon vibrating elastic surfaces”, Fhil. Trans. R. Soc. London, Vol. 52, pp. 299-340
Fiscina J., Ohligschläger M., and Mücklich F., J. Mat. Sci. Lett., JMSL 9236-03 (2003).
Fiscina J., Ohligschläger M., and Mücklich F., J. Mat. Sci. Lett., Vol. 22, pp.1455-1457 (2003).
Fiscina J., and Mücklich F.,in preparation to be submitted to JAPL (Oct2002).
Gallas, J. A. C., Herrmann, H. J. and Sokolowski, S., 1992, “Convection Cells in Vibrating Granullar Media,” Phys. Rev. Lett., Vol. 69, pp. 1371-1374.
Hirshfeld, D. and Rapaport, D. C., 1997, “Molecular dynamics studies of grain segregation in sheared flow.
Hsiau, S. S. and Hunt, M. L., 1996, “Granular Thermal Diffusion in Flows of Binary-Sized Mixtures,” Acta Mech., Iss.1-4, pp.121-137.
Hsiau, S. S. and Pan, S. S., 1998, “Motion State Transitions in a Vibrated Granular Bed,”Powder Tech., Vol., pp.219-226.Hsiau, S. S., Wu, M. S. and Chen, C. S.,1998, “Arching Phenomena in a Vibrated Granular Bed,” Powder Tech., Vol. 99, pp. 185-193.
Hsiau, S. S. and Yu, H. Y., 1997, “Segregation Phenomena in a Shaker,” Powder Technol., Vol. 93, pp. 83-88.
Hunt, M. L., Hsiau, S. S. and Hong, K. T.,1994, “Particle Mixing and Volumetric Expansion in a Vibrated Granular Bed,” J. Fluids Engineering, Vol. 166, pp.785-791.
Jullien, R., Meakin, P. and Parlovitch, A., 1992, “Three-Dimensional Model for Particle-Size Segregation by Shaking,” Phys. Rev. Lett., Vol. 69, pp. 640-643.
Jullien, R., Meakin, P. and Pavlovitch, A., 1993a, “3-Dimensional Model for Particle-Size Segregation by Shaking - Reply,” Phys. Rev. Lett., Vol. 70 , pp.2195.
Knight , J.B., Jaeger, H. M. and Nagel, S. R., 1993, “Vibration –Induced Size Separation in Granular Media: The Convection Connection,” Phys. Rev. Lett., Vol. 70, pp. 3728-3731.
Knight, J. B., Ehrichs, E. E., Kuperman, V. Y., Flint, Jaeger, H. M., and Nagel, S. R., 1996,“An experimental study of granular convection,”Phys. Rev. E., Vol. 54, pp. 5726－5738.
Knight, J. B., 1997,“External boundaries and internal shear bands in granular convection,”Phys. Rev. E., Vol. 55, No. 5, pp. 6016－6023.
Rosato, A. D., Lan, Y. and Wang, D. T., 1991, “Vibratory Particle Size Sorting in Multi-Component Systems,” Powder Technol., Vol. 66, pp. 149-160.
賈魯強，黎璧賢，2001年8月，“漫談顆粒體物理”，物理雙月刊，23卷，4期，pp. 503-510。

指導教授

蕭述三(Shu-San Hsiau)

審核日期

2004-7-15

推文