高壓水柱沖擊玻璃平板薄膜流之顆粒清除效果的實驗研究

方和友; Ho-Yo Fang

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/83501

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	周逸儒	zh_TW
dc.contributor.advisor	Yi-Ju Chou	en
dc.contributor.author	方和友	zh_TW
dc.contributor.author	Ho-Yo Fang	en
dc.date.accessioned	2023-03-19T21:09:03Z	-
dc.date.available	2023-11-10	-
dc.date.copyright	2023-09-15	-
dc.date.issued	2022	-
dc.date.submitted	2002-01-01	-
dc.identifier.citation	[1] H. E. Huppert, Flow and instability of a viscous current down a slope, Nature 300 (1982) 427–429. [2] R. Goodwin, G. Homsy, Viscous flow down a slope in the vicinity of a contact line, Physics of Fluids A: Fluid Dynamics 3 (1991) 515–528. [3] S. Kalliadasis, C. Bielarz, G. Homsy, Steady free-surface thin film flows over topography, Physics of Fluids 12 (2000) 1889–1898. [4] A. Mazouchi, G. Homsy, Free surface stokes flow over topography, Physics of Fluids 13 (2001) 2751–2761. [5] V. Bontozoglou, K. Serifi, Falling film flow along steep two-dimensional topography: the effect of inertia, International Journal of Multiphase Flow 34 (2008) 734–747. [6] T.Y. Chiu, Y.Y. Niu, Y.J. Chou, Bulge formation of the liquid film at the trailing edge of the inclined surface: Scaling and particle removal assessment, Unpublished. [7] T.Y. Chiu, Numerical study of particle deposition near the trailing edge of an inclined surface, Unpublished. [8] J. Zhou, B. Dupuy, A. Bertozzi, A. Hosoi, A Theory for shock dynamics in particle-laden thin films, Physical review letters 94 (2005) 117803. [9] J.A. Garcia Aragon, Granular-Fluid Chute Flow: Experimental and Numerical Observations, Journal of Hydraulic Engineering, 121(4), 355-364. [10] Y. NI ÑO, M.H. Garcia, Experiments on particle-turbulence interactions in the near-wall region of an open channel flow: Implications for sediment transport, J. Fluid Mech. (1996), vol. 326, pp. 285-319. [11] Urushihara, T. Meinhart, C.D. & Adrian, R. J. 1993 Investigation of the logarithmic layer in pipe flow using Particle Image Velocimetry. In Near-Wall Turbulent Flows (ed. R. M. C. So, C. G. Speziale & B. E. Launder). Elsevier.	-
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/83501	-
dc.description.abstract	本研究為針對玻璃製程中玻璃平板經研磨之後的沖洗環節，對平板上殘留顆粒的移除能力進行實驗模擬。研磨技術在工業界中被廣泛應用，而對於研磨之後在被加工物表面產生的大量殘留顆粒，沖洗環節成為了極為重要的一部分。本研究於水槽中架設線性滑軌、滑車、噴嘴，模擬工廠產線中玻璃經過研磨之後的噴嘴沖洗過程。本文中記錄在噴嘴呈不同攻角與不同旋轉角時，玻璃平板表面上殘留顆粒的移除狀況，使用圖像分析的方式將玻璃平板經過噴嘴沖洗後表面上的顆粒殘留數據化，比對各組結果後，找出顆粒移除能力最佳的噴嘴參數組合。最後，再透過四組不同的實驗對噴嘴沖洗玻璃平板時所形成的流場與平板表面殘留顆粒的移除情形進行更進一步的實驗分析。	zh_TW
dc.description.abstract	This study is an experimental simulation of the ability to remove residual particles from a glass plate in the glass manufacturing process by rinsing the plate after grinding. Grinding technology is widely used in the industry, and the rinsing process is an important part of the process because of the large amount of residual particles generated on the surface of the processed material after grinding. In this study, linear rails, carriages, and nozzles were set up in the sink to simulate the rinsing process of the nozzles after grinding glass in a factory production line. In this paper, the removal of particles on the surface of the glass plate was recorded at different attack angles and different orientation of the nozzles, and the particle residue on the surface of the glass plate after nozzle rinsing was quantified by image analysis. Finally, four different experiments were conducted to further analyze the flow field formed by the nozzle when washing the glass plate and the removal of particles on the plate surface.	en
dc.description.provenance	Made available in DSpace on 2023-03-19T21:09:03Z (GMT). No. of bitstreams: 1 U0001-2309202213505600.pdf: 3906406 bytes, checksum: 68b25bf15617509ebcb6685155480ddb (MD5) Previous issue date: 2022	en
dc.description.tableofcontents	Chapter1 緒論 1 1.1研究背景與動機 1 1.2背景資料及參考文獻 2 1.2.1玻璃平板研磨製程流程介紹 2 1.2.2產線中玻璃平板實際顆粒殘留情形 3 1.2.3平板邊緣流場及數值模擬 4 1.3本文內容概述 7 Chapter2 實驗器材架設與參數定義 8 2.1實驗架設介紹及參數定義 8 2.2實驗器材介紹 9 Chapter3 水刀型噴嘴沖洗能力實驗 11 3.1實驗設計 11 3.2實驗步驟 11 3.3實驗說明 12 3.3.1分析範圍設置 12 3.3.2顆粒移除率 12 3.4實驗參數設置 13 3.5實驗記錄 14 3.6實驗結果與討論 27 Chapter4 複合式水刀型噴嘴沖洗能力實驗 29 4.1實驗目的與猜想 29 4.2實驗步驟 30 4.3實驗說明 30 4.4實驗參數設置 31 4.5實驗記錄 32 4.6實驗結果 33 Chapter5 平板表面附著顆粒分離實驗 34 5.1實驗目的與設計 34 5.2實驗步驟 34 5.3實驗說明 35 5.3.1平板及顆粒材質 35 5.3.2背景圖 35 5.3.3噴嘴重複沖洗步驟 35 5.3.4灰階分析與相對關係比較規則 36 5.4實驗參數設置 37 5.5實驗記錄 38 5.6實驗結果與討論 63 Chapter6 平板邊緣顆粒堆積移除實驗 66 6.1實驗目的與設計 66 6.2實驗步驟 66 6.3實驗說明 66 6.4實驗參數設置 67 6.5實驗記錄 68 6.6實驗結果與討論 78 Chapter7 平板邊緣流場毛細突起實驗 80 7.1實驗說明 80 7.2實驗記錄 82 7.3實驗結果與討論 87 Chapter8 結論與未來工作 89 8.1結論 89 8.2未來工作 92 參考文獻 93	-
dc.language.iso	zh_TW	-
dc.subject	表面顆粒移除	zh_TW
dc.subject	邊緣顆粒堆積	zh_TW
dc.subject	高壓水柱沖擊平板	zh_TW
dc.subject	paticles accumulate on the edge	en
dc.subject	high pressure jet impinging on plates	en
dc.subject	surface particle removal	en
dc.title	高壓水柱沖擊玻璃平板薄膜流之顆粒清除效果的實驗研究	zh_TW
dc.title	Experimental study of liquid film induced by high pressure jets impinging on glass plates and the associated particle removal efficiency	en
dc.type	Thesis	-
dc.date.schoolyear	110-2	-
dc.description.degree	碩士	-
dc.contributor.oralexamcommittee	石武融;牛仰堯	zh_TW
dc.contributor.oralexamcommittee	Wu-Rong Shih;Yang-Yao Niu	en
dc.subject.keyword	高壓水柱沖擊平板,邊緣顆粒堆積,表面顆粒移除,	zh_TW
dc.subject.keyword	high pressure jet impinging on plates,paticles accumulate on the edge,surface particle removal,	en
dc.relation.page	94	-
dc.identifier.doi	10.6342/NTU202203904	-
dc.rights.note	未授權	-
dc.date.accepted	2022-09-29	-
dc.contributor.author-college	工學院	-
dc.contributor.author-dept	應用力學研究所	-
顯示於系所單位：	應用力學研究所

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