淡江大學機構典藏:Item 987654321/102523
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    Please use this identifier to cite or link to this item: https://tkuir.lib.tku.edu.tw/dspace/handle/987654321/102523


    Title: 膜管式水旋風分離器之多相流模擬
    Other Titles: Multiple phase flow simulation of a tubular-membrane hydrocyclone
    Authors: 徐琳芳;Hsu, Lin-Fang
    Contributors: 淡江大學化學工程與材料工程學系碩士班
    吳容銘;Wu, Rome-Ming
    Keywords: 水旋風分離器;計算流體力學;離散相模型;膜管;Hydrocyclone;CFD;Discrete Phase Model;Membrane tube
    Date: 2014
    Issue Date: 2015-05-04 09:58:00 (UTC+8)
    Abstract: 本研究採用直徑2.5 cm之水旋風分離器,並安裝膜管至水旋風分離器中心位置,使用黑色碳化矽粉末作為實驗粉體,並以計算流體力學軟體FLUENT的模擬作為搭配,分別討論不同的進口操作壓力下對水旋風分離器顆粒分級之影響。模擬方面則改變膜管的尺寸,並以VOF多相流模式以及LES紊流模式模擬空氣核心以及內部流場,並使用離散相模式(Discrete Phase Model)針對水旋風分離器中之顆粒運動做預測及追蹤,將模擬與實驗結果進行分析,並討論膜管尺寸對水旋風分離器的影響。
    實驗與模擬結果顯示,當進口壓力越大則整體分離效率會越好,而其分級效率在8μm。對於2.5公分的水旋風分離器,膜管變細則過濾效果差,而膜管變粗過濾效果則變好,但分級效率卻會微幅下降;分級效率:膜管徑1公分>1.2公分>0.8公分;膜管濾液流量:膜管徑1.2公分>1公分>0.8公分。
    This study uses black silicon carbide powder as experimental particles to realize its classification in a 2.5 cm diameter hydrocyclone that equips membrane tube in center position. In the experiment, the effects of variations in inlet pressure on particle size distribution efficiency were analyzed. In the simulation of the change the size of the membrane tube, the air core and the flow pattern in hydrocyclone was simulated by VOF model and LES model, and using the discrete phase model to track and predict the particle motion. The simulation and experimental results will be analyzed discuss the impact of the membrane tube size on the hydrocyclone.
    Experimental and simulation results show that when the inlet pressure larger the overall separation efficiency will be better, and its classification efficiency in 8 μm. For the 2.5 cm diameter hydrocyclone, membrane tube diameter becomes smaller filtering effect poor and diameter becomes larger filtering effect better than original size, but the classification efficiency will drop a little. Classification efficiency:diameter 1 cm>1.2 cm>0.8 cm. Filtering effect:diameter 1.2 cm>1 cm>0.8 cm.
    Appears in Collections:[Graduate Institute & Department of Chemical and Materials Engineering] Thesis

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