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    Please use this identifier to cite or link to this item: http://ir.lib.ncu.edu.tw/handle/987654321/81898


    Title: 反向氣流對微小粉末於儲槽排放行為影響之研究
    Authors: 鍾享宸;Chung, Hsiang-Chen
    Contributors: 能源工程研究所
    Keywords: 儲槽;顆粒粒徑;氣泡面積;Silo;Particle size;Bubble area
    Date: 2019-12-25
    Issue Date: 2020-01-07 14:31:01 (UTC+8)
    Publisher: 國立中央大學
    Abstract: 顆粒流動之行為中包含細微顆粒和間隙氣體之間的作用。在儲槽中顆粒的流動相當受到矚目。儲槽內部在間隙氣體之作用下,會使顆粒在流動時產生排放不順暢的現象,並且在顆粒小於200 µm時特別顯著。由於不同粒徑的粉末在儲槽中流動所產生的排放流率和氣泡現象都具有可探討的價值,故本研究旨在探討不同粒徑的粉末於儲槽中流動時所產生的排放流率和氣泡面積大小。本實驗以三種不同粒徑大小(90.5 µm、115.5 µm、165 µm)作為實驗探討之變因,並且以質量流率量測法、氣壓值偵測法、氣泡影像分析法作為實驗中的分析方法。本研究經由實驗測量的結果顯示:使用不同粒徑的顆粒確實是對於顆粒的排放速率有影響,顆粒粒徑較大時,其所產生的排放流率會較佳;顆粒粒徑較小時,其所產生的排放流率會較差,再加上,不同粒徑的顆粒對於空氣所形成的氣泡面積大小也會有影響,較小粒徑的顆粒在儲槽中排放時,其形成的氣泡面積較大;較大粒徑的顆粒在儲槽中排放時,其所形成的氣泡面積較小。此外,本研究也藉由氣壓偵測軟體偵測出儲槽內部氣壓的回升情形。
    關鍵詞:儲槽、粒徑、質量流率、氣泡現象
    ;The behavior of the particle flow involves the interaction between the fine particles and the interstitial fluid. From the interaction of the interstitial fluid, the particles may be discharged when the flow is not smooth, and the particles are particularly dominated when the particles are less than 200 μm . Since the discharging flow rates and the bubble phenomenon are worth investigating with different size of the particles in silo, so this research means to investigate the discharging flow rate and the bubble maximal area of the different size of the particles.
    Three different size of the powders were used in this research (90.5 μm、115.5 μm、165 μm). In this research, mass flow rate measured method , gauge pressure detected method and the bubble image observed method were used as the experimental analyzed method. Based on the results of this experiment, it can be understood that the powders with different particle size indeed affect the area of the air bubbles also the mass flow rate of the powders .That is to say:the larger powder size is, the higher mass flow rate will be, the larger powder size is, the smaller maximal area of the bubble is ; the smaller powder size is, the lower mass flow rate will be, the smaller powder size is , the larger maximal area of the bubble is.
    Furthermore, this research also detects the values of pressure rising in the silo via the pressure detection software.
    Keywords: silo、particle size、mass flow rate、bubble phenomenon
    Appears in Collections:[Energy of Mechatronics] Electronic Thesis & Dissertation

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