下降(电信)
拦截
色散(光学)
沉积作用
入口
材料科学
玻璃棉
复合材料
色谱法
矿物学
化学
地质学
光学
地貌学
物理
图层(电子)
沉积物
生物
电信
计算机科学
生态学
作者
Farhad M. Othman,Mohammad Fahim,G. V. Jeffreys,C.J. Mumford
标识
DOI:10.1080/01932698808943979
摘要
Abstract The different drop capture mechanisms for secondary dispersions in fibrous beds are reviewed. A quantitative analysis showed that interception and sedimentation are the predominant mechanisms in fibrous bed coalescers. The selection of operating parameters, e.g. velocity, fibre size and drop size depends upon these mechanisms. A 3 cm deep fibrous bed of glass wool, with a fibre diameter of 25 pm, was found to capture more than 80% of the dispersed phase from an inlet secondary dispersion of 15 Mm drop size. Almost 70% of these drops were captured due to the interception mechanism.
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