两种不混相液体流动输运过程的实验研究与CMFD建模

Proceedings of 2013 10th International Bhurban Conference on Applied Sciences & Technology (IBCAST) Pub Date : 2013-05-02 DOI:10.1109/IBCAST.2013.6512160

M. Arshad, I. R. Chughtai, M. H. Inayat, A. Haq

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引用次数: 0

摘要

安装矩形筛板柱，通过高速摄影和图像分析研究输送参数。逆流操作中引入了分散相(水)和连续相(煤油)两种不混相液体。脉动频率为0.95 ~ 1.72 rev/sec，脉动幅值为1cm，分散相表面速度为0.16 ~ 0.44 cm/sec，连续相表面速度为0.37 ~ 0.47 cm/sec。随着分散相表面速度的增加，其空隙率逐渐增大，直至其渐近值，液滴速度增大，液滴尺寸减小。随着脉动频率的增加，其空隙率增加，液滴尺寸和液滴速度减小。为了验证实验结果，利用FLUENT进行了计算多流体动力学仿真。将CMFD计算结果与实验结果进行了比较，结果显示最大偏差为2-3%。

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Experimental study and CMFD modeling of transport processes in flow of two Immiscible liquids

Rectangular shaped sieve plate column was installed for study of transport parameters through high speed photography and image analysis. Two Immiscible liquids consisting of the dispersed phase (water) and continuous phase (kerosene oil) were introduced in countercurrent operation. Experiments were performed for dispersed and continuous phase superficial velocities 0.16-0.44 cm/sec and 0.37-0.47 cm/sec respectively, pulsation frequency 0.95 -1.72 rev/sec and pulsation amplitude 1cm. Upon increasing the superficial velocity of dispersed phase, its void fraction increases up to its asymptotic value and droplet velocity increase while the droplet size decreases. Upon increasing the pulsation frequency, its void fraction increases while the droplet size and droplet velocity decreases. A Computational Multi Fluid Dynamics simulation has been carried out in order to verify the experimental results using the FLUENT. The CMFD calculations for void fraction have been compared with the experimental results which have shown a maximum deviation of 2-3%.

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来源期刊

Proceedings of 2013 10th International Bhurban Conference on Applied Sciences & Technology (IBCAST)

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