Please use this identifier to cite or link to this item: http://ir.futminna.edu.ng:8080/jspui/handle/123456789/6241
Title: Characteristics of churn and annular flows in a large diameter vertical riser
Authors: Abdulkadir, Mukhtar
Mbalisigwe, Ugochukwu
Zhao, Donglin
Hernandez–Perez, Valente
Azzopardi, Barry
Tahir, Suleiman
Keywords: Churn–annular flow
Entrance length
Film fraction
Frequency
Structure velocity
Waves
Issue Date: 1-Feb-2019
Publisher: International Journal of Multiphase Flow (ELSEVIER)
Citation: 3
Abstract: This paper presents the results of a series of experimental studies conducted to investigate the characteristics of churn and annular flows in an 11 m long riser with the internal diameter of 127 mm. A series of experiments in churn–annular flow regime were performed for a range of gas superficial velocities (3.5–16.1 m/s) and liquid superficial velocities of 0.02–0.33 m/s. Statistical analysis involving average, standard deviation and skewness, dominant frequency and structure velocity of the time series data was carried out as a quantitative approach to discriminate between churn and annular flows and to describe the transition between them. The variation of average liquid film thickness against gas superficial velocity showed a minimum at gas superficial velocity of 12.4 m/s. This is in close agreement with the minima at gas superficial velocity of 13 m/s reported in the literature. The results of the comparison between average liquid film thicknesses from the conductance ring probes agree well with those obtained by using local liquid film thickness probes and conductance ring probes in the literature. The results of the comparison of dominant frequency obtained from the conductance ring probes agree well with those obtained by using wire mesh sensor (WMS) in the literature. A comparative analysis of the current experimental data with those previously published experimental results confirms good agreement.
URI: http://repository.futminna.edu.ng:8080/jspui/handle/123456789/6241
ISSN: 03019322
Appears in Collections:Chemical Engineering

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