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Experimental Investigation of the Flow Patterns Development and evaluation of entrainment fraction in gas-liquid two-phase flow in a vertical pipe
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Mojtaba Masihi1   , Ali Nouri-Borujerdi *2 , Hadi Kargarsharifabad3 |
1- Islamic Azad University South Tehran Branch, Department of Mechanical Engineering, Tehran, Iran.
2- Sharif University of Technology, Center of Excellence in Energy Conversion, School of Mechanical Engineering,Tehran, Iran. , anourii@sharif.edu
3- Islamic Azad University Qom Branch, Department of Mechanical Engineering, Qom, Iran. |
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Abstract: (80 Views) |
In the present research, the behavior and flow pattern of a Counter-current Gas-Liquid Two-Phase Flow in Transparent Vertical pipe made from Plexiglas with inner diameter of 38 mm was experimentally investigated. The considered fluids included the water and the air, and the results were obtained for a total of 125 select cases differing in the apparent velocities of the water and the air. The supperfacial velocities of the air and water in the 38 mm pipe were investigated in the ranges 4.90 – 9.30 m/s and 0.083– 0.139 m/s, respectively. The Entrainment fraction was measured Isokinetic-sampling technique. Provision of the Counter current Gas-Liquid Two-Phase Flow conditions in terms of initial flow orientation and the investigation of the effect of this design on the flow patterns, liquid film thickness, and the Entrainment fraction are the major innovations of the present research.In contrast to previous research works, the present study sets the scene for a more accurate evaluation of the annular flow pattern for calculating the liquid film thickness and the Entrainment fraction by designing the initial inlet orientation. Based on a comparison, as far as the calculation of the Entrainment was concerned, the results of the present research exhibited good agreement with the Wallis model in the 38 mm pipe, and when it came to obtaining the liquid film thickness, the results were consistented to those of the Schubring model.It is shown that the predictions of this new correlation outperform those from previously reported studies.
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Article number: 4 |
| Keywords: Counter-Current Two phase flow, Liquid Film Thichness, Entrainment Fraction, Interfacial Shear Stress, Flooding |
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Full-Text [PDF 1473 kb]
(58 Downloads)
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Type of Study: Research |
Subject:
Special
Received: 2024/04/2 | Accepted: 2024/06/1 | Published: 2024/03/21
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