Analysis of Horizontal Air-Silicone Oil Plug-To-Slug Transition Flow
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Description
– Analysis of Horizontal Air-Silicone Oil Plug-To-Slug Transition Flow –
Download Analysis of Horizontal Air-Silicone Oil Plug-To-Slug Transition Flow. Petroleum Engineering students who are writing their projects can get this material to aid their research work.
Abstract
The analysis of the experimental data for the air-silicone oil plug-slug transition in a 67mm id and 6m long horizontal pipe was carried out in this work.
The superficial gas and liquid velocity ranged from (0.05 – 4.73) m/s and (0.05 – 0.473) m/s respectively. The transition from plug to slug flow was investigated by increasing the superficial gas velocity at fixed superficial liquid velocity.
For the investigated experimental data set, the intermittent flow was observed at the superficial liquid velocity of 0.142m/s. The transition from plug to slug flow for the experimental data was observed at the superficial velocity of between 0.7 – 1.2m/s.
To characterize the plug – slug transition, the effect of liquid and gas superficial velocity on void fraction, bubble velocity, bubble length and slug frequency were obtained.
Introduction
Two-phase flow occurs when two different fluids move concurrently through a pipe. The exact form of two-phase flow is determined according to the phases appearing in the mixture, namely solid-liquid, gas-solid (e.g. particles in a gas or liquid) and gas-liquid (droplets in gas and gas bubbles in a liquid)(Gschnaidtner, 2015).
The study of two-phase flows is of great importance for several technological applications.
Particularly, gas-liquid two-phase flows are often encountered in a wide range of industrial applications, such as condensers, evaporators, distillation towers, nuclear power plants, boilers, crude oil transportation and chemical plants among others.
Gas-liquid flow is not only the most common of the two-phase flows; it is also the most complex since it combines the characteristics of a deformable interface with those of a compressible phase (Carpintero, 2009).
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