Abstract

To the best knowledge of the authors, in former studies in the field of measuring volume fraction of gas, oil, and water components in a three-phase flow using gamma radiation technique, the existence of a scale layer has not been considered. The formed scale layer usually has a higher density in comparison to the fluid flow inside the oil pipeline, which can lead to high photon attenuation and, consequently, reduce the measuring precision of three-phase flow meter. The purpose of this study is to present an intelligent gamma radiation-based, nondestructive technique with the ability to measure volume fraction of gas, oil, and water components in the annular regime of a three-phase flow independent of the scale layer. Since, in this problem, there are several unknown parameters, such as gas, oil, and water components with different amounts and densities and scale layers with different thicknesses, it is not possible to measure the volume fraction using a conventional gamma radiation system. In this study, a system including a 241Am-133Ba dual energy source and two transmission detectors was used. The first detector was located diametrically in front of the source. For the second detector, at first, a sensitivity investigation was conducted in order to find the optimum position. The four extracted signals in both detectors (counts under photo peaks of both detectors) were used as inputs of neural network, and volume fractions of gas and oil components were utilized as the outputs. Using the proposed intelligent technique, volume fraction of each component was predicted independent of the barium sulfate scale layer, with a maximum MAE error of 3.66%.

Highlights

  • Numerous applications for multiphase flow meters exist in the petrochemical and oil industries

  • This study aims at presenting an intelligent gamma radiationbased system that can measure the oil, gas, and water components’ volume fraction in a three-phase flow’s annular regime independent of the scale layer

  • The percentages of gas, oil, and water volume fractions were measured independent of the barium sulfate scale layer

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Summary

Introduction

Numerous applications for multiphase flow meters exist in the petrochemical and oil industries. There is a need to monitor multiphase flow continuously at some points. Some of these points include the gas–oil separator units and the wellhead collection lines. Monitoring at these points is of great value. The three-phase flow’s volume fraction can be determined through several methodologies. One of the best methodologies is the gamma radiation-based technique, which is a nondestructive and reliable tool. One of the earliest studies was conducted in 1980, when

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