Electronics (Feb 2022)

Applying Data Mining and Artificial Intelligence Techniques for High Precision Measuring of the Two-Phase Flow’s Characteristics Independent of the Pipe’s Scale Layer

  • Abdulilah Mohammad Mayet,
  • Ahmed S. Salama,
  • Seyed Mehdi Alizadeh,
  • Slavko Nesic,
  • John William Grimaldo Guerrero,
  • Ehsan Eftekhari-Zadeh,
  • Ehsan Nazemi,
  • Abdullah M. Iliyasu

DOI
https://doi.org/10.3390/electronics11030459
Journal volume & issue
Vol. 11, no. 3
p. 459

Abstract

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Scale formation inside oil and gas pipelines is always one of the main threats to the efficiency of equipment and their depreciation. In this study, an artificial intelligence method method is presented to provide the flow regime and volume percentage of a two-phase flow while considering the presence of scale inside the test pipe. In this non-invasive method, a dual-energy source of barium-133 and cesium-137 isotopes is irradiated, and the photons are absorbed by a detector as they pass through the test pipe on the other side of the pipe. The Monte Carlo N Particle Code (MCNP) simulates the structure and frequency features, such as the amplitudes of the first, second, third, and fourth dominant frequencies, which are extracted from the data recorded by the detector. These features use radial basis function neural network (RBFNN) inputs, where two neural networks are also trained to accurately determine the volume percentage and correctly classify all flow patterns, independent of scale thickness in the pipe. The advantage of the proposed system in this study compared to the conventional systems is that it has a better measuring precision as well as a simpler structure (using one detector instead of two).

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