Journal
FLOW MEASUREMENT AND INSTRUMENTATION
Volume 60, Issue -, Pages 17-23Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.flowmeasinst.2018.02.008
Keywords
Two-phase flow; Gamma-ray absorption; Pattern recognition; Computational intelligence methods; Artificial neural networks
Funding
- Rzeszow University of Technology [U-713/DS]
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Liquid-gas flows in pipelines occur frequently in the mining, nuclear, and oil industry. One of the non-contact techniques useful for studying such flows is the gamma ray absorption method. An analysis of the signals from scintillation detectors allows us to determine the number of flow parameters and to identify the flow structure. In this work, four types of liquid-gas flow regimes as a slug, plug, bubble, and transitional plug - bubble were evaluated using computational intelligence methods. The experiments were carried out for water-air flow through a horizontal pipeline. A sealed Am-241 gamma ray source and a NaI(Tl) scintillation detector were used in the research. Based on the measuring signal analysis in the time domain, nine features were extracted which were used at the input of the classifier. Six computational intelligence methods (K-means clustering algorithm, single decision tree, probabilistic neural network, multilayer perceptron, radial basic function neural network and support vector machine) were used for a two-phase flow structure identification. It was found that all the methods give good recognition results for the types of flow examined. These results confirm the usefulness of gamma ray absorption in combination with artificial intelligence methods for liquid-gas flow regime classification.
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