Original scientific paper

https://doi.org/10.17794/rgn.2024.4.12

FLOW PATTERN PREDICTION IN HORIZONTAL AND INCLINED PIPES USING TREE-BASED AUTOMATED MACHINE LEARNING

Agash Uthayasuriyan ; Department of Multidisciplinary Graduate Engineering, Northeastern University, Boston, United States of America
Ugochukwu Ilozurike Duru ; Department of Petroleum Engineering, Federal University of Technology, Owerri, Nigeria
Angela Nwachukwu ; Department of Petroleum Engineering, Federal University of Technology, Owerri, Nigeria
Thangavelu Shunmugasundaram ; Department of Computer Science and Engineering, Amrita School of Computing, Coimbatore, India
Jeyakumar Gurusamy ; Department of Computer Science and Engineering, Amrita School of Computing, Coimbatore, India *

* Corresponding author.

Abstract

In the oil and gas industry, understanding two-phase (gas-liquid) flow is pivotal, as it directly influences equipment design, quality control, and operational efficiency. Flow pattern determination is thus fundamental to industrial engineering and management. This study utilizes the Tree-based Pipeline Optimization Tool (TPOT), an Automated Machine Learning (AutoML) framework that employs genetic programming, in obtaining the best machine learning model for a provided dataset. This paper presents the design of flow pattern prediction models using the TPOT. The TPOT was applied to predict flow patterns in 2.5 cm and 5.1 cm diameter pipes, using datasets from existing literature. The datasets went through handling of imbalanced data, standardization, and one-hot encoding as data preparation techniques before being fed into TPOT. The models designed for the 2.5 cm and 5.1 cm datasets were named as FPTL_TPOT_2.5 and FPTL_TPOT_5.1, respectively. A comparative analysis of these models alongside other standard supervised machine learning models and similar state-of-the-art similar two-phase flow prediction models was carried out and the insights on the performance of these TPOT designed models were discussed. The results demonstrated that models designed with TPOT achieve remarkable accuracy, scoring 97.66% and 98.09%, for the 2.5 cm and 5.1 cm datasets respectively. Furthermore, the FPTL_TPOT_2.5 and FPTL_TPOT_5.1 models outperformed other counterpart machine learning models in terms of performance, underscoring TPOT’s effectiveness in designing machine learning models for flow pattern prediction. The findings of this research carry significant implications for enhancing efficiency and optimizing industrial processes in the oil and gas sector.

Keywords

multiphase flow; two-phase flow; flow pattern prediction; machine learning; AutoML

Hrčak ID:

321509

URI

https://hrcak.srce.hr/321509

Publication date:

10.10.2024.

Article data in other languages: croatian

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