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Real-Time Liquid Rate and Water Cut Prediction From the Electrical Submersible Pump Sensors Data Using

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This study introduces a data-driven virtual flow metering (VFM) method for electrical submersible pumps. It accurately predicts real-time flow rates and water cut using sensor data, offering a cost-effective alternative to traditional methods.

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Area of Science:

  • Petroleum Engineering
  • Data Science
  • Artificial Intelligence

Background:

  • Traditional multiphase flow rate calculations in oil and gas wells are costly and lack trend identification.
  • Virtual Flow Metering (VFM) is gaining traction as an efficient alternative in the industry.
  • Electrical submersible pumped (ESP) wells present unique challenges for accurate flow rate estimation.

Purpose of the Study:

  • To develop and validate a novel data-driven approach for real-time multiphase flow rate calculation in ESP wells.
  • To present a cost-effective and accurate alternative to physical multiphase flow meters and production testing.
  • To demonstrate the efficacy of integrated machine learning models for VFM in ESP applications.

Main Methods:

  • A robust workflow combining symbolic regression, extreme gradient boosted trees, and a deep learning model (CNN-LSTM).
  • Utilizing data from pump sensors to predict liquid rate and water cut in real time.
  • Developing a pipeline of convolutional neural network (CNN) and long short-term memory (LSTM) layers for predictive modeling.

Main Results:

  • The proposed data-driven VFM approach accurately predicts liquid rate and water cut in real time.
  • The methodology proves to be a cost-effective solution compared to conventional flow metering techniques.
  • The study highlights the significant potential of data-driven methods for VFM in ESP wells.

Conclusions:

  • The developed VFM method offers a reliable and economical solution for monitoring and optimizing production in ESP wells.
  • This data-driven approach enhances the capabilities of virtual flow metering in the oil and gas sector.
  • The findings underscore the effectiveness of combining advanced machine learning techniques for real-time well performance analysis.