Applying artificial neural networks to predict carbon dioxide (CO2) corrosion rate in oil and gas pipeline

https://tapchi.humg.edu.vn/en/archives?article=992
  • Affiliations:

    Khoa Dầu khí, Trường Đại học Mỏ - Địa chất, Việt Nam

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  • Received: 8th-Nov-2018
  • Revised: 5th-Jan-2019
  • Accepted: 28th-Feb-2019
  • Online: 28th-Feb-2019
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Abstract:

Carbon dioxide (CO2) corrosion is one of the major concerns in oil and gas industry. This work attempted to apply Machine Learning method - Artificial Neural Network (ANN) to predict CO2 corrosion rate in pipeline. After collecting, selecting features, pre-processing, a dataset of 40 data with 9 features of pipeline operating parameters has been used for research. Applying newest optimizer RMSprop with algorithm Early-Stopping increases accuracy and reduces the effect of small dataset. An Artificial Neural Network is developed, which has 2 hidden layers with 18 nodes and 9 nodes with activate functions ReLU and Sigmoid in sequence. The empirical model Norsok M-506 was applied to compare performances of models. Root Mean Squared Error (RMSE), Mean Absolute Error (MAE), coefficient of determination (R2) were used as evaluating indicators. The predicted corrosion rates of artificial neural network model R2 = 0.938, RMSE = 0,014, MAE = 0,011 provided higher performance than empirical model Norsok M-506.

How to Cite
Nguyen, H.Phung, Le, V.Duc and Trieu, T.Hung 2019. Applying artificial neural networks to predict carbon dioxide (CO2) corrosion rate in oil and gas pipeline (in Vietnamese). Journal of Mining and Earth Sciences. 60, 1 (Feb, 2019).

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