Abstract
Oil and gas pipelines are lifelines for a country’s economic survival. As a result, they must be closely monitored to maximize their performance and avoid product losses in the transportation of petroleum products. However, they can collapse, resulting in dangerous repercussions, financial losses, and environmental consequences. Therefore, assessing the pipe condition and quality would be of great significance. Pipeline safety is ensured using a variety of inspection techniques, despite being time-consuming and expensive. To address these inefficiencies, this study develops a model that anticipates sources of failure in oil pipelines based on specific factors related to pipe diameter and age, service (transported product), facility type, and land use. The model is developed using a multilayer perceptron (MLP) neural network, radial basis function (RBF) neural network, and multinomial logistic (MNL) regression based on historical data from pipeline incidents. With an average validity of 84% for the MLP, 85% for the RBF, and 81% for the MNL, the models can forecast pipeline failures owing to corrosion and third-party activities. The developed model can help pipeline operators and decision makers detect different failure sources in pipelines and prioritize the required maintenance and replacement actions.
Highlights
Pipelines, which are the oil and gas industry’s backbone, convey petroleum products in a variety of settings [1,2]
For the radial basis function (RBF) model, the predictors are arranged in the following order of importance: service, facility, land use, age, and diameter
The receiver operating characteristic (ROC) curve is a diagnostic method for evaluating classification problems
Summary
Pipelines, which are the oil and gas industry’s backbone, convey petroleum products in a variety of settings (i.e., onshore or offshore) [1,2]. The first oil pipeline, constructed in Pennsylvania in 1879, was 109 miles long and 6 inches in diameter [3]. Over 2 million miles of pipeline have been built in 120 countries around the world. The United States has 65% of the total pipeline length in the globe, followed by Russia at 8% and Canada at. The three countries account for about 75% of the pipeline’s overall length [4].
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