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Title: | Automatic failure diagnosis for flow control valves | | Authors: | E. Ruijs, X. Jiang, T. Park, R.R. Negenborn |
| Conference: | 6th International Conference on Maritime Technology and Engineering (MARTECH2022) | Address: | Lisbon, Portugal | Date: | May 2022 |
| Abstract: | The increased implementation of digitalisation all over the world has led to an exponential growth of available data across various industries. Consequently, there is a large growth of Machine Learning (ML) techniques being applied to process data. In oil refineries, various types of process equipment are used, of which flow control valves are essential to regulate the throughput of heavy, possibly dangerous material. Control valve failures can lead to production loss and increased maintenance costs. This paper addresses the use of time-series data of the valve controller for automated failure diagnosis of flow control valves. Statistical features are extracted from the time-series and the significant predictors for the output are adopted in the model using the ANOVA test. The classification and prediction of the failure behaviour are performed using Random Forest (RF) classification. The performance of the diagnosis is measured in terms of accuracy level and log loss. Findings show that five failure behaviour categories can be predicted, using testing data for the model, with sufficient accuracy (81%). |
| Reference: | Automatic failure diagnosis for flow control valves. E. Ruijs, X. Jiang, T. Park, R.R. Negenborn. Accepted for the 6th International Conference on Maritime Technology and Engineering (MARTECH2022), Lisbon, Portugal, May 2022. | | Request: | A
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