Physics Based Machine Learning for Annular Blowout Preventer Health Monitoring
- Moadh Mallek (University of Houston) | Taoufik Wassar (University of Houston) | Matthew A. Franchek (University of Houston)
- Document ID
- Offshore Technology Conference
- Offshore Technology Conference, 4-7 May, Houston, Texas, USA
- Publication Date
- Document Type
- Conference Paper
- 2020. Offshore Technology Conference
- Physics Based, Health Monitoring, BOP Annular, Machine Learning, BOP Condition Monitoring
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- 87 since 2007
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Physics-based models are efficient solutions capable of predicting the dynamic performance of engineering systems. Owing to the rapid data growth in sensor technologies, enormous datasets are readily available creating a unique opportunity to seamlessly fuse analytical physics based models with system data. This integration has produced a physics-based machine learning (PBML) knowledge base that overcomes the costly limitations of deep learning solutions and associated false discoveries of machine learning (ML) methods.
Presented in this paper is a University of Houston invented PBML approach to monitor the condition and performance applied to an annular preventer. A PBML model that describes the relationship between annular closing pressure and its cylinder displacement is derived. The model coefficients are adapted via system identification methods using real time collected data. The resulting coefficients are clustered to classify annular health from early age to middle age to aged cycles using the K-means method. Life cycle test of multiple annular preventers is performed using a full-scale testing facility. The results show that annular elastomer degradation can be detected and quantified using the proposed real-time adaptive physics based model solution given sensing information.
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