Predictive Maintenance &amp; PHM in KSA Using MT EcoSystem

Srinivasan, Hariharan; Madhavan, Rajaram

doi:10.2523/iptc-19662-abstract

Day 2 Tue, January 14, 2020 2020

DOI: 10.2523/iptc-19662-abstract

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Predictive Maintenance & PHM in KSA Using MT EcoSystem

Hariharan Srinivasan

Rajaram Madhavan

Abstract: Technology Lifecycle Management (TLM) is an organization that was developed to bring Equipment Maintenance and Equipment Sustaining Engineering into a single umbrella to deliver Technology Assurance to Operations. This means to better manage and continuously improve the equipment in the field. In the Middle East Center for Reliability and Efficiency (MECRE) we aim every day to ensure that the equipment is maintained at the right level, defects are properly reported, repaired, investigated, work orders are righ… Show more

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Predicting Just in Time: Prognostic Health Management for Oilfield Equipment.

Bannikov

Lyapunov

Pantsurkin

et al. 2020

Day 1 Mon, November 09, 2020

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Delays in the hydraulic fracturing stimulation process due to equipment issues may result in Non-Productive Time (NPT) and often associated with high costs. Both operators and service companies are interested in implementing a system to predict these events in advance so that they can proactively react and prevent failures before they occur. Our objective was to develop, implement, and demonstrate the capabilities of such a system. Based on historical data, we identified the most NPT-prone subcomponents of stimulation equipment. We combined failure reports and maintenance records with sensors data to train Machine Learning (ML) models. The final solution was deployed on the cloud to predict remaining useful time (RUL) in real-time and to start specific notifications sending whenever RUL dropped below the preset value. We analyzed 20,000+ failure records and identified the most NPT-prone equipment, subcomponents, failure modes, and root causes. We found out that root causes are very scattered. We evaluated the applicability of physics-based and data analytics approaches for Top-10 root causes by NPT duration and NPT count. When NPT count per root cause is low (<10), the trained ML models had insufficient accuracy. In this case, only subject matter experts and understanding of physics behind performance deterioration allowed us to boost data-driven models’ accuracy. We started with testing on historical data. Then we continued testing on real-time data without field intervention. This stage was required to check and to build trust in the predictive ability of the models. After initial testing, we eliminated some of the models and switched to monitoring with field interventions. For six months of operating, the model helped to decrease the NPT related to the selected subcomponent by 20 times. This work presents the process of enabling Intelligent Diagnostics for hydraulic fracturing equipment by implementing failure identification and prediction models. It combines both domain knowledge (failure modes of the equipment, sensors data) and recent advances in ML (time series analysis, data processing, and feature engineering). The developed system to be further extended to different equipment, as the workflow described in the present study is not specific to particular equipment.

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Predicting Just in Time: Prognostic Health Management for Oilfield Equipment.

Bannikov

Lyapunov

Pantsurkin

et al. 2020

Day 1 Mon, November 09, 2020

View full text Add to dashboard Cite

show abstract

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Predictive Maintenance & PHM in KSA Using MT EcoSystem

Cited by 1 publication

References 0 publications

Predicting Just in Time: Prognostic Health Management for Oilfield Equipment.

Predicting Just in Time: Prognostic Health Management for Oilfield Equipment.

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