Full set of design solutions for oil leakage at the top of energy storage device

Can Olga software detect simultaneous leaks in oil pipelines?

No previous studies have explored the detection and localization of simultaneous leaks in oil pipelines employing this particular approach. The conditions in the assessment were closely compared to real scenarios using OLGA software.

How to detect leaks in high-pressure oil pipelines?

A general multiple leak detection and localization method for high-pressure oil pipelines has been proposed. Fisher method has been implemented as a data fusion method in sensor array applications to improve the estimation accuracy. A realistic oil pipeline has been simulated by OLGA and PVTSIM.

How to estimate multiple leaks in long-distance oil pipelines?

In this study, multiple leaks in long-distance oil pipelines are estimated using a two-stage decision-making scheme. Arrays of sensors are proposed for improving the reliability and accuracy of simultaneous leak estimations, replacing the traditional reliance on single sensors along pipelines.

How can a two-stage decision-making approach address leak detection and gradient identification?

A two-stage decision-making approach is proposed to address accurate leak detection and real-time gradient identification. A general multiple leak detection and localization method for high-pressure oil pipelines has been proposed.

How to detect and pinpoint simultaneous leaks in oil pipelines?

To precisely detect and pinpoint simultaneous leaks, we adopt a combined strategy involving data fusion and real-time identification of friction function. No previous studies have explored the detection and localization of simultaneous leaks in oil pipelines employing this particular approach.

What is a multiple leakages monitoring approach?

The assessment of the multiple leakages monitoring approach involves evaluating different scenarios involving simultaneous leaks, each accounting for 30 % of the pipeline's total flow magnitude. These scenarios encompass two simultaneous leaks occurring at distinct pipeline segments—the beginning, middle, and end of the oil pipeline.