地面管道原油泄漏检测数据分析技术现状及应用

IF 4.8 Q2 ENERGY & FUELS Journal of Pipeline Science and Engineering Pub Date : 2021-12-01 DOI:10.1016/j.jpse.2021.10.001
Francis Idachaba, Minou Rabiei
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引用次数: 10

摘要

管道压力监测一直是传统和最流行的泄漏检测方法,然而,泄漏检测和定位的延迟加上大量的误报导致了其他基于传感器的检测技术的发展。实时暂态模型(Real Time Transient Model, RTTM)是目前性能指标最好的方法,但它需要收集和分析大量的数据,这反过来又会影响检测速度。泄漏检测算法的开发采用了多种数据挖掘方法,各有优缺点。数学建模用于生成仿真数据,这些数据用于训练泄漏检测和定位模型。数学模型和仿真软件也被证明可以提供与实验数据相当的结果,而且准确度很高。虽然人工神经网络和支持向量机需要大量的训练数据集来开发准确的模型,但数学建模已被证明能够生成所需的数据集,以证明数据分析在开发基于模型的石油管道泄漏检测系统中的应用是正确的。本文介绍了石油和天然气管道的关键泄漏检测策略,特别关注原油应用,并介绍了使用数据分析工具和数学建模开发强大的地面管道实时泄漏检测和定位系统的机会。还介绍了几个案例研究。
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Current technologies and the applications of data analytics for crude oil leak detection in surface pipelines

Pipeline pressure monitoring has been the traditional and most popular leak detection approach, however, the delays with leak detection and localization coupled with the large number of false alarms led to the development of other sensor-based detection technologies. The Real Time Transient Model (RTTM) currently has the best performance metric, but it requires collection and analysis of large data volume which, in turn, has an impact in the detection speed. Several data mining (DM) methods have been used for leak detection algorithm development with each having its own advantages and shortcomings. Mathematical modelling is used for the generation of simulation data and this data is used to train the leak detection and localization models. Mathematical models and simulation software have also been shown to provide comparable results with experimental data with very high levels of accuracy. While the ANN and SVM require a large training dataset for development of accurate models, mathematical modelling has been shown to be able to generate the required datasets to justify the application of data analytics for the development of model-based leak detection systems for petroleum pipelines. This paper presents a review of key leak detection strategies for oil and gas pipelines, with a specific focus on crude oil applications, and presents the opportunities for the use of data analytics tools and mathematical modelling for the development of a robust real time leak detection and localization system for surface pipelines. Several case studies are also presented.

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