通过实施预测性维护,使用人工智能来减少esp的操作中断

Nico Jansen van Rensburg
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引用次数: 6

摘要

电潜泵(esp)是一种高效的人工举升方法,可以提高陆上和海上油井的产油量。ESP下入后,整个泵和电机组件被放置在地面以下的油藏中。esp一旦投入使用,必须仔细维护,确保其高度可靠,并始终可用,以防止因意外的泵故障而导致昂贵的生产中断。通常,esp连接到SCADA或其他分布式控制系统,为其有效运行和运行可见性提供监督和控制功能。目前,有许多诊断方法可以利用自动化系统中的功能来确定ESP系统的健康状况和状态。然而,虽然这些方法可以提供对问题的深刻分析,但它们通常只提供故障事件发生后的回顾视图。但这种情况正在改变。随着人工智能(AI)的最新进展与新的物联网(IoT)技术的结合,可以有效地使用由大数据集推动的数据驱动分析。特别是,涉及深度学习和神经网络的人工智能技术,可以根据从系统收集的数据,非常有效地检测esp等复杂物理系统的异常行为,为修复或管理原因问题提供决策支持。本文重点介绍了采用这种人工智能技术组合来检测、标记和修复esp的异常行为的结果,这可以提高esp的可用性并防止生产中断。该案例涉及30台esp,泵的功率从200-500千瓦不等,安装在一个中深度的陆上油田。本文讨论了已部署的解决方案的架构,并解释了它如何支持预测性维护模型,该模型能够在ESP发生故障和中断生产之前准确识别异常的ESP操作行为。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Usage of Artificial Intelligence to Reduce Operational Disruptions of ESPs by Implementing Predictive Maintenance
The use of electrical submersible pumps (ESPs) is a highly effective artificial lift method for boosting oil production from wells operating in both onshore and offshore fields. When an ESP is deployed, its complete pump and electrical motor assembly is positioned below the surface within the oil reservoir that the well has tapped. Once deployed, the ESPs must be carefully maintained to be highly reliable and always available to prevent costly production disruptions due to unexpected pump failures. Typically, ESPs are connected to SCADA or other distributed control systems to provide supervisory and control functions for their effective operation as well as for operational visibility. Today, many diagnostic methods are available to determine the health and status of an ESP system by making use of that functionality in its automation system. However, while these methods can provide insightful analysis of problems, they usually only provide retrospective views after failure events have occurred. But this situation is changing. With recent advances in artificial intelligence (AI) combined with the new Internet of Things (IoT) technologies, it is possible to effectively use data-driven analytics fueled by large data sets. In particular, AI technology that involves deep learning and neural networks can be extremely effective in detecting abnormal behavior of complex physical systems such as ESPs, based on the data gathered from the system, providing decision support for remediating or managing the causative issues. This paper focuses on the results of implementing this AI technology combination to detect, flag, and remediate abnormal behavior for ESPs, which can increase their availability and prevent production disruptions. The subject use case involved 30 ESPs, with pumps ranging from 200–500 kW in power, installed in a medium-depth onshore oil field. The paper discusses the architecture of the solution that was deployed and explain how it supports a predictive maintenance model that is capable of accurately identifying abnormal ESP operating behaviors in advance before an ESP can fail and disrupt production.
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