人工智能驱动的井时线优化

J. Dalgliesh, Allen Jones, A. Palanisamy, Justin Schmauser
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引用次数: 0

摘要

人工智能和机器学习算法为能源公司提供了利用公共和公司特定的历史井数据数字化重建井历史的可能性。在本文中,我们讨论了石油和天然气公司如何为油气井创建一个数字知识层,提供重大井事件的时间表。关键时间轴事件的例子包括,何时发生井涌等钻井问题,何时测试防喷器,何时测量井底压力,以及何时进行油井干预。新一代人工智能驱动的应用程序是由计算知识图和人工智能算法的结合提供支持的。这些人工智能算法将石油技术工程师等专业专家的专业知识进行编码,并将他们的经验与从数据库、文档和传感器中提取的数十年历史井事件数据相结合,自动创建井事件时间表。该技术丰富并结合了公司内部孤立的井数据和公共井数据,为井创建了一个集成的数字知识层。工程师可以通过可视化的交互式时间轴来优化井的生命周期,从而了解井的情况并做出决策。石油技术工程师可以轻松获得与人员、设备、供应商、井等相关的知识,因此他们可以更快地做出更好、更明智的决策。我们展示了如何训练应用程序的机器学习算法来读取成千上万的历史报告,以获取有关油井的知识,并将提取的知识存储在企业数字知识层中。通过使用人工智能驱动的应用程序收集和捕获的知识,经验丰富的工程师可以做出更好的决策,优化上游资产的运营。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
AI-Driven Well Timelines for Well Optimization
Artificial intelligence and machine learning algorithms provide energy companies with the possibility to digitally re-construct well histories, using both public and company specific historical well data. In this paper we discuss how oil and gas companies are creating a digital knowledge layer for oil and gas wells that provide a timeline of significant well events. Examples of key timeline events include, when drilling problems such as kicks happened, when blowout preventers were tested, when bottom hole pressures were taken, and when well interventions were done. This new generation of AI-driven applications are powered by a combination of a computational knowledge graphs and AI algorithms. These AI algorithms encode the expertise of subject-matter experts such as Petro-technical engineers and combine their experience with decades of historical well-events data extracted from databases, documents, and sensors to automatically create well event timelines. This technology enriches and combines companies’ internal siloed well data with public well data to create an integrated digital knowledge layer for wells. Engineers can optimize the life cycle of the wells by visually exploring this interactive timeline to understand and make decisions about the well. Petro-technical engineers have easy access to knowledge related to people, equipment, vendors, wells and more, so they can make better, more informed decisions faster. We show how we train the application's machine learning algorithms to read hundreds of thousands of historical reports to harvest knowledge about the well and store the extracted knowledge in an enterprise digital knowledge layer. By using the knowledge harvested and captured by this AI-driven application, experienced engineers can make better decisions that optimize the operations of their upstream assets.
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