虚拟流量计量的人工智能和数据分析

A. Gryzlov, Liliya Mironova, S. Safonov, M. Arsalan
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引用次数: 1

摘要

油藏管理的现代挑战在生产控制和优化策略方面面临着新的机遇。这些策略反过来又依赖于监测设备的可用性,这些设备用于以足够的准确性实时获得生产率。特别是,多相流量计是一种在不分离流体相的情况下实时测量井中油、气和水的流速的设备。目前,市场上有几种可用的技术,但多相流量计除了维护费用昂贵外,通常无法以令人满意的精度处理所有操作条件范围。虚拟流量测量(VFM)是一种用于间接估计井中油、气和水的流量的数学技术。该方法使用传统传感器(如井下压力和温度计)更容易获得的数据,并通过结合物理多相模型、各种测量数据和优化算法来计算多相速率。在这项工作中,简要概述了虚拟计量方法,然后将几种先进的机器学习技术应用于高动态井筒中多相生产监测的具体案例。利用模拟生产数据的模型,探讨了不同类型机器学习工具的预测能力。同时,还考虑了测量噪声对估计质量的影响。结果表明,数据驱动的方法能够以足够的精度预测多相流量,可以被认为是传统多相流量计的备用方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Artificial Intelligence and Data Analytics for Virtual Flow Metering
Modern challenges in reservoir management have recently faced new opportunities in production control and optimization strategies. These strategies in turn rely on the availability of monitoring equipment, which is used to obtain production rates in real-time with sufficient accuracy. In particular, a multiphase flow meter is a device for measuring the individual rates of oil, gas and water from a well in real-time without separating fluid phases. Currently, there are several technologies available on the market but multiphase flow meters generally incapable to handle all ranges of operating conditions with satisfactory accuracy in addition to being expensive to maintain. Virtual Flow Metering (VFM) is a mathematical technique for the indirect estimation of oil, gas and water flowrates produced from a well. This method uses more readily available data from conventional sensors, such as downhole pressure and temperature gauges, and calculates the multiphase rates by combining physical multiphase models, various measurement data and an optimization algorithm. In this work, a brief overview of the virtual metering methods is presented, which is followed by the application of several advanced machine-learning techniques for a specific case of multiphase production monitoring in a highly dynamic wellbore. The predictive capabilities of different types of machine learning instruments are explored using a model simulated production data. Also, the effect of measurement noise on the quality of estimates is considered. The presented results demonstrate that the data-driven methods are very capable to predict multiphase flow rates with sufficient accuracy and can be considered as a back-up solution for a conventional multiphase meter.
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