分布式声传感井下监测:油气行业的基本原理和二十年应用

M. Soroush, M. Mohammadtabar, Morteza Roostaei, S. A. Hosseini, Vahidoddin Fattahpour, Mahdi Mahmoudi, Daniel Keough, Matthew Tywoniuk, Nader Mosavat, Li Cheng, K. Moez
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引用次数: 1

摘要

分布式声波传感技术(DAS)通过光纤应用于井下监测已有20多年的历史。几项技术进步使这项技术被广泛接受为一种可靠的监视技术。本文对DAS的所有应用进行了全面的技术综述。本文从光纤部署的基本原理开始。然后,概述了DAS的所有应用,包括地震应用(垂直地震剖面)、微地震(水力压裂表征)、井和管道完整性(如泄漏检测和水泥质量)以及井和管道流量监测。流量监测包括注入和生产流量估计、相确定、气水突破识别、气举监测、泵和流量控制装置性能评估、出砂检测和流态识别。本文综述了DAS的基本原理、光纤类型、安装方法、记录数据类型、数据处理、历史发展、当前应用和局限性。本文对石油工程学会(SPE)发表的200多篇论文和期刊数据库中的几个现场案例进行了简要的回顾。DAS在井下监测中的应用大致可分为定性应用和定量应用。该研究讨论了部署方法、全球油田的具体情况和解释/建模。本文还总结了主要经验教训、关键结果和挑战,包括数据质量、信噪比效应、光纤安装等操作条件以及定量生产预测和流量剖面的复杂性。此外,还对DAS的部署与其他方法的部署进行了比较。该研究为正在进行的通过实时分布式光纤传感(DAS)记录井筒和油藏监测的研究奠定了基础。总结了DAS的历史发展和当前的局限性,以确定存在的差距,并回顾了20年来DAS在井下监测中应用的经验教训。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Downhole Monitoring Using Distributed Acoustic Sensing: Fundamentals and Two Decades Deployment in Oil and Gas Industries
Distributed Acoustic Sensing (DAS) through fiber optic has been deployed in downhole monitoring for over two decades. Several technological advancements led to a wide acceptance of this technology as a reliable surveillance technique. This paper presents a comprehensive technical review of all the applications of DAS. The paper starts with the fundamentals of fiber optic deployment. Then, an overview of all the applications of DAS including seismic application (vertical seismic profiling), microseismic (hydraulic fracturing characterization), well and pipe integrity (such as leak detection and cement quality), and well and pipe flow monitoring is provided. Flow monitoring contains injection and production flow estimation, phase determination, gas and water breakthrough identification, gas lift surveillance, pump and flow control device performance evaluation, sand production detection, and flow regime recognition. This paper reviews the basics of DAS, fiber types, installation methods, types of recorded data, data processing, historical development, current applications and limitations. The paper provides a concise review using several field cases from over two hundred published papers of Society of Petroleum Engineering (SPE) and journal databases. The applications of DAS in downhole monitoring can be generally divided into the qualitative and quantitative applications. The study discusses deployment methods, case by case worldwide field performance and interpretation/modeling. It also summarizes main lessons, key results, and challenges including data quality, signal to noise ratio effect, and operational conditions such as the installation of the fiber and the complexity of quantitative production prediction and flow profiling. In addition, a comparison between deployment of DAS and other methods is reviewed. This study is the foundation for an ongoing study on wellbore and reservoir surveillance through real time distributed fiber optic sensing (DAS) records along the wellbore. It summarizes the historical development and current limitations to identify the existing gaps and reviews the lessons learned during the two decades of the application of DAS in downhole monitoring.
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