新型声波和电磁频率技术的结合可检测多个套管背后的泄漏。病历

J. Mata, Zunerge Guevara, L. Quintero, Carlos Vasquez, Hernando Trujillo, Alberto Muñoz, J. Falla
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引用次数: 0

摘要

虽然井管柱泄漏一直存在,但随着成熟油田活动井数量的增加,其发生频率也越来越高。这些泄漏的灾难性风险是石油和天然气行业环境事故数量的增加。泄漏的根本原因之一是腐蚀,腐蚀对油井的生产寿命有负面影响。一般来说,这些环境事件与地表或近地表源有关。由于在该深度范围内存在多个套管柱,因此识别泄漏位置变得极其困难。鉴于此,业界一直在努力改进和开发新技术,以便更准确、更全面地诊断这些泄漏。本文将讨论其中两种技术的发展。第一种是一种新型的用于管道和多层套管金属损耗检测的电磁高清频率工具。这种最先进的技术是对现有工具的显着改进,因为源数量,检测器数量和工作频率范围的重要增加。这些变化的结合允许在一次下入中评估多达5个同心套管的金属损失量。此外,该工具直径小,无需修井机即可与生产管道兼容。这种多功能性显然有助于在决定将钻机移至特定位置之前进行修井前诊断,从而最终解决任何泄漏问题。电磁技术与最新的泄漏检测声学技术相辅相成。自发声源通常与井下流体运动有关。该工具有一个由8个水听器组成的阵列,工作频率范围从100 Hz到100 KHz。这两种不同的技术基于独立的基本原理,可以检测多个同心管道中的泄漏,具有很高的垂直和径向精度,可以识别泄漏的确切位置,小至0.02 L/min。该系统的调查深度可达10英尺。因此,可以检测地层内的流体运动。研究中采用了脉冲中子技术来检测套管后的水运动,以建立除泄漏点外通往地面的流动路径。建立了一个非常复杂的采办计划,这无疑是取得成果的关键因素。电磁工具确定了7英寸套管中严重套管金属损失的深度,声波工具检测了7英寸环空中流体运动的噪音,脉冲中子工具显示了同一段时间内水运动的开始,同一工具串中的温度测井显示了与所有这些测井数据相关的相当大的变化,表明了该井的通信点。在确定了解决方案的独特性后,该诊断帮助作业者确定了该井的干预计划,并在现场开发策略中做出了适当的修正。
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Combination of New Acoustic and Electromagnetic Frequency Technologies Detects Leaks Behind Multiple Casings. Case History
Although leakages in well tubulars have always existed, their occurrence has become very frequent as the number of active wells in mature fields increases. The catastrophic risk of these leaks is an increase in the number of environmental accidents in the oil and gas industry. One of the fundamental causes of leaks is corrosion, which plays a negative role in the productive life of the wells. Generally, these environmental events are associated with surface or near-surface sources. Since multiple casing strings exist within this depth range, the identification of the leak location becomes extremely difficult. In view of this, the industry has put much effort in improving and new technology to be more precise and comprehensive in diagnosing these leaks. The evolution of two of such technologies will be addressed in this paper. The first one is a new electromagnetic high-definition frequency tool for pipes and multiples casing for metal loss detection. This state-of-the-art technology is a noticeable improvement over existing tools, due to an important increase in the number of sources, number of detectors and wide range of working frequencies. The combination of these changes allows for the evaluation of metal loss in up to 5 concentric casings in a single run. Furthermore, the tool is small in diameter which makes it compatible with production pipes without the need of a workover rig. This versatility obviously helps in the preworkover diagnosis before deciding to move a rig to location to eventually remedy any leak problems. The electromagnetic technology is complemented, with the latest leak detection acoustic technology. A spontaneous audio source is normally associated with downhole fluid movements. The tool has an array of 8 hydrophones with a working frequency range from 100 Hz to 100 KHz. These two different technologies based on independent fundamental principles, allows for the detection of leaks in multiple concentric pipes with great vertical and radial precision to identify the exact location of leaks as small as to 0.02 L/min. the depth of investigation of the system is up to 10 feet. Therefore, it is possible to detect fluid movement within the formation. Pulsed neutron technology was included in the study to detect water movement behind the casing to establish the flow path to the surface in addition to the leak point. A very complex acquisition program was established that was undoubtedly a key success factor in the results obtained. The electromagnetic tool determined the depth of severe casing metal loss in 7-inch casing, also the acoustic tool detected the noise of fluid movement in the 7-inch annulus, and the pulsed-neutron tool showed the beginning of water movement at the same interval the temperature log, also included in the same tool string showed a considerable change that correlated with all these logs, indicating the point of communication in this well. After establishing the uniqueness of the solution, this diagnosis helped the operator define an intervention plan for this well, and to make the appropriate corrections in the field development strategy.
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