荧光微球法在含凝析液水平井中的应用效率

M. Klimov, R. Ramazanov, Nadir Husein, Vishwajit Upadhye, A. Drobot, Igor Novikov, A.Y. Bydzan, R. Gazizov, A. Buyanov
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引用次数: 0

摘要

目前,难采储量占常规油气总储量的比重不断上升,已超过65%。这使得投入生产的水平井数量不断增加。在评价水平井资源采收率,进而评价凝析气田开发的有效性时,关键是要对水平井产能进行评价。为了完成这项任务,有必要获得每个层段的储层流体生产剖面。在直井中行之有效的常规测井方法,在水平井中,将需要昂贵的资产密集型应用,如连续油管,井下拖拉机输送测井工具,如果使用泵,y形工具旁通系统。此外,由于多相流动和流体流量的变化,水平井测井资料解释的可靠性较低。基于荧光的纳米材料生产分析监测技术可以作为解决这一问题的可行方案,它使开发难以回收的储量的方法更便宜、更有效。该技术假设示踪剂以各种形式放置在井下,例如下部完井时的标记带、多级水力压裂时支撑剂聚合物涂层中的标记、水力压裂时作为压裂液中的标记或井底酸化处理时作为压裂液中的标记。纳米示踪剂生产剖面与传统测井方法的根本区别在于,前者可以长时间监测井中压裂端口的生产情况,所需设备和人力少得多,降低了成本,改善了HSE。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fluorescent Microspheres Method Efficiency in Horizontal Wells with Gas Condensate Liquid
The proportion of hard-to-recover reserves is currently increasing and reached more than 65% of total conventional hydrocarbon reserves. This results in an increasing number of horizontal wells put into operation. When evaluating the resource recovery efficiency in horizontal wells, and, consequently, the effectiveness of the development of gas condensate field, the key task is to evaluate the well productivity. To accomplish this task, it is necessary to obtain the reservoir fluid production profile for each interval. Conventional well logging methods with proven efficiency in vertical wells, in case of horizontal wells, will require costly asset-heavy applications such as coiled tubing, downhole tractors conveying well logging tools, and Y-tool bypass systems if pump is used. In addition, the logging data interpretation in the case of horizontal wells is less reliable due to the multiphase flow and variations of the fluid flow rate. The fluorescent-based nanomaterial production profiling surveillance technology can be used as a viable solution to this problem, which enables cheaper and more effective means of the development of hard-to-recover reserves. This technology assumes that tracers are placed downhole in various forms, such as marker tapes for lower completions, markers in the polymer coating of the proppant used for multi-stage hydraulic fracturing, and markers placed as fluid in fracturing fluid during hydraulic fracturing or acid stimulation during bottom-hole treatment. The fundamental difference between nanomaterial tracers production profiling and traditional logging methods is that the former offers the possibility to monitor the production at frac ports in the well for a long period of time with far less equipment and manpower, reduced costs, and improved HSE.
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