Understanding Flow Through Interwell Tracers

Cristhian Camilo Tello Bahamon, G. Mora, T. Acosta, German Alberto Manrique, D. Quintero
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引用次数: 3

Abstract

This paper presents the successful implementation of an interwell tracer program performed in a multilayered reservoir with mature waterflooding. The objectives of the program are to evaluate water channeling in a high water cut field and, assess sweep efficiency improvements in an EOR pilot test. An extensive methodology was prepared to ensure the quality of the program. The first stage followed the screening of areas and reservoir layers with underperforming waterflooding. After that, the design stage included a selection of tracer available in the market, volume calculation and breakthrough time simulations. The execution plan defined the optimum injection rates, equipment and lab tests requirements for the monitoring and field sampling schedule. The results were being recorded in a monthly progress report and analyzed by a technical team in charge of the project. Interwell tracers made possible to confirm water channeling issues and provided information about the severity of preferential flow using the breakthrough times obtained for each reservoir layer. It was also possible to observe how changes in injection rate impacted the recovery of the tracers, creating different flow patterns at different flow rates. The six-month monitoring ended with the estimation of channel volume to design water conformance treatments. In addition, the findings from the interwell tracer conducted in the EOR pilot test showed an increase in the breakthrough time after three years of polymer flooding and, a change in flow patterns that allowed the displacement of previously bypassed oil. These results are interpreted as a measurable improvement of sweep efficiency and served as input to appraise the performance of the pilot test.
了解井间示踪剂的流动情况
本文介绍了在成熟注水多层油藏中成功实施的井间示踪剂方案。该项目的目标是评估高含水油田的水通道,并在EOR先导测试中评估波及效率的提高。为了保证项目的质量,制定了广泛的方法。第一阶段是对注水效果不佳的区域和储层进行筛选。在此之后,设计阶段包括市场上可用的示踪剂的选择,体积计算和突破时间模拟。执行计划定义了最佳注入速率、设备和实验室测试要求,以进行监测和现场采样计划。结果被记录在每月的进度报告中,并由负责该项目的技术团队进行分析。井间示踪剂可以确认水窜问题,并利用每个储层获得的突破时间提供有关优先流动严重程度的信息。还可以观察到注射速率的变化如何影响示踪剂的回收率,在不同的流速下产生不同的流动模式。为期六个月的监测以估计河道体积来设计水一致性处理结束。此外,在EOR先导试验中进行的井间示踪剂测试结果表明,经过三年的聚合物驱后,突破时间增加了,流动模式的改变使得之前被绕过的石油得以置换。这些结果被解释为扫描效率的可测量改善,并作为评估先导测试性能的输入。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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