Comparison of a novel finite element method for sucker rod pump downhole dynamometer card determination based on real world dynamometer cards

IF 2.6 Q3 ENERGY & FUELS
P. Eisner, C. Langbauer, R.K. Fruhwirth
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引用次数: 0

Abstract

An advanced dynamic finite element model is presented that diagnoses the downhole pump performance of sucker rod pumping systems, applicable for any pumping conditions and equipment used. The results are compared to downhole measurements and other state of the art evaluation techniques.

Existing diagnostic tools exhibit specific limitations that reduce their applicability and output quality. This paper introduces a diagnostic tool, which can predict the rod string's stress field and its movement not only at the pump plunger but all along the rod string. Moreover, this tool can account for the interaction between rod guides and tubing as well as rod string and tubing. To this end, innovative tube-to-tube contact modeling is applied. The high precision results are accomplished by running a dynamic finite element simulation. The basic principle is to evaluate the plunger load incrementally by consecutively applying restarts of each time step, fully automated and computation time optimized.

This publication shows that both the plunger load and the rod string's dynamic behavior can be determined for any given wellbore as long as the borehole trajectory and surface dynamometer measurements are known. The dynamic finite element model is evaluated for a deviated system and a vertical system equipped with two different downhole pump types. Comparing the simulation results with the available downhole measurements shows an excellent match. The the proposed solution provides a considerable amount of details about the overall system's behavior. The evaluation has shown that the performance of standard and novel downhole pump types can be successfully diagnosed in detail, which is just possible under limitations with commercial software solutions..

The novelty of the shown technique is the consideration of the full 3D trajectory, the implementation of only physical properties of the equipment used, and a realistic setup. The validation of the model output with measured downhole data indicates an excellent accuracy of the shown model.

有杆泵井下测功卡有限元确定方法的比较
提出了一种先进的有杆抽油泵动态有限元模型,可用于诊断有杆抽油泵系统的井下泵性能,适用于任何工况和设备。将测量结果与井下测量和其他最先进的评估技术进行比较。现有的诊断工具表现出特定的局限性,降低了它们的适用性和输出质量。本文介绍了一种诊断工具,该工具不仅可以预测抽油杆柱塞处的应力场及其运动,还可以预测整个抽油杆柱的应力场及其运动。此外,该工具还可以考虑抽油杆导向器与油管以及抽油杆管柱与油管之间的相互作用。为此,采用了创新的管对管接触建模。通过动态有限元仿真,得到了高精度的结果。基本原理是通过连续应用每个时间步的重新启动来增量评估柱塞负载,完全自动化和计算时间优化。该出版物表明,只要已知井眼轨迹和地面测力仪的测量值,就可以确定任何给定井眼的柱塞载荷和抽油杆柱的动态行为。对斜井系统和安装两种不同类型井下泵的垂直系统的动态有限元模型进行了评估。将模拟结果与现有的井下测量结果进行比较,结果吻合良好。建议的解决方案提供了关于整个系统行为的大量细节。评估表明,标准和新型井下泵的性能都可以成功地进行详细诊断,这在商业软件解决方案的限制下是可能的。该技术的新颖之处在于考虑了完整的3D轨迹,仅实现了所使用设备的物理特性,并进行了真实的设置。利用实测的井下数据对模型输出进行了验证,表明所示模型具有很高的精度。
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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CiteScore
5.50
自引率
0.00%
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