Sucker Rod Anti-Buckling System to Enable Cost-Effective Oil Production

Langbauer Clemens, F. Rudolf, Hartl Manuel, H. Herbert
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引用次数: 8

Abstract

In days where the oil price is low, cost optimization is of vital importance. Especially in mature oil fields, the reduction of lifting costs by increasing the mean time between failure and the overall efficiency helps to stay economical and increase the final recovery factor. Today a significant portion of artificially lifted wells use sucker rod pumping systems. Although its efficiency is in the upper range, compared to other artificial lift systems, there is room for improvement and system optimization. This paper presents the benefits of the field-tested Sucker Rod Anti-Buckling System (SRABS), which can entirely prevent compressive loads from the sucker rod string by a redesign of the standing valve, the advantageous use of the dynamic liquid level, and the on a case-by-case basis application of a tension mass. This results in complete buckling prevention and a reduction of the overall stress in the sucker rod string. The resulting reduction in the number of well interventions in combination with the higher overall pumping efficiency prolongs economic production in mature oil fields, even in times of low oil prices. The analysis of SRABS, using simulations, showed a significant increase in the overall efficiency. The SRABS performance and wear tests under large-scale conditions are performed at the Montanuniversitaet Leoben's Pump Testing Facility and in the field. The self-developed Pump Testing Facility can simulate the conditions of a 500 m deep well, including the effects of dynamic liquid pressure and temperature. Testing of SRABS has identified major benefits in comparison to standard sucker rod pumps. The results of intensive testing are used to optimize the geometry of the pump body itself and to improve the wear resistance by selecting optimal materials for the individual pump components. SRABS itself can be applied within every sucker rod pumping system; the installation is as convenient as for a standard pump, and manufacturing costs are comparable with those of a standard pump. This paper shows the high performance of the SRABS pumping system in comparison to a standard sucker rod pump.
抽油杆防屈曲系统可实现经济高效的采油
在油价较低的情况下,成本优化至关重要。特别是在成熟油田,通过增加平均故障间隔时间和整体效率来降低举升成本,有助于保持经济性并提高最终采收率。如今,大部分人工举升井都采用了有杆抽油系统。虽然其效率处于较高范围,但与其他人工举升系统相比,仍有改进和系统优化的空间。本文介绍了现场测试的抽油杆抗屈曲系统(SRABS)的优点,通过重新设计立式阀,动态液位的优势以及逐个应用张力质量,可以完全防止抽油杆管柱的压缩载荷。这可以完全防止屈曲,并降低抽油杆管柱的总应力。由此产生的干预井数量的减少,加上更高的整体泵送效率,延长了成熟油田的经济产量,即使在低油价时期也是如此。通过仿真分析,SRABS的整体效率显著提高。SRABS在大规模条件下的性能和磨损测试是在蒙塔纳大学Leoben的泵测试设施和现场进行的。自主开发的泵试验装置可以模拟500m深井的工况,包括动液压力和动液温度的影响。与标准有杆泵相比,SRABS的测试已经确定了其主要优势。密集测试的结果用于优化泵体本身的几何形状,并通过为各个泵部件选择最佳材料来提高耐磨性。SRABS本身可以应用于任何有杆抽油系统;安装与标准泵一样方便,制造成本与标准泵相当。本文展示了SRABS泵系统与标准有杆泵相比的高性能。
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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