Wear Resistant, Friction Reducing Coatings Reduce Tubing Wear in Sucker Rod Couplings Application: Lab Testing and Field Trial Results

Matthew S. Jackson, D. A. Howell, J. R. Bailey, Srinivasan Rajagopalan, A. Ozekcin, G. Inglish, C. Allen
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Abstract

Two novel wear-resistant, low-friction coatings were evaluated on sucker rod couplings in both laboratory and field settings. Laboratory testing simulated cyclic downhole motion while applying a realistic side loading of 74 lbs. force to mimic conditions in which tubing wear typically occurs. Standard spray-metal couplings were compared with coated couplings to assess tubing and coupling wear after 450,000 cycles. Three wells with high tubing failure frequencies were selected as field candidates for the coated couplings to assess their impact on tubing failure frequency. The coupling placement in the rod string targeted known areas of high wear in the production tubing of each well. Laboratory results showed that both coatings reduced tubing wear substantially when compared with the standard spray-metal couplings. Coating A reduced wear by a factor of 2X, and Coating B reduced wear by a factor of 6.6X, with the tubing still within drift ID after 450,000 cycles. During the lab tests, 0.0023 inches of material were removed from Coating A and 0.0001 inches was removed from Coating B. During field trials, Coating A increased the tubing life from an average of 5 to 20 (4X) months without failure in the two wells tested, at which point the field trial was ended. Coating B increased the tubing life from 6 to 19 (3.1X) months in the single sand producing well in which it was tested. Coating A was tested in a well with low sand concentration and Coating B was tested in a well with substantial sand present, showing that Coating B was able to perform in a more abrasive environment. In summary, the described coatings drastically reduced tubing wear in the lab which also translated directly into a reduction in frequency of costly tubing repair workovers. This paper presents how novel wear-resistant friction-reducing coated couplings can improve performance of problematic sucker rod pump wells that experience a high frequency of tubing failures due to wear.
耐磨、减摩擦涂层可减少抽油杆联轴器中油管的磨损:实验室测试和现场试验结果
在实验室和现场环境中,对两种新型耐磨、低摩擦涂层在抽油杆联轴器上的应用进行了评估。实验室测试模拟了74磅侧载荷下的井下循环运动。模拟油管磨损的典型情况。在45万次循环后,对标准喷涂金属联轴器进行比较,评估油管和联轴器的磨损情况。选择了三口油管故障频率较高的井作为现场候选井,以评估涂层联轴器对油管故障频率的影响。在抽油杆柱上安装接箍的目标是每口井生产油管中已知的高磨损区域。实验结果表明,与标准的喷射金属联轴器相比,这两种涂层都大大减少了油管的磨损。涂层A将磨损降低了2倍,涂层B将磨损降低了6.6倍,在45万次循环后,油管仍在漂移内径内。在实验室测试中,涂层A去除0.0023英寸材料,涂层b去除0.0001英寸材料。在现场测试中,涂层A将油管的平均寿命从5个月增加到20个月(4个月),在测试的两口井中没有出现故障,此时现场试验结束。在测试的单口出砂井中,涂层B将油管寿命从6个月延长至19个月(3.1倍)。涂层A在含砂量较低的井中进行了测试,涂层B在含砂量较大的井中进行了测试,结果表明,涂层B能够在磨蚀性较强的环境中发挥作用。总之,所述涂层在实验室中显著降低了油管磨损,这也直接转化为降低了昂贵的油管修井频率。本文介绍了新型耐磨减摩涂层联轴器如何改善因油管磨损而频繁发生故障的有杆泵井的性能。
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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