在Yamalo-Nenets自治区的地质条件下,高效的PDC钻头设计减少了旋转导向系统钻井时的振动影响

Andrey Garipov, Andrey Aleksandrovich Rebrikov, A. Galimkhanov, A. Mikhaylov, Almaz Khalilov, Denis Sergeevich Kochetkov, D. Tur, Aleksandr Aleksandrovich Yavorsky, Vladimir Aleksandrovich Maltsev, A. Rybalkin, V. Pogurets, Viktor Vyacheslavovich Zolotenkov, D. Levitskiy
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引用次数: 1

摘要

本文介绍了在Yamal-Nenets自治区(YNAO)油田,采用旋转导向系统(RSS)点钻头(PTB)类型设计PDC(聚晶金刚石紧凑型)钻头和井底设备的综合工程方法,以实现高效水平井钻井。本文根据钻头、底部钻具组合(BHA)和振动类型,对不同硬度岩石的钻进效率进行了分析。在Yamal地区,尾管下入井时,影响亚水平段钻井性能的主要制约因素是振动的发生。主要的振动类型是粘滑(S&S)和高频扭振(HFTO)。这些类型的振动通常必须通过限制钻井方式(钻压(WOB)、钻杆(DP) RPM和流速)来减少,这些因素直接影响到钻速(ROP)。为了解决这一问题,提高钻井性能,研究人员根据井下数据对岩石特性进行了地质和地质力学建模,并对突发振动文件进行了分析(在专门的软件中建模)。研究发现了导致PDC钻头高振动冲击的关键因素和过早磨损的原因,为识别以前钻头设计的缺点奠定了基础。还进行了测试梁实验,以评估钻头在钻出套管附件时的磨损情况。研究结果为使用专用软件开发新的PDC钻头设计奠定了基础。作为产出,新型155.6/152.4 mm钻头设计具有创新的切削结构,考虑了YNAO油田钻井尾管段的地质特征和技术方面。新的钻头设计显著降低了振动水平,使用RSS PTB提高了尾管段的ROP性能,并缩短了整个建井时间。这些解决办法为它们在俄罗斯和其他独联体国家的其他项目上进一步实施提供了广泛的机会。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Efficient PDC Bit Designs Reduced Vibrational Impact While Drilling with Rotary Steerable Systems in the Geological Conditions of the Yamalo-Nenets Autonomous District
This article is a description of a comprehensive engineering approach to new designs of PDC (Polycrystalline Diamond Compact) Bits and bottomhole equipment for efficient horizontal wells drilling in the Yamal-Nenets Autonomous Okrug (YNAO) fields with Rotary Steerable Systems (RSS) Point the Bit (PTB) type. The paper represents an analysis of the efficiency of drilling rocks of various hardness depending on the bits, the bottom hole assembly (BHA), and type of vibrations. In the Yamal region fields a main constraint of sub horizontal sections drilling performance for liner run in hole is the occurrence of vibrations. The predominant vibration types are Stick and Slip (S&S) and High Frequency Torsional Oscillations (HFTO). These types of vibrations often had to be reduced by limiting drilling regime (weight on bit (WOB), drill pipe (DP) RPM, and flow rate), which directly affected on the rate of penetration (ROP). To find solutions to this problem for drilling performance improvement, geological and geomechanically modeling of rock properties and an analysis of burst-files of vibrations (modeled in specialized software) were carried out based on downhole data. The studies have found key factors that cause the high vibration impact and reasons for premature wear of the PDC bits, which served as a basis for identifying the shortcomings of previous bit designs. Test beam experiments were also performed to assess the bits wear while drill-out of the casing accessories. The results formed the basis for development of new PDC bits designs using specialized software. As an output new 155.6/152.4 mm bits designs with an innovative cutting structure that considers the geological features and technical aspects of drilling liner sections in YNAO fields were manufactured. The new bit designs have significantly reduced vibration levels, improved ROP performance in the liner section using RSS PTB, and decreased the overall well construction time. These solutions open wide opportunities for their further implementation on other projects both in Russia and in other CIS countries.
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