The Key Technologies of Ultra-Deep Hpht Horizontal Wells and Its Application in Shunbei Oilfield of SINOPEC

Binzhen Bai, Yijin Zeng, Xinbian Lu, Hongning Zhang, Zhifa Wang, Long Wang, Haobo Zhou, Eduardo David Gramajo Silva, Rached Rached Maurice
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Abstract

There was nearly 1.7 billion tons proved reserve in SINOPEC Shunbei oilfield, which is the deepest (>8000m) fault controlled marine carbonate oilfield in the world with high-temperature (>170 °C) and high -pressure (>140MPa). The formation geological conditions are complicated, high rock strength, easy leakage and collapse, multiple pressure systems co-exist in the slim borehole, which caused a series of directional drilling technical problems such as difficulty in controlling the tool surface, PDM build-up capacity prediction and so on. Therefore, the related research for ultra-deep direction drilling technology were carried out aiming at solving the directional drilling problem for Shunbei oilfield. Firstly, the optimized wellbore structure scheme design method was proposed, in which the geological characteristics, borehole size and the directional efficiency were considered. And then a double augmented well profile designed model was established based on optimizing the production casing size, through which the directional efficiency and the drilling rate of a trip were increased significantly, and the nonproductive time can be greatly reduced easily. Secondly, an ultra-deep directional well torque transmission prediction model was established based on the mechanical analysis of ultra-deep drilling string and based which a rapid tool face control method was formed. Furthermore, an innovative build-up rate prediction method was established based on both big Data analysis and balanced tendency build-up rate prediction method, and the accuracy is more than 90%. Moreover, the PDM rubber seal, stator and rotor dimensions are optimized to achieve high power output within a certain high temperature range to prolong the service life according to the wellbore temperature field. Finally, the optimization of high temperature MWD instrument and matching process technology was proposed, such as surface assisted cooling, borehole size enlarging and high displacement cooling technology effectively improve the reliability. The series of ultra-deep directional drilling technology has been applied in Shunbei oilfield. The field application results show that the average ROP of directional section is increased by more than 30%, directional efficiency is greatly improved, and the directional drilling cycle is shortened by more than 20%. Nearly 40 ultra-deep directional wells above 8000m have been constructed, setting more than 10 new Asia records of petroleum engineering onshore directional well. There are two innovations in this paper. The first is to put forward the design method of wellbore profile with the shortest drilling time as the goal, which can save 1-2 trips and improve the directional efficiency by more than 20%. The second is to introduce the prediction method of build-up rate based on borehole tendency angle, which improves the prediction accuracy of build-up rate by 28% in Shunbei ultra deep directional well.
超深高温水平井关键技术及其在中国石化顺北油田的应用
中石化顺北油田探明储量近17亿吨,是目前世界上断裂控制最深(bbb8 000m)、高温(>170℃)、高压(>140MPa)的海相碳酸盐岩油田。小井眼地层地质条件复杂、岩石强度高、易漏塌、多种压力系统并存,造成了工具面难以控制、PDM堆积能力预测等一系列定向钻井技术难题。为此,针对解决顺北油田定向钻井问题,开展了超深定向钻井技术的相关研究。首先,提出了考虑地质特征、井眼尺寸和定向效率的井眼结构优化方案设计方法;在优化生产套管尺寸的基础上,建立了双增径井廓设计模型,显著提高了定向效率和单趟钻速,大大减少了非生产时间。其次,在对超深钻柱力学分析的基础上,建立了超深定向井扭矩传递预测模型,并在此基础上形成了工具面快速控制方法;在此基础上,建立了基于大数据分析与平衡趋势叠加率预测相结合的创新叠加率预测方法,准确率达到90%以上。根据井筒温度场对PDM橡胶密封、定子、转子尺寸进行优化,在一定的高温范围内实现高功率输出,延长使用寿命。最后,对高温随钻仪器及其配套工艺技术进行了优化,如地表辅助冷却、井眼尺寸增大和大排量冷却技术等,有效提高了仪器的可靠性。超深定向钻井系列技术已在顺北油田得到应用。现场应用结果表明,定向段平均机械钻速提高30%以上,定向效率大幅度提高,定向钻井周期缩短20%以上。建成8000米以上超深定向井近40口,创造了10多项石油工程陆上定向井亚洲新纪录。本文有两个创新之处。一是提出了以最短钻井时间为目标的井筒剖面设计方法,可节省1-2趟,定向效率提高20%以上。二是介绍了基于井眼倾斜角的建井速度预测方法,使顺北超深定向井建井速度预测精度提高了28%。
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