随钻地震技术在南海高温高压海上探井中的首次应用

Shusheng Guo, Yongde Gao, Ming Chen, Peng Liu, Yanyan Chen, Lei Zhang, Zheyuan Huang
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摘要

由于高温高压(HTHP)问题,南海D区块的钻探具有挑战性。D2井是该高温高压地区的一口野外勘探井。目标地层为高温高压地层,安全泥浆窗口窄。为了保证钻井安全,需要准确预测目标层深度,并在钻前监测孔隙压力。在南海D2井中首次对随钻地震技术进行了评价和应用。在这口井中,利用SWD的检查数据和地震波形,提供了一个集成的解决方案,包括时间-深度关系的更新、高压问题地层的深度预测、孔隙压力监测和钻头前的更新预测。所有结果在钻井过程中实时更新,有助于在致密泥浆窗口情况下优化泥浆比重,并确定裸眼段的最终目标深度和套管深度。对实时波形和记忆波形进行处理,并与地面地震剖面进行对比,进行标记相关性分析。根据SWD更新估计的高压区预测深度与钻井数据的实际深度相差不超过3米。利用SWD数据实时估算孔隙压力和裂缝梯度,结果与钻后电缆地层测试器的孔隙压力测量结果一致。通过利用实时目标层深度预测和基于SWD数据的异常高孔隙压力预测,D2井成功完井,没有出现严重的钻井问题。套管下入适当的深度,为下一段裸眼井的安全钻井奠定了坚实的基础。本案例研究是SWD在南海沉积物中的首次应用,特别是在高温高压环境中。结果清楚地表明,在这种特定的地质环境下,SWD的效果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The First Application of Seismic While Drilling Technology in HTHP Offshore Exploration Well of South China Sea
D block in the South China Sea is challenging to drill due to both high temperature and high pressure (HTHP) concerns. Well D2 is a wild-cat exploration well in this HTHP area. The target formation is HTHP and the safe mud window is narrow. To drill safely, it is required to predict target zone depth accurately and monitor pore pressure ahead of bit while drilling. Seismic-While-Drilling (SWD) technology was evaluated and applied for the first time in the D2 well of the South China Sea. In this well, with the checkshot data and seisimic waveforms from SWD, an integrated solution was provided, including updates of the time-depth relationship, depth prediction for the high-pressure problem formations, pore pressure monitoring and updated prediction ahead of the bit. All results were updated in real-time while drilling, helping to optimize the mud weight in a tight mud window scenario and to determine the final target depth of the open hole section and the casing depth. The real-time and memory waveforms were processed and the resultant corridor stack was compared with surface seismic section for marker correlation. The predicted depth of the high pressure zone estimated from the SWD udpates was within 3 meters of the actual depth from drilling data. Pore pressure and fracture gradient were also estimated in real-time with SWD data and the results were found to be consistent with the pore pressure measurement from wireline formation tester, obtained post drilling. By using the real-time target zone depth prediction and abnormal high pore pressure predictions based on SWD data, the D2 well was successfully completed without severe drilling issues. The casing was set to the proper depth which formed a solid foundation for the safe drilling of the next openhole section. This case study is the first application of SWD in the sediments of the South China sea, especially within an HTHP environment. The results clearly show the effecacy of SWD in this specific geological environment.
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