阿联酋第二巨型碳酸盐岩油藏高盐高温条件下聚合物扩展注入能力测试

S. Baloch, J. Leon, S. Masalmeh, D. Chappell, J. Brodie, C. Romero, S. Al Mazrouei, A. Al Tenaiji, M. Al Balooshi, Arit Igogo, M. Azam, Y.K Maheshwar, G. Dupuis
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引用次数: 4

摘要

在过去的几年里,ADNOC系统地研究了一种新的基于聚合物的EOR方案,以提高阿布扎比高温高盐度(HTHS)碳酸盐岩储层的波及效率(Masalmeh等,2014)。因此,ADNOC为这些碳酸盐岩储层的新EOR概念开发了一套全面的降低风险方案。降低风险项目包括广泛的实验室实验研究和现场注入能力测试,以确保选定的聚合物能够在目标储层中扩展。根据大量的实验室研究(Masalmeh等人,2019年,Dupuis等人,2017年,Jouenne 2020年),确定了一种具有高2-丙烯酰胺-叔丁基磺酸(ATBS)含量的新型聚合物,并于2019年在250°F、盐度bbb20万ppm、低H2S含量的条件下进行了初始聚合物注入性测试(PIT) (Rachapudi等人,2020年,Leon和Masalmeh, 2021年)。ADNOC的下一步是将聚合物应用扩展到更恶劣的现场条件,包括更高的H2S含量。本文介绍了ADNOC的后续PIT,该PIT扩大了聚合物驱的范围,可溶解浓度为20 - 40 ppm的H2S,以确认代表性现场条件下的注入能力和原位聚合物性能。从2021年2月到2021年7月,该PIT执行了5个月,随后将持续到2021年12月。在PIT期间,总共成功注入了108392桶聚合物溶液。获得的大量数据集用于评估与新聚合物相关的注入性和深度迁移率降低。PIT的初步结果表明,所有关键性能指标都已实现,具有可预测的粘度产率和目标速率下的良好注入能力,与实验室数据一致。使用井下关井工具(DHSIT)获取压降(PFO)数据,明确了聚合物的近井行为,并优化了PIT程序。本文评价了水质对聚合物溶液制备和注入性能的重要性,并对测试期间获得的运行数据进行了综述。在PIT期间确定的聚合物性质将用于优化油田和部门模型,并将有助于评估其他大型非均质碳酸盐岩油藏的聚合物EOR,从而提高ADNOC和中东油藏的采收率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Expanding Polymer Injectivity Tests on a Second Giant Carbonate UAE Oil Reservoir at High Salinity & High Temperature Conditions.
Over the last few years, ADNOC has systematically investigated a new polymer-based EOR scheme to improve sweep efficiency in high temperature and high salinity (HTHS) carbonate reservoirs in Abu Dhabi (Masalmeh et al., 2014). Consequently, ADNOC has developed a thorough de-risking program for the new EOR concept in these carbonate reservoirs. The de-risking program includes extensive laboratory experimental studies and field injectivity tests to ensure that the selected polymer can be propagated in the target reservoirs. A new polymer with high 2-acrylamido-tertiary-butyl sulfonic acid (ATBS) content was identified, based on extensive laboratory studies (Masalmeh, et al., 2019, Dupuis, et al., 2017, Jouenne 2020), and an initial polymer injectivity test (PIT) was conducted in 2019 at 250°F and salinity >200,000 ppm, with low H2S content (Rachapudi, et al., 2020, Leon and Masalmeh, 2021). The next step for ADNOC was to extend polymer application to harsher field conditions, including higher H2S content. Accordingly, a PIT was designed in preparation for a multi-well pilot This paper presents ADNOC's follow-up PIT, which expands the envelope of polymer flooding to dissolve H2S concentrations of 20 - 40 ppm to confirm injectivity at representative field conditions and in situ polymer performance. The PIT was executed over five months, from February 2021 to July 2021, followed by a chase water flood that will run until December 2021. A total of 108,392 barrels of polymer solution were successfully injected during the PIT. The extensive dataset acquired was used to assess injectivity and in-depth mobility reduction associated with the new polymer. Preliminary results from the PIT suggest that all key performance indicators have been achieved, with a predictable viscosity yield and good injectivity at target rates, consistent with the laboratory data. The use of a down-hole shut-in tool (DHSIT) to acquire pressure fall-off (PFO) data clarified the near-wellbore behaviour of the polymer and allowed optimisation of the PIT programme. This paper assesses the importance of water quality on polymer solution preparation and injection performance and reviews operational data acquired during the testing period. Polymer properties determined during the PIT will be used to optimise field and sector models and will facilitate the evaluation of polymer EOR in other giant, heterogeneous carbonate reservoirs, leading to improved recovery in ADNOC and Middle East reservoirs.
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