纳米微球在大型砂岩油田一致性控制的全面实施

A. Andrianov, Jason Hou, E. Li, Echo Liu, Lisheng Yang
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摘要

聚合物纳米微球(NS)是通过重新分配油层深部水流而显著提高采收率的混凝剂。在实验项目证明了纳米球技术的潜力后,作业者决定在中国长庆大型砂岩油田试用纳米球技术。纳米球已在油田进行了试验,取得了显著的采收率和含水逆转效果。开始全面实施。为了分析纳米微球对长庆油田驱油效果的影响,进行了大量的实验研究。该项目重点研究了不同渗透率对比下储层非均质性的影响以及纳米球对驱油效果的影响。岩心驱油实验采用双岩心设置,其中砂岩心模拟目标储层的渗透率对比。该程序为试验选择了最佳的注入浓度和体积。在油田注入纳米球溶液,并实施了专项监测方案。非均质油藏平均渗透率比小于20时,水驱效果较好。当对比度较高时,例如渗透率为7 ~ 2900 mD的目标储层,水驱效率较低,特别是在低渗透层。纳米球可以通过将流体转移到以前未扫描的储层来减轻高渗透率对比的负面影响。这提高了石油采收率,特别是在低渗透地区。岩心驱油实验证明了该方法的可行性,采收率提高了34%。设计了最优先导注入策略。高渗透率变化纳米球的有效性已在现场试验中得到验证。现场试验结果证实了纳米球对水驱的积极影响。在其中一项测试中,平均产油量从5.1 t/d增加到10.8 t/d,而含水率从94%降至83%。分析证实,纳米微球能够有效控制储层深部的顺性,并且不会导致注入能力的损失。化学利用系数达到每注入1吨化学药剂产油100吨以上。与其他IOR/EOR技术相比,每种模式的治疗费用显着降低。作业者决定在所有油田使用纳米球来控制井眼的一致性。本文将介绍用于非均质储层的优选和优选优选的专用实验方案。此外,本文将描述所进行的现场试验。实验和现场数据均表明,在不同渗透率对比条件下,驱油效率与注入条件之间存在一定的关系。将介绍实地执行的结果。该技术的有效性已得到证实,并已开始全面实施。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Full-Scale Implementation of Conformance Control by Nanospheres in Large Sandstone Oil Field
The polymeric nanospheres (NS) is the conformance control agent significantly improving oil recovery through redistribution of water flows deep in reservoir. The operator took a decision to pilot nanospheres technology in their large sandstone Changqing oil field in China after the experimental program has been conducted proved its potential. The nanospheres pilot has been executed in the oil field, resulting in substantial oil recovery improvement and water-cut reversal. Full-field implementation began. Extensive experimental study was conducted to analyze the effect of nanospheres on oil displacement in the Changqing field. The focus of the program was on the impact of reservoir heterogeneity and effect of nanospheres on oil displacement at different permeability contrast. Coreflood experiments were conducted with dual-core set-up, where sand cores were mimicking permeability contrast of the target reservoir. The program resulted in selecting optimum injection concentration and volumes for the pilot. Nanospheres solution has been injected in the oil field, and dedicated surveillance program was executed. Water flooding is effective in heterogeneous reservoirs when the average permeability contrast is below 20. When the contrast is higher e.g. as in target reservoir with permeability ranging from 7 to 2900 mD, water flooding is less efficient, especially in low-permeability zones. Nanospheres can mitigate the negative impact of high permeability contrast by diverting flow into previously unswept reservoir layers. This improves oil recovery, chiefly from low-permeability areas. Coreflood experiments proved the feasibility – incremental oil recovery was observed at 34%. Optimum pilot injection strategy has been designed. The effectiveness of nanospheres with high permeability variation has been demonstrated in the field tests. The field results have confirmed the positive impact of nanospheres on water flooding. In one of the tests, an average oil production rate increased from 5.1 to 10.8 t/d while water-cut was reduced from 94% to 83%. Analysis confirmed that nanospheres provided efficient conformance control deep in reservoir and did not result in loss of injectivity. Chemical utilization factor achieved is more than 100 tons of oil produced per ton of chemicals injected. Treatment costs per pattern were significantly lower compared to other IOR/EOR techniques. The operator has decided to implement nanospheres for conformance control in all field. Dedicated experimental program to select and, more important, optimize conformance control in heterogeneous reservoirs will be presented. Further, the paper will describe the field trial conducted. Both experimental and field data demonstrate the relationship between the oil displacement efficiency and injection conditions for different permeability contrasts. Results of field implementation will be presented. The technology effectiveness has been confirmed and full-field implementation has started.
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