Application of Nuclear Magnetic Resonance Imagingin Oilfield Development in China

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Remaining oil distribution in models with different heterogeneities after CO_(2) WAG injection:Visual research by nuclear magnetic resonance technique

Water alternating gas(WAG)injection is a widely used strategy for enhancing oil recovery(EOR)during gas flooding,and the mechanisms,operating parameters,and influencing factors of which have been extensively studied.However,with respect to its capacity in expanding macroscopic sweep volume under varying heterogeneities,the related results appear inadequate.In this research,three cores with different heterogeneities were used and flooded by the joint water and CO_(2) WAG,then the effects of heterogeneity on oil recovery were determined.More importantly,the cores after CO_(2) WAG injection were investigated using the nuclear magnetic resonance(NMR)technique for remaining oil distribution research,which could help us to understand the capacity of CO_(2) WAG in enlarging sweep volume at different heterogeneities.The results show that the presence of heterogeneity may largely weaken the effectiveness of water flooding,the more severe the heterogeneity,the worse the water flooding.The WAG injection of CO_(2) performs well in EOR after water flooding for all the cores with different heterogeneities;however,it could barely form a complete or full sweep throughout the low-permeability region,and un-swept bypassed regions remain.The homogeneous core is better developed by the injection of the joint water and CO_(2) WAG than the heterogeneous and fractured cases.

Further discussion of CO_(2) huff-n-puff mechanisms in tight oil reservoirs based on NMR monitored fluids spatial distributions

Due to the poor physical properties of tight reservoirs,CO_(2) huff-n-puff(HNP)is considered a potential enhanced oil recovery(EOR)method after primary depletion.Optimization plays a critical role in the effective implementation of CO_(2) huff-n-puff.But the optimization requires a good understanding of the EOR mechanisms.In this work,the spatial distribution of oil saturation under different experimental conditions was analyzed by the NMR method to further discuss the HNP mechanisms.According to the variation of 1D frequency signal amplitude,we divided the core into the hardly movable area and movable area,the region with the obvious signal decline was defined as the movable area,and the hardly movable area was the region with limited signal decline.Based on that the recovery characteristics of different scenarios were evaluated.Firstly,the necessity of the soaking stage was studied,where three scenarios with different soaking times were carried out.Secondly,the injection pressure was adjusted to investigate the effect of the pressure gradient.The T_(2) spectra show that soaking has significantly improved the production of crude oil in small pores,and higher oil recovery in a single cycle is observed,but it is lower when the elapsed time(total operation time)is the same.31.03% of oil can be recovered after 3 cycles HNP,which increases to 33.8% and 37.06% for the 4 cycles and 6 cycles cases.As the pressure gradient increases,more oil is removed out of the matrix,and the oil in the deep part of the reservoir can be effectively recovered.During the CO_(2) huff-n-puff process,the oil distributions are similar to the solution gas drive,the residual oil is distributed at the close end of the core and the range that the oil can be efficiently recovered is limited.

压裂液辅助二氧化碳吞吐提高页岩油采收率核磁共振实验

为获取可实现连续补能的页岩油吞吐开发方式,以吉木萨尔页岩油储层为研究对象,借助低频核磁共振岩心分析仪和完成了压裂液辅助CO_(2)吞吐补能一体化模拟实验。分析岩样在多介质吞吐与驱替组合的开发过程中孔喉流体动用特征和采收率变化特征,评价压裂液辅助CO_(2)吞吐提高采收率效果,提出页岩油补能吞吐开发新方式。实验结果表明,CO_(2)吞吐,岩样采收率随吞吐周期快速下降,仅动用中大孔中原油,产油量主要源于前2个周期,最终采收率在30%~40%之间;压裂液辅助CO_(2)吞吐并采用CO_(2)注入端生产,原油主要产自中大孔,且产油量源于前3个周期,最终采收率在30%~40%之间;压裂液辅助CO_(2)吞吐并采用压裂液注入端生产,全部孔隙中原油均得到动用,最终采收率在70%~80%之间,剩余油分布均匀,表现出最好的开发效果。研究可为矿场吞吐补能提高页岩油采收率实践提供一定的理论基础。

核磁共振成像在EOR研究中的应用

核磁共振成像是一种成熟的快速无损高分辨检测新技术，可以直观地显示多孔固体孔隙中的流体。用核磁共振自旋密度成像，能给出岩样中孔隙的二维或三维分布以及驱替过程中驱替前沿的推进过程；用核磁共振化学位移选择成像，能分别给出岩样孔隙中油与水的赋存状态；用核磁共振驰豫时间加权成像，能分别给出聚合物驱油后油与水及聚合物在岩石孔隙中的滞流位置。它为三次采油微观机理研究提供了强有力的手段．文中简要介绍核磁共振成像原理，通过实例说明核磁共振成像在提高油气采收率研究中的应用潜力。

辽河油田欢50块表面活性剂/碱驱油研究

辽河油田欢５０ 块为低渗透油藏，孔隙度小，岩性致密，地层温度高，原油含蜡量高，凝固点高，导致生产时产量下降快，产能低，采出程度低。针对生产中的问题，进行了碱／ 表面活性剂复合驱提高原油采收率的研究。通过研究复合体系溶液与欢５０ 块原油的界面张力、复合体系溶液的长期热稳定性，从７ 种表面活性剂中筛选出既能降低油水界面张力，又能适应该油藏９９℃高温的表面活性剂，并研究了该表面活性剂和碱形成的复合体系在欢５０ 块油砂上的吸附以及复合体系溶液驱油效率。该体系在９９ ℃时能大幅度降低欢５０块原油的油水界面张力（达０．０１ ｍＮ／ｍ 以下） ， 并具有很高的驱替效率，水驱后注入复合体系段塞，平均采收率达６５．２４ ％ ，相对于水驱，提高采收率平均为１８．４％ 。并运用核磁共振成像技术研究复合体系溶液的驱油机理，复合体系注入前后核磁共振成像结果表明，复合驱能提高驱替效率，在复合体系前缘形成富集油带，对进一步采出水驱剩余油明显有效。

CO2混相驱提高石油采收率实践与认识

吉林油田黑59区块CO2驱油先导试验在注气一段时间以后,仍有部分油井不见效。为了明确影响CO2混相驱提高石油采收率的原因,开展了岩心驱替实验和岩心核磁共振检测实验。岩心驱替实验结果表明,CO2混相驱可以降低CO2—原油体系的启动压力梯度。核磁共振实验结果表明,CO2混相驱可以驱动水驱无法动用的低孔低渗储层中的原油。在室内实验研究的指导下,对现场不见效油井的低渗储层进行补孔压裂试验,见到了显著的增油效果,验证了CO2驱在低渗透非均质储层中的驱替波及效率更高。

基于核磁共振技术的火山岩油藏驱油特征试验研究——以XQ井区为例

新疆XQ井区火山岩储层物性差,投入开发后存在地层能量不足、产量递减快、采出程度低的问题,为优选符合该类油藏的有效开采模式以及找出不同方式的驱油特点,提高油气采收率,以该井区安山质火山岩为研究对象,基于核磁共振技术,对岩心分别开展了CO_(2)驱油和水驱油试验,分析不同驱油方式对岩心孔隙油水动用情况以及驱油效率的影响。试验结果表明,岩心孔隙构成主要为小孔隙,少量为中孔隙和大孔隙,油相主要分布在小孔隙区域,小孔隙为主要产油贡献区;总体原油采收率较低,驱替采油作用主要发生在流体注入初期,注水开发方式的采收率高于注CO_(2)开发;岩石物性参数孔隙度与渗透率对于原油采收率有一定的影响,呈正线性关系,实际生产时应结合现场具体情况选取合适的注采方案。在制定实际开发方案时,可通过提高开采初期流体注入压力和注入量来提高初始阶段采出程度,提高经济效益。

页岩油注CO2动用机理

CO2由于良好的注入性及与原油的混相能力,可能是页岩油藏提高采收率最有效的方法。与常规油藏不同,页岩储层裂缝及微纳米孔隙发育,CO2能否进入页岩微纳米孔隙并动用孔隙中的原油是利用CO2提高页岩油采收率的关键。因此,设计开展了页岩油注CO2实验,基于核磁共振方法研究了页岩微纳米孔隙中原油动用特征及动用机理,并研究了接触时间及接触次数对采出程度的影响。核磁共振T2谱及核磁成像结果表明注CO2可以有效动用页岩微纳孔隙中的原油,一次接触实验采收率为32. 63%。随着CO2与原油接触时间增加,在初始阶段采油速度高,然后采油速度逐渐变缓。CO2溶解扩散作用是动用页岩微纳孔隙原油的主控机理。研究成果证实注CO2可以有效提高页岩油藏采收率,为陆相页岩油有效开发提供参考。

海上高-特高含水期稠油油藏提高采收率实验研究

为了探索高-特高含水期稠油油藏不同提液方式下提高剩余油采出程度的机理,设计不同提液方式、不同原油黏度下的海相砂岩稠油油藏驱替实验,采用在室内搭建长岩心物理模拟实验,研究高含水期、特高含水期时不同提液方式、原油黏度等因素对提高采收率的影响,结合核磁共振成像和T_(2)图谱研究不同注水方式下剩余油分布。研究表明,提液相比于恒定低速驱,可提高11%左右的采出程度;以驱替至含水率大于99%作为驱替结束条件,高含水期油藏通过多次控幅提液采出程度最高;岩心低速水驱至特高含水期后,岩心核磁共振图像饱和度明显降低,随着驱替的进行,孔隙度分量逐渐降低,即剩余油逐渐减少;高含水期多次提液对不同孔径动用程度比一次大幅提液效果好,微孔、小孔和中孔均有不同程度波及,整体采出程度提高17.01%,其中,中小孔导致采出程度提高13.31%,占提高幅度的78.2%;特高含水期,多次提液比一次大幅提液原油采出程度提高9.2%,其中中孔采出程度的提高作出主要贡献,占提高幅度的97.2%,微小孔波及程度较小。研究成果可为高-特高含水期稠油油藏提高采收率提供技术支持。

二元复合驱孔隙动用规律核磁共振实验研究

利用取自大庆油田高台子区块的中-高孔、中渗储层岩心,通过核磁共振定量分析岩心聚合物、表面活性剂(SP)二元复合驱后大、中、小孔隙的采出程度、剩余油饱和度等。结果表明,水驱后二元复合驱主要动用中、小孔隙剩余油,其中中等孔隙驱油效率提高最大;二元驱后剩余油主要分布在中等孔隙中,中等孔隙是剩余油挖潜的重点方向;对于高台子储层,适当提高二元体系聚合物浓度可以提高孔隙驱油效率,提高采收率。