终极埋存情景下二氧化碳驱油极限采收率探讨

基于国内外CO_(2)驱油矿场实践启示,探讨终极埋存情景下二氧化碳捕集、驱油利用与埋存(CCUS-EOR)开发方式的采收率问题。碳中和背景下,向地质体注入CO_(2)应追求永久埋存,CCUS-EOR成为一种终极开发方式,应追求采收率最大化,为此提出了CO_(2)驱油极限采收率概念,明确其与终极采收率、经济合理采收率概念的内涵区别,指出实现极限采收率已具备成熟配套的CCUS-EOR全流程技术基础。根据吉林油田黑79北小井距CO_(2)驱先导试验等国内外CO_(2)驱油项目生产实际数据,回归得到了混相气驱采收率与累计注入量的经验关系式;结合气驱增产倍数概念,建立了任意混相程度下CO_(2)驱提高采收率幅度计算的油藏工程方法。累计注气量为1.5倍烃类孔隙体积时,采出程度与极限采收率的相对偏差小于5%,绝对差值小于2.0个百分点。基于扩大波及体积技术的大孔隙体积倍数注入是逼近CCUS-EOR极限采收率的必要条件,需从大孔隙体积注入方案设计、提高混相程度和持续扩大波及体积3个方面入手实现。

高温高压油藏纳米颗粒提高CO2泡沫驱油效果实验

吉林油田黑79区块小井距CO2驱试验区,储集层非均质性强,驱替平面不均衡,吸气剖面和吸水剖面变差,形成气窜通道,影响混相驱采收率。试验区油藏温度高达96.7℃,平均油层压力高达23.9 MPa,常规CO2泡沫体系的稳定性较差。提出了在高温高压油藏条件下的纳米颗粒/CO2泡沫体系,并在模拟油藏条件下对其进行应用性能评价。实验结果表明,在油藏条件下,纳米颗粒/CO2泡沫体系具有很好的耐温耐盐性;随着压力的升高,当CO2泡沫达到临界状态时,更容易与起泡剂溶液混合,形成更致密的网状结构,比在常压下形成的CO2泡沫性能更优。注入纳米颗粒/CO2泡沫体系,高渗层和低渗层的分流率都在50%左右,在驱油过程中,泡沫对高渗层能进行有效封堵,调整吸气剖面,从而提高低渗层的采收率。

稠油油藏CO_(2)泡沫启动残余油机制的可视化实验

国内外对于CO_(2)泡沫与稠油作用的理论研究已相对成熟,但能直观表现CO_(2)泡沫在驱替稠油过程中对残余油的启动过程以及作用方式的可视化研究较少,为了进一步探究CO_(2)泡沫与稠油的作用机理,利用自制二维平面模型,通过可视化实验驱替系统开展了CO_(2)泡沫在驱替过程中对残余稠油启动效果的微观动态实验研究,观察了启动盲端残余油、剥蚀油膜、段塞前端乳化驱油等过程;利用高温高压配样装置,开展了CO_(2)泡沫体系作用下稠油的PVT实验。温度从30℃升至90℃,气体溶解度变化不大;稠油体积因子由1.19上升至1.42;降黏率由13.55%上升至67.42%。一方面,CO_(2)泡沫选择性封堵大孔道、启动残余油的微观作用;另一方面,CO_(2)泡沫流体降低了驱替系统的流度比。这两者的共同作用,使得CO_(2)泡沫流体具有改善波及体积、增加驱油效率的效果。

乳化能力对低渗透油藏表面活性剂驱油效果的影响

为明确表面活性剂的乳化性能和界面活性对水驱后的残余油或剩余油影响的主次关系,在结合定边油田A区油藏特征的基础上,筛选出界面张力高-乳化能力强(0.2%AES)、界面张力低-乳化能力弱(0.2%WLW)、界面张力低-乳化能力中等(0.2%BS16-18+0.05%AES)的三种表面活性剂体系,开展了室内渗透率为0.2×10^(-3)μm^2、2×10^(-3)μm^2、20×10^(-3)μm^2级别的三组低渗透岩心的驱替实验。驱油结果显示:0.2%BS16-18+0.05%AES体系驱油效率都是最高,采收率增幅为1.90%～8.90%,0.2%AES体系驱油效果居中,0.2%WLW体系最差。乳化携带和聚并对剩余油的驱替效果要好于界面活性的作用,乳化作用同时也增加了微观波及效率。

Discussion on the limit recovery factor of carbon dioxide flooding in a permanent sequestration scenario

Based on practices of CO_(2) flooding tests in China and abroad,the recovery factor of carbon dioxide capture,utilization in displacing oil and storage(CCUS-EOR)in permanent sequestration scenario has been investigated in this work.Under the background of carbon neutrality,carbon dioxide injection into geological bodies should pursue the goal of permanent sequestration for effective carbon emission reduction.Hence,CCUS-EOR is an ultimate development method for oil reservoirs to maximize oil recovery.The limit recovery factor of CCUS-EOR development mode is put forward,the connotation differences between it and ultimate recovery factor and economically reasonable recovery factor are clarified.It is concluded that limit recovery factor is achievable with mature supporting technical base for the whole process of CCUS-EOR.Based on statistics of practical data of CO_(2) flooding projects in China and abroad such as North H79 block CO_(2) flooding pilot test at small well spacing in Jilin Oilfield etc.,the empirical relationship between the oil recovery factor of miscible CO_(2) flooding and cumulative CO_(2) volume injected is obtained by regression.Combined with the concept of oil production rate multiplier of gas flooding,a reservoir engineering method calculating CO_(2) flooding recovery factor under any miscible degree is established by derivation.It is found that when the cumulative CO_(2) volume injected is 1.5 times the hydrocarbon pore volume(HCPV),the relative deviation and the absolute difference between the recovery percentage and the limit recovery factor are less than 5%and less than 2.0 percentage points respectively.The limit recovery factor of CCUS-EOR can only be approached by large pore volume(PV)injection based on the technology of expanding swept volume.It needs to be realized from three aspects:large PV injection scheme design,enhancing miscibility degree and continuously expanding swept volume of injected CO_(2).

规模化CCUS-EOR项目技术经济性分析及启示

社会各界对规模化全流程CCUS-EOR项目经济性及其他相关重要问题认识不足,不利于跨行业、跨地区、跨部门项目实施。中国CCUS/CCS项目累积注入二氧化碳量超过1000万t,积累了丰富项目运营经验;基于我国驱油类CCUS产业链技术现状和成熟度分析,认为在鄂尔多斯盆地有序开展规模化全流程CCUS项目技术可行,结合区域油藏地质特点,提出边学习经验、边工程建设、边运行项目、边认识规律、边调整方案的复杂油藏CCUS滚动建设模式;选择陕西榆林—安塞—定边地区煤化工碳源与代表性油藏,开展了基于管道输送的300万吨级CCUS项目方案设计和投资概算;用改进的全流程CCUS项目经济评价模型,分析基准收益率、财税金融政策、碳交易价格、产量不确定性等可控变量对项目经济性的影响,对比若干规模化CCUS项目的临界效益井口碳价,提出统一产业链各环节经济评价基准收益率有助于三跨型CCUS项目合作,实施绿色低息贷款可降低CCUS-EOR项目临界效益油价,采取“后CCUS项目交易、埋存量下限交易、埋存减量绿色补偿”可解决CCUS项目碳交易争议,严格CO_(2)驱油试验选区可进一步改善项目经济性,以上核心产业政策建议有助于推进鄂尔多斯盆地CCUS技术规模化应用。