Characteristics of water alternating CO_(2)injection in low-permeability beach-bar sand reservoirs

Water flooding can be ineffective in highly heterogeneous low-permeability beach-bar sand reservoirs.The introduction of CO_(2)flooding helps boost the oil production of the reservoirs but only in an early stage.During the late stage of flooding,gas channeling would occur.Water alternating gas(CO_(2))(WAG)process can be used to delay gas channeling and improve the effect of CO_(2)injection,though its adaptability to beach-bar sand reservoirs remains unclear.In order to clarify CO_(2)injection characteristics in these reservoirs,experiments were carried out in high-temperature high-pressure NMR on-line displacement experiment apparatus to simulate different flooding modes on synthetic cores that can reflect the vertical heterogeneity of beach-bar reservoirs.Different CO_(2)injection modes were implemented on these cores and the displacement characteristics and residual oil distribution features during both WAG injection and continuous CO_(2)injection were analyzed quantitatively and qualitatively.The results show that the scheme of WAG injection after continuous CO_(2)injection can obtain better oil displacement efficiency than that of the scheme of continuous CO_(2)injection after WAG injection,but there is no significant difference in respect of oil displacement efficiency of WAG flooding between the mode of bar-injection e beach-production(injection into bar sand e production from beach sand)and the mode of beach-injection e beach-production(injection into and production from beach sand),with the former mode having a higher oil recovery rate.The wider pore-size distribution range of microscopic residual oil after WAG injection shows great potential of enhancing oil recovery from subsequent continuous gas injection.When WAG injection is implemented prior to continuous CO_(2)injection,the displacement effect of the latter is more significant.This research may provide a theoretical basis for CO_(2)EOR in this type of reservoirs.

超临界CO_(2)压裂液对页岩储层支撑剂悬浮性能的影响因素分析

超临界CO_(2)压裂液的极低表观黏度导致了低携砂悬砂、漏失严重和压裂效果弱等诸多缺陷。针对超临界CO_(2)的上述缺陷,设计并合成了一种能显著提高CO_(2)压裂液黏度的增稠剂,并探索了不同地质条件(储层温度和储层压力)和化学剂等因素对CO_(2)悬砂性能的影响,同时揭示了超临界CO_(2)压裂液的悬砂机理。研究结果表明:较高含量的增稠剂不仅能够增加压裂液黏度,同时也能改善CO_(2)压裂液对颗粒的悬砂能力,0.5%(质量分数)的增稠剂可使CO_(2)压裂液黏度增大至3.2mPa·s,静置20 s的砂砾沉降量为0.5 g,沉降量低于纯CO_(2)压裂液(其表观黏度为0.04 mPa·s)时的1.7 g。此外,储层压力的升高也有助于提升超临界CO_(2)对颗粒的悬砂性能,而升高储层温度会降低超临界CO_(2)压裂液黏度和悬砂能力,此现象主要归因于超临界CO_(2)压裂液体系中微观网格密度的变化。通过以上研究,可为页岩储层的高效开采和超临界CO_(2)的应用提供切实有效的途径和方案。

沉砂-CO_(2)-SRB因素对L360N碳钢腐蚀行为的影响

页岩气水力压裂开发给地面集输管线带来严重的腐蚀安全风险,尚不明确多因素腐蚀介质对碳钢管线腐蚀的影响规律。通过高温高压浸泡试验及腐蚀形貌观察考察了沉砂、CO_(2)、SRB等多因素对L360N碳钢腐蚀行为的影响规律。研究结果表明:SRB生物膜与沉砂可以降低碳钢均匀腐蚀速率,但增加了碳钢的局部腐蚀速率,两者具有协同作用;CO_(2)溶解分子传递过程和金属界面微环境受沉砂影响较小。另外,沉砂对药剂的缓蚀杀菌作用影响不大,缓蚀剂和杀菌剂可以作为页岩气地面集输管线的防护措施广泛使用。

CO_(2)-EOR在低渗透滩坝砂油藏的应用初探——以高89为例

“双碳”愿景下,CO_(2)驱强化采油封存技术(CO_(2)-enchanced oil recovery, CO_(2)-EOR)因能在增强驱油的同时实现CO_(2)地质封存而愈发受到重视。当前,一是中国滩坝砂油气藏注不进采不出矛盾突出;二是对于较深埋藏、较高地层温度的低渗透滩坝砂油藏缺乏较成功的CO_(2)-EOR开发实践;三是中国对此领域系统归纳研究较少。开展滩坝砂油藏CO_(2)-EOR的应用研究需求较为迫切,在查阅文献的基础上,以高89为对象,借鉴国外CO_(2)驱项目实例,从地质条件、油藏工程、评价标准出发,在CO_(2)驱油机理研究基础上,开展了CO_(2)-EOR在低渗透滩坝砂油藏的适应性评价,并从技术工艺层面、经济政策层面,简要剖析了气源、混相压力高、气窜、伤害、产出CO_(2)气的收集等CO_(2)驱油的5大挑战和相应攻关方向,展望未来发展趋势,以期为类似滩坝砂油藏开展现场先导试验和工业化推广提供借鉴。

新型低渗储层CO_(2)增稠剂的静态悬砂性能及悬砂机理分析

合成了一类高效CO_(2)硅氧烷增稠剂NBC,以环己烷配制超临界CO_(2)压裂液体系,分析了硅氧烷增稠剂含量、体系温度、增稠剂侧链分数及支撑剂粒径对支撑剂在CO_(2)压裂液的静态悬砂影响。实验表明,NBC含量2%、35℃、18 MPa和100 s^(-1),可使超临界CO_(2)压裂液黏度达1.22 mPa·s,远大于二甲基硅油PDMS增稠的CO_(2)压裂液的黏度0.53 mPa·s。NBC增稠剂含量、支链分数及较小支撑剂粒径利于提高CO_(2)压裂液的支撑剂颗粒悬砂,而静态悬砂随温度升高和支撑剂粒径增大而减弱,压裂液黏度和颗粒性质成为显著影响超临界CO_(2)压裂液静态悬砂的根本原因,并以分子模拟技术从分子角度研究了超临界CO_(2)压裂液静态悬砂机理。

低渗油藏CO_(2)地质封存矿物颗粒运移及注入堵塞机理

在低渗砂岩油藏中开展CO_(2)地质封存,是实现CO_(2)捕获、利用和封存(CCUS)的有效手段之一。随着CO_(2)持续注入吸收层,弱胶结砂岩颗粒会随CO_(2)流入孔隙和裂隙中运移,进而可能形成颗粒堆积,影响CO_(2)注入的稳定性。为揭示多形态颗粒在孔隙和裂隙中的运移、动态堆积及微观机理,建立了基于多形态矿物颗粒的离散元流固耦合堵塞模型。模型考虑了多级粒径、非规则形态、旋转、差异化流入孔隙模式等矿物颗粒参数及流体密度、流体速度等流体物性因素,模型可实现注入流体和矿物颗粒的瞬态堆积过程动态预测与可视化,并在此基础上揭示了CO_(2)物性、弱胶结非规则颗粒参数与注入堵塞间的量化关系。结果表明:(1)影响孔隙内矿物颗粒堆积数量和CO_(2)注入效果最高的因素为矿物颗粒质量分数,相对于颗粒质量分数3%,颗粒质量分数5%的孔隙内矿物颗粒堆积数量提升52.06%,孔隙内矿物颗粒堆积数量的提升比率与矿物颗粒质量分数增长比率呈负相关关系;(2)在注入CO_(2)和矿物颗粒总量一致情况下,当矿物颗粒平均尺寸为孔隙直径尺寸的1/3时,孔隙内矿物颗粒堆积数量最高,CO_(2)的注入效果最差,矿物颗粒密度变化对于CO_(2)注入的影响较低;(3) CO_(2)注入降低了砂岩孔隙内多相流体密度,减少了孔隙内矿物颗粒堆积数量,降低了矿物颗粒在孔隙内的堵塞,有利于CO_(2)往深部注入;(4) CO_(2)注入速度提升60%,孔隙内矿物颗粒堆积数量提升1.2%,注入速度提升增加了孔隙内的矿物颗粒堵塞比率,不利于CO_(2)的注入。

深井套管在CO_(2)环境中腐蚀规律研究

CO_(2)溶于水有极强的腐蚀性,在油田中导致套管发生腐蚀,降低井筒完整性。蓬莱油田是典型的高CO_(2)腐蚀性油田,井底温度与压力要高于其他油田。现利用CO_(2)动态腐蚀实验仪器模拟套管的腐蚀环境,采用控制单一因素改变的方式分别研究CO_(2)腐蚀与温度、CO_(2)分压、时间、电位差和砂之间的关系。结果表明:碳钢在某个温度区间内升高温度后在二氧化碳水溶液中的腐蚀速度加快;随CO_(2)分压的升高,腐蚀速率急剧增大,然后趋于稳定;与电偶腐蚀相比,油井含砂对腐蚀影响更大,1Cr材料对出砂敏感。增加CO_(2)分压后腐蚀电流密度呈先上升再下降趋势;随着温度的升高,油套管钢的腐蚀电位一直减小,腐蚀电流密度先增大后减小。

超临界CO_(2)水平环空携砂试验研究

为明确超临界 CO_(2)在水平段环空的携砂性能,分析关键施工参数对其携砂性能的影响,根据相似原理设计了超临界 CO_(2)水平环空携砂试验装置,试验研究了超临界 CO_(2)注入质量流量、砂比、出口压力和流体温度对砂粒在水平环空中运移的影响。试验结果表明:超临界 CO_(2)能够以悬浮输送的方式在水平环空内有效携砂,增大其质量流量,会增强环空内流体的紊流强度,进而提高悬浮携砂效果;在较高砂比下,水平环空底部更容易出现砂床,使过流面积减小,从而使砂粒运移速度增大;在相同注入条件下,环空内砂粒运移速度随出口压力升高而降低,但降低幅度逐渐减小;在合理温度范围内提高流体温度,有利于减少环空内砂粒的堆积。研究结果可为超临界 CO_(2)钻井和超临界 CO_(2)压裂优化设计关键施工参数提供参考。

CO_(2)刺激响应SFME萃取油砂应用研究

CO_(2)刺激响应无表面活性剂微乳液(SFME)处理油砂是一种清洁、高效、可循环的油砂处理方法。本文通过使用N,N-二甲基苄胺(BDMA)、N,N-二甲基乙醇胺(DMEA)和水制备了CO_(2)刺激响应SFME。利用三相图研究了SFME的相行为,并通过测量通入CO_(2)时的p H值和电导率变化和循环前后的粒径变化验证了SFME的CO_(2)响应行为,将不同类型的SFME分别用于处理油砂,不同类型的SFME均能促进油砂中油固分离,并且剩余固体表面无表面活性剂残留导致二次污染;O/W型SFME能有效回收油,且可再次循环处理油砂。固体-SFME-油体系的接触角实验结果证明,SFME可以通过减少吉布斯自由能的变化(△G)有效地促进油固分离。

CO_(2)密闭混砂装置清砂参数优化及现场试验

为了促进CO_(2)干法加砂压裂技术的配套与推广应用,针对CO_(2)干法加砂压裂施工结束后,核心装备CO_(2)密闭混砂装置罐体内剩余陶粒砂清理困难,清理效率低下,清理过程存在安全风险的问题,开展了清砂方式改进、风送清砂装置研制以及清砂参数优化等方面的研究工作,并进行现场试验。结果表明:1)自动化清砂方案通过设计气驱与输砂螺旋结合的清砂流程,配合专门研制的风送清砂装置,相比负压清砂方案,清砂速度提高了225%,纯清砂速度提高了165%;2)自动化清砂方案可实现人不进罐清砂,将陶粒砂直接输送至砂罐车,通过CO_(2)密闭混砂装置远程控制清砂过程及参数,清砂工作条件大大改善,符合安全化生产要求;3)大大减小清砂劳动强度,无需拆装人孔法兰,清砂人数由之前的4~6人减少至2人;4)优选出最佳清砂参数,即输砂螺旋转速为45 r/min,补压阀开度为25%,风送清砂装置为2档位。以上成果认识,对CO_(2)干法加砂压裂施工完成后的罐体高效清砂作业具有一定的指导意义。

CaCl_(2)处理CO_(2)水玻璃旧砂湿法再生污水的研究

CO_(2)水玻璃旧砂湿法再生污水的碱性重、浊度高、成分复杂,需要进行处理才能达到国家排放标准。为了降低再生污水的pH值和浊度,首先对比CaCl_(2)和MgCl_(2)粉末处理污水的效果,CaCl_(2)能明显降低污水的pH值和浊度,进而探究CaCl_(2)溶液浓度、反应时间对污水处理效果的影响。结果表明:100 mL水玻璃旧砂湿法再生污水,加入质量分数20% CaCl_(2)溶液作为处理剂,混合搅拌4 min,能有效地将污水浊度降低到20以下,pH从碱性变到中性。进一步分析处理后沉淀物XRD图谱,发现沉淀晶体主要由SiO_(2)、CaCO_(3)和CaSiO_(3)组成,且CaCO_(3)和CaSiO_(3)能够起到加速固体悬浮物絮凝沉降的作用。

大分子聚合物对致密页岩CO_(2)压裂液悬砂性影响模拟

针对CO_(2)用于致密油气地层因低黏度而对支撑剂悬浮性弱的缺陷,通过聚合反应合成了一类有机大分子聚合物并进行化学表征。以多物理场耦合构筑CO_(2)压裂液中的支撑剂颗粒数值模型,以支撑剂下落速度作考察指标,研究不同因素对支撑剂在CO_(2)压裂液中的悬浮能力的影响。结果表明:大分子聚合物质量分数是CO_(2)压裂液悬砂能力改善的最重要因素,并揭示了CO_(2)压裂液悬砂能力改变的根本原因。

丽水凹陷幔源CO_(2)充注对油气成藏的影响

丽水凹陷勘探中发现了许多圈闭含CO_(2),同位素分析显示以幔源无机成因为主。凹陷深大断裂附近未发现含CO_(2)气藏,而已发现CO_(2)气藏周边均有岩浆活动发育,故认为丽水凹陷幔源CO_(2)运聚与岩浆幕式活动必然存在联系。因此,油气勘探中为规避风险需开展岩浆活动期次与油气成藏期分析、关注岩浆活动区与圈闭距离、识别CO_(2)的断裂-砂体运移通道与圈闭的空间接触关系等。结合丽水凹陷烃源岩生排烃关键期和圈闭分布分析,认为烃源岩生烃高峰(56 Ma)后的第Ⅲ期(23.03 Ma)岩浆活动带来的幔源无机CO_(2)充注对油气藏可能具有占位和破坏作用,位于岩浆体纵向上直接与其搭接或与岩浆岩通过断裂间接搭连的圈闭含CO_(2)风险高。该研究结果对丽水凹陷油气勘探具有指导意义。

两种气体作用下非饱和江边吹填砂三轴试验研究

为了研究非饱合土体中充入空气或CO_(2)气体所导致的土样不同物理力学性质,以长江边的吹填细砂为对象,通过改变细砂的含水率,往土样通入空气和CO_(2),采用固结不排水三轴试验分析了两种不同气体作用下细砂的应力-应变曲线及抗剪强度指标。研究结果表明:两种气体在低围压下使得细砂的应力-应变曲线表现为应变软化型,高围压下曲线为硬化型。围压作用下充CO_(2)细砂具有低孔隙率和高密实度特征,导致充CO_(2)细砂的抗剪强度大于充空气的细砂。在高围压下,细砂颗粒联系更加紧密,更多依靠颗粒骨架传递应力,使得两种气体作用下细砂抗剪强度的差别变小。细砂含水率从4%增至12%时,充CO_(2)细砂的黏聚力是充空气细砂黏聚力的2.62~4.37倍,据此可在工程建设中对有机质含量高的非饱合细砂充入CO_(2)气体,以起到加固土体的效果。

Potential evaluation of saline aquifers for the geological storage of carbon dioxide: A case study of saline aquifers in the Qian-5 member in northeastern Ordos Basin

The well-developed coal electricity generation and coal chemical industries have led to huge carbon dioxide(CO_(2))emissions in the northeastern Ordos Basin.The geological storage of CO_(2) in saline aquifers is an effective backup way to achieve carbon neutrality.In this case,the potential of saline aquifers for CO_(2) storage serves as a critical basis for subsequent geological storage project.This study calculated the technical control capacities of CO_(2) of the saline aquifers in the fifth member of the Shiqianfeng Formation(the Qian-5 member)based on the statistical analysis of the logging and the drilling and core data from more than 200 wells in the northeastern Ordos Basin,as well as the sedimentary facies,formation lithology,and saline aquifer development patterns of the Qian-5 member.The results show that(1)the reservoirs of saline aquifers in the Qian-5 member,which comprise distributary channel sand bodies of deltaic plains,feature low porosities and permeabilities;(2)The study area hosts three NNE-directed saline aquifer zones,where saline aquifers generally have a single-layer thickness of 3‒8 m and a cumulative thickness of 8‒24 m;(3)The saline aquifers of the Qian-5 member have a total technical control capacity of CO_(2) of 119.25×10^(6) t.With the largest scale and the highest technical control capacity(accounting for 61%of the total technical control capacity),the Jinjie-Yulin saline aquifer zone is an important prospect area for the geological storage of CO_(2) in the saline aquifers of the Qian-5 member in the study area.

济阳坳陷陆相页岩油气藏组合缝网高导流压裂关键技术

济阳坳陷页岩油气藏具有埋藏深、构造复杂、沉积相变化快、纹层发育、原油黏度高等复杂特征,采用常规缝网压裂技术时改造效果普遍不理想、压后产量低且衰减快,亟待攻关能形成与之相适应的长期高导流能力复杂缝网的压裂新技术。为此,基于地质工程一体化思路,开展了地质—工程双甜点评价、四级组合缝网构建、主裂缝脉冲加砂理论与技术研究,形成了组合缝网高导流压裂关键技术,并实现了规模应用。研究结果表明:①充分考虑页岩油气富集、可动性、页岩纹层发育情况等特征,建立了考虑“岩屑—岩心—井眼—储层”的“地质—工程”双甜点评价模型,井位布置、压裂层位及射孔位置优选更加精准;②构建了CO_(2)与酸液联合降低破裂压力,低黏度压裂液造复杂缝、高黏度压裂液促缝高的组合压裂液新模式,增加了压裂后缝网的复杂性;③形成了多层叠置储层压裂后的“大缝宽主裂缝+分支裂缝+自支撑裂缝+酸蚀蚓孔缝”四级组合缝网体系,提出了主裂缝脉冲加砂、分支裂缝连续加砂的高导流缝网加砂压裂新方法,提升了缝网的长期导流能力。结论认为,“双甜点布缝+CO_(2)与酸液降破促缝+压裂液变黏高黏+主裂缝脉冲加砂”的组合缝网高导流压裂关键技术,促进了济阳坳陷陆相页岩油气藏的高黏度原油经济高效开发,为类似地区页岩油气藏的改造提供了理论与技术参考。

Optimization of Animal-Glue Binders for Casting Applications

In typical metal foundry applications,sand casting is still the most used technology.The related binder plays a very important role as its performances can directly influence the quality of castings.Among many binders,glues of animal origin have attracted much attention in recent years due to their reduced environmental impact.How-ever,they display some drawbacks such as the tendency to coagulate easily at room temperature and a relatively low strength.In this study,a novel gas-hardening casting binder was prepared using an animal glue and anhy-drous potassium carbonate as a hydrolyzing agent to avoid undesired agglomeration.Moreover,sodium pyropho-sphate and furfuryl alcohol were exploited as modifiers to obtain a binder with a high compressive strength.The best modification conditions,determined by means of an orthogonal design matrix approach,were 4 g of Na2CO3,sodium pyrophosphate,furfuryl alcohol and animal glue with a ratio of 4:12:100,at 85°C and with a duration of 115 min,respectively.The viscosity of the mixture obtained under these optimized conditions was 1250 mPa⋅s.The compressive strength of the binder,hardened by CO_(2) gas,was 4.00 MPa.Its gas evolution at 850°C was 15 ml⋅g-1,and its residual strength after 10 min calculation at 800°C was 0.01 MPa,which is high enough to meet the requirement of core-making in foundry.Moreover,after hydrolysis and further modification,animal glue and modifiers displayed a grafting reaction and an esterification reaction,respectively,which made the adhesive network denser and improved its thermal stability.

降低电炉炉结厚度及渣含铜的方法探究

电炉炼铜生产过程中,适当的炉结厚度可以对炉体形成保护层,但过厚的炉结会大幅降低炉内的有效容积率、增加炉渣中铜含量,炉结厚和渣中含铜高是电炉炼铜生产的两大技术难题,也是解决电炉产能增长的最终途径。本文对炉结的成分及性质进行了分析,认为渣中Fe_(3)O_(4)的含量是决定炉结厚度的关键,渣中Fe_(3)O_(4)的含量高不但增加铜在渣中的机械夹带,而且会加剧铜在渣中的化学溶解损失。通过对Fe_(3)O_(4)还原分解的热力学和动力学条件进行分析,本文给出了有效降低渣中Fe_(3)O_(4)含量的措施:采用通过小油枪将柴油、白砂和N2同时喷入炉底的方案;在油气体积比为1∶17~1∶20条件下,还原渣中Fe_(3)O_(4)时,油枪的最佳插入深度为0.2~0.3 m,降低渣含铜时,油枪插入渣层厚度的1/2~3/5,处理炉结时,油枪插至炉底再上提50~100 mm;合理控制入炉原料配比,按比例加入熔渣量1.6‰的Na_(2)CO_(3)。实施该方案后,电炉炉结厚度降至平均452 mm,电炉渣含铜降至月平均0.498%,产生了较好的经济效益。