Experiments on imbibition mechanisms of fractured reservoirs by microfluidic chips

To solve the problems of long experiment period and difficult measurement in core imbibition experiments,fracture-matrix microfluidic chips of different sizes,boundary conditions and wettability regulated by surface property modification were designed to research the imbibition mechanisms of oil-water,oil-surfactant solution and oil-WinsorⅢtype surfactant solution.In the oil-water,and oil-wettability modification system imbibition process,oil was replaced from the matrix through Haines jump,the capillary back pressure was the main resistance blocking the flow of oil,the reduction of interfacial tension caused the weakening of Haines jump,reduction of oil discharge rate,and increase of oil recovery.The imbibition of oil-water or oil-surfactant solution with low interfacial tension was a counter-current imbibition process dominated by capillary force,in which all boundaries had similar contribution to imbibition,and the recovery data obtained from this experiment fit well with the classic imbibition scaling equation.The imbibition of oil and Winsor III type surfactant solution was a co-current imbibition process dominated by gravity under super-low interfacial tension,and is essentially the formation and re-balance of neutral microemulsion.The imbibition dynamics obtained from this experiment fit well with the modified imbibition scaling equation.

Microscopic characteristics of tight sandstone reservoirs and their effects on the imbibition efficiency of fracturing fluids:A case study of the Linxing area,Ordos Basin

The Linxing area within the Ordos Basin exhibits pronounced reservoir heterogeneity and intricate micro-pore structures,rendering it susceptible to water-blocking damage during imbibition extraction.This study delved into the traits of tight sandstone reservoirs in the 8th member of the Shihezi Formation(also referred to as the He 8 Member)in the study area,as well as their effects on fracturing fluid imbibition.Utilizing experimental techniques such as nuclear magnetic resonance(NMR),high-pressure mercury intrusion(HPMI),and gas adsorption,this study elucidated the reservoir characteristics and examined the factors affecting the imbibition through imbibition experiments.The findings reveal that:①The reservoir,with average porosity of 8.40%and average permeability of 0.642×10^(-3)μm^(2),consists principally of quartz,feldspar,and lithic fragments,with feldspathic litharenite serving as the primary rock type and illite as the chief clay mineral;②Nano-scale micro-pores and throats dominate the reservoir,with dissolution pores and intercrystalline pores serving as predominant pore types,exhibiting relatively high pore connectivity;③Imbibition efficiency is influenced by petrophysical properties,clay mineral content,and microscopic pore structure.Due to the heterogeneity of the tight sandstone reservoir,microscopic factors have a more significant impact on the imbibition efficiency of fracturing fluids;④A comparative analysis shows that average pore size correlates most strongly with imbibition efficiency,followed by petrophysical properties and clay mineral content.In contrast,the pore type has minimal impact.Micropores are vital in the imbibition process,while meso-pores and macro-pores offer primary spaces for imbibition.This study offers theoretical insights and guidance for enhancing the post-fracturing production of tight sandstone reservoirs by examining the effects of these factors on the imbibition efficiency of fracturing fluids in tight sandstones.

The effects of various factors on spontaneous imbibition in tight oil reservoirs

Slickwater fracturing fluids have gained widespread application in the development of tight oil reservoirs. After the fracturing process, the active components present in slickwater can directly induce spontaneous imbibition within the reservoir. Several variables influence the eventual recovery rate within this procedure, including slickwater composition, formation temperature, degree of reservoir fracture development, and the reservoir characteristics. Nonetheless, the underlying mechanisms governing these influences remain relatively understudied. In this investigation, using the Chang-7 block of the Changqing Oilfield as the study site, we employ EM-30 slickwater fracturing fluid to explore the effects of the drag-reducing agent concentration, imbibition temperature, core permeability, and core fracture development on spontaneous imbibition. An elevated drag-reducing agent concentration is observed to diminish the degree of medium and small pore utilization. Furthermore, higher temperatures and an augmented permeability enhance the fluid flow properties, thereby contributing to an increased utilization rate across all pore sizes. Reduced fracture development results in a lower fluid utilization across diverse pore types. This study deepens our understanding of the pivotal factors affecting spontaneous imbibition in tight reservoirs following fracturing. The findings act as theoretical, technical, and scientific foundations for optimizing fracturing strategies in tight oil reservoir transformations.

Visualization and characterization of experimental hydraulic fractures interacting with karst fracture-cavity distributions

Karst fracture-cavity carbonate reservoirs,in which natural cavities are connected by natural fractures to form cavity clusters in many circumstances,have become significant fields of oil and gas exploration and exploitation.Proppant fracturing is considered as the best method for exploiting carbonate reservoirs;however,previous studies primarily focused on the effects of individual types of geological formations,such as natural fractures or cavities,on fracture propagation.In this study,true-triaxial physical simulation experiments were systematically performed under four types of stress difference conditions after the accurate prefabrication of four types of different fracture-cavity distributions in artificial samples.Subsequently,the interaction mechanism between the hydraulic fractures and fracture-cavity structures was systematically analyzed in combination with the stress distribution,cross-sectional morphology of the main propagation path,and three-dimensional visualization of the overall fracture network.It was found that the propagation of hydraulic fractures near the cavity was inhibited by the stress concentration surrounding the cavity.In contrast,a natural fracture with a smaller approach angle(0°and 30°)around the cavity can alleviate the stress concentration and significantly facilitate the connection with the cavity.In addition,the hydraulic fracture crossed the natural fracture at the 45°approach angle and bypassed the cavity under higher stress difference conditions.A new stimulation effectiveness evaluation index was established based on the stimulated reservoir area(SRA),tortuosity of the hydraulic fractures(T),and connectivity index(CI)of the cavities.These findings provide new insights into the fracturing design of carbonate reservoirs.

致密储层压驱焖井阶段渗吸机理分子模拟研究

针对致密储层开发中存在的天然地层能量衰减快、驱替相有效波及体积不足等难题,考虑将压驱与焖井相结合的高效开发技术应用于致密储层.基于分子动力学方法从微观作用力角度分析致密储层压驱渗吸机理,进行致密储层压驱过程溶质动态迁移表征,并从分子尺度对渗吸阶段进行划分.采用分子模拟方法,构建致密储层壁面-油相-驱替相三相体系,分别从体系弛豫特征、浓度分布及扩散能力和介质间相互作用能等方面分析常规水力压裂后常压驱替条件和压驱高压条件渗吸过程特征性差异,从分子尺度阐释致密储层压驱渗吸机理.研究表明:相对于常规压裂后驱替而言,压驱条件下,驱替相分子扩散系数提高20.06%,与孔隙壁面的相互作用能提高2.3倍;驱替相分子吸附层数增加,油相解吸效果更为明显,渗吸换油效率提高38.73%.此外,渗吸效率随储层温度变化的过程存在峰值,具有先上升后降低的特征;且受到壁面润湿性的影响,壁面亲水性越强渗吸效率越高.从分子尺度将焖井渗吸过程划分为3个阶段:水分子优先靠近壁面;驱替相流体与油相分子竞争吸附,将吸附态油相剥离为游离态,使其远离壁面;压驱液溶质分子进入初始油相范围,进一步置换油相,提高渗吸效率.压驱技术高压注入压驱剂可快速补充地层能量,扩大驱替相流体波及体积并提高洗油效率,在二者的协同作用下可大幅度提高渗吸驱油效率.该项研究可为致密储层高效开发提供理论参考.

鄂尔多斯盆地长6和长8段致密油储层驱渗特征研究

鄂尔多斯盆地致密油储量丰富,主要富集在延长组三叠系长6和长8油层组,是目前增储上产的重要目标。为了推动该类油藏的规模效益开发,以深化储层特征与渗流规律认识为目的,在前期研究基础上,引入核磁共振、高压压汞、纳米CT扫描和高精度流体计量等新技术,系统开展了致密油储层微观孔隙结构、原油赋存状态以及水驱与渗吸动用规律研究。研究成果表明,致密油储层发育多尺度孔隙,孔隙结构以小孔-细喉型为主且连通性较好。物理模拟研究表明,原油在致密油储层的各类孔隙中均有分布,但大、中孔隙中原油的含量远高于小孔隙中的原油含量,且多以游离态存在,流动性好,是油田开发的主要对象。水驱油实验表明,致密油储层虽然存在启动压力梯度,但当驱替压力大于启动压力之后能够建立有效驱替系统,且随着驱替压力的增大水驱油效率会有所提高。核磁共振技术与水驱油实验或渗吸实验相结合,清楚地表明了不论采用水驱方式还是渗吸方式开发,致密油储层优先动用的都是较大孔隙中赋存的原油,小孔隙中赋存的原油动用难度较大。这些研究成果为探索更加有效的开发技术提供了依据。

浅层水平缝油藏底部注水研究

延长东部油田主力油层平均中深670 m、平均渗透率0.3~0.5 mD,为特超低渗浅层油藏,油井压裂时易形成水平裂缝,致使注水开发过程中油井出现快速水淹,造成油井产量大幅下降,采收率低。针对这一问题,在对水平缝注水渗流特征、压裂水平缝油井水淹规律和底部注水机理研究的基础上,提出了底部注水开发方式,并应用渗透率变异系数、突进系数、级差3个参数综合表征水窜层位与非水窜层位特征,为底部注水选层提供依据;通过室内核磁共振在线测试及岩心流动驱替实验,结合油藏数值模拟和现场示踪剂测试等综合手段,对注水参数进行了优化。开展底部注水先导性试验的3个井组单井产油量由0.054 t/ d提高到0.179 t/ d,含水率由15%下降到10%,地层压力提高了0.18 MPa,预测最终采收率提高了2.1个百分点,取得了较好效果。研究表明,当渗透率变异系数<0.5、突进系数<1.5、渗透率级差<5,注入速度为0.06 mL/ min,注水压力7 MPa时,注水开发效果最好。底部注水能够有效解决浅层水平缝油藏注水开发效果不佳的问题,为同类油藏的高效注水开发提供了参考。

致密油储层压裂裂缝扩展规律分析及影响研究

以鄂尔多斯延长组长7裂缝性致密油储层为例,开展致密油储层裂缝扩展实验研究,分析裂缝扩展的影响因素,并对裂缝扩展规律进行模拟分析,实验结果表明:长7致密油储层岩石杨氏模量、泊松比和抗压强度波动范围广,造成数值差异较大;矿物组成分布差异为3%~46%,平均值为16.85%左右;该区块储层岩石发育部分的天然裂缝,储层最大水平主应力和最小水平主应力差异较大,储层水平和垂直方向上的孔、渗、饱等物性差异较大。天然裂缝的形成和发展受自然裂缝存在与地应力场差异这两个关键因素的显著影响,长7储层原始状态下裂缝的形态呈现低角度。

渗吸置换提高原油采收率研究进展

渗吸置换作用已逐渐成为非常规油藏和低渗、特低渗裂缝性油藏提高原油采收率的一种重要方式,大量裂缝的存在及细小孔隙发育为渗吸作用的发生创造了有利条件。首先,基于毛细管压力与重力对渗吸的贡献程度,对渗吸模式进行分类;而后,主要聚焦于影响渗吸的各类因素,详细阐述如储层类型、孔渗物性、边界条件、流体(包括原油与渗吸液体)性质等因素对渗吸的影响规律及作用机制,总结了目前使用的研究渗吸的各种实验手段;最后,根据渗吸作用的研究进展,探讨在实验条件确定、黏土水化影响、界面张力优化和渗吸模式选择等方面所面临的问题,并对这些问题的研究前景进行展望。

页岩储层渗吸过程微观孔缝演变特征及影响因素——以四川盆地渝西地区龙马溪组龙一1亚段为例

水力压裂已成为页岩气开采的重要手段,明确渗吸过程页岩储层孔隙、微裂缝的演变特征与影响因素,对指导页岩气井压后增产措施优化具有重要意义。为此,选取四川盆地渝西地区大足区块主力产层龙马溪组龙一1亚段底部黑色页岩为研究对象,开展渗吸水过程的氩离子抛光场发射扫描电镜(FE-SEM)定点观察实验,明确了渗吸水不同时间页岩储层微观孔缝演变规律。研究表明:①页岩储层渗吸水7 d后,有机质边缘有机孔出现不同程度的减小,而内部孔隙形态、大小基本不变;②粒内溶蚀孔和粒间孔会出现明显的扩溶现象,引起矿物颗粒溶蚀、脱落,增大页岩气泄气面积;③页岩储层渗吸水后不会大量萌生新的微裂缝,仅在原有微裂缝的基础上进行扩展,在吸水14 d后缝宽扩展为原来的5~10倍;④页岩储层面孔率在渗吸水后7 d达到最大值,大于7 d后微裂缝缝宽受黏土矿物持续膨胀影响出现不同程度的减小;⑤页岩储层增孔扩缝强度主要受矿物组成与孔渗性质影响,不稳定矿物与脆性矿物含量越高、粒径越大,增孔现象越明显,越有利于压后页岩气的渗流。

低渗透致密储层用改性纳米驱油压裂液

低渗致密油藏作为未来我国非常规油气资源勘探开发的主要新领域,是接替常规油气资源、支撑油气革命的重要力量。纳米流体在低渗致密油藏中驱油效果较好,但纳米粒子作为助剂在水溶液中易堵塞地层微纳米孔喉,纳米粒子的团聚问题一直难以解决。通过水溶液引发自由基共聚法,以丙烯酰胺(AM)、2-丙烯酰胺-2-甲基丙磺酸(AMPS)和N-12-(2-丁烯酰氧基)正十二烷基-N,N,N-三甲基溴化铵(MEDDA)为底物单体,引入改性纳米SiO_(2)合成了一种改性纳米SiO_(2)/聚合物驱油压裂液。借助红外光谱仪、核磁共振氢谱仪和透射电镜等方法分析表征改性纳米SiO_(2)/聚合物驱油压裂液稠化剂;再将渗吸驱油实验和核磁共振技术相结合来研究改性纳米SiO_(2)/聚合物驱油压裂液的驱油效果。研究结果表明,聚合物体系中的改性纳米SiO_(2)最优加量为1.5%。通过对比不同改性纳米SiO_(2)加量的改性纳米SiO_(2)/聚合物驱油压裂液在饱和油岩心片表面的接触角,证明改性纳米SiO_(2)/聚合物驱油压裂液驱油效率的提升是通过改善岩石表面润湿性来实现的。相较于未添加改性纳米SiO_(2)的聚合物驱油压裂液体系,添加改性纳米SiO_(2)(1.5%)/聚合物驱油压裂液的自发渗吸效率接近40%,渗吸效率提升超过1倍。通过核磁共振成像结果也可明显看出:随着渗吸时间的延长,添加了改性纳米SiO_(2)的驱油压裂液中的岩心原油饱和度大幅降低,渗吸速度明显加快,渗吸效果显著。

复兴地区高含黏土页岩凝析气藏渗吸排驱及液体渗流特征研究

复兴地区凉高山组为高含黏土页岩凝析气藏,体积压裂改造后闷井和返排期间易出现反凝析和液锁现象,影响开采效果。为准确了解高含黏土页岩凝析气藏的渗吸排驱和液体渗流特征,优化闷井转排驱时机,选取储层岩心,开展了气水渗吸排驱试验和三相渗吸排驱试验,采用核磁共振、恒压驱替相结合的方式,量化了渗吸排驱过程中压裂液的水锁伤害特征及凝析油的可流动特征;建立了液锁伤害表征方法,并模拟了矿场尺度闷井过程中的水锁特征。研究结果表明:该页岩储层压裂渗吸阶段岩心的渗吸采收率在50.22%~57.14%;渗吸液矿化度越低,返排率越低,水锁伤害率越高;油锁伤害率低于水锁伤害率;存在束缚水时,凝析油的临界可流动饱和度约可降低20%;若以闷井后解除近裂缝水锁伤害为目标,闷井时间以20~30 d为宜。研究结果为复兴地区高含黏土页岩凝析气藏高效开发提供了理论依据。

An experimental study of fracture initiation mechanisms during hydraulic fracturing

The mechanism of fracture initiation is the basic issue for hydraulic fracture technology. Because of the huge differences in fracture initiation mechanisms for different reservoirs,some successful fracturing techniques applied to porosity reservoirs are ineffectual for fractured reservoirs.Laboratory tests using a process simulation device were performed to confirm the characteristics of fracture initiation and propagation in different reservoirs.The influences of crustal stress field,confining pressure,and natural fractures on the fracture initiation and propagation are discussed.Experimental results demonstrate that stress concentration around the hole would significantly increase the fracture pressure of the rock.At the same time,natural fractures in the borehole wall would eliminate the stress concentration,which leads to a decrease in the fracture initiation pressure.

苏里格砂泥薄互储层缝控压裂造缝机制及穿层判别准则

针对苏里格气田二叠系盒8段砂泥薄互储层压裂施工中裂缝穿层扩展判别与压裂效果评价存在的问题,建立考虑层间非均质性的砂泥薄互储层地质力学模型,开展水力裂缝穿层扩展实验,揭示砂泥薄互储层中人工裂缝的起裂-延伸-交互-穿层机制。基于非常规裂缝模型的数值模拟,阐明了裂缝在薄互层中的垂向起裂与扩展特征,构建了裂缝穿层的判别准则与压裂效果评价方法。研究表明:层间应力差是直接影响穿层压裂裂缝形态的主要地质因素,苏里格气田层间应力差异系数(ξ_(IL))小于0.40时,裂缝可突破隔层在目标砂岩层内扩展;0.40≤ξ_(IL)<0.45时,裂缝突破隔层但无法在目标砂层内有效扩展;ξ_(IL)≥0.45时,裂缝仅在射孔储层扩展,无法实现穿层扩展。提高压裂液黏度与排量能弥补能量损耗并突破隔层限制,苏里格气田压裂施工参数控制区域内采用高黏度(50~100mPa·s)压裂液、高排量(12~18 m^(3)/min)施工条件有利于裂缝穿层。

吉木萨尔凹陷芦草沟组层理页岩渗吸置换规律

为研究吉木萨尔凹陷二叠系芦草沟组层理页岩储集层压裂后渗吸期间原油的动用规律,采用岩心渗吸置换实验结合核磁共振技术,定量描述不同孔隙内原油的相对含量。采用吉木萨尔地区上甜点的岩心开展渗吸实验,研究重力作用、各向异性、重力分异和水力压裂裂缝宽度对渗吸置换影响,并进行定量表征。结果表明:层理页岩自发渗吸的过程中,重力作用在渗吸中起到了动力作用,顶部渗吸的采收率高于水平渗吸;各向异性对层理页岩渗吸的影响较大,压裂液进入平行于层理的渗吸置换量大,达到渗吸平衡的时间较垂直于层理短,平行于层理渗吸采收率高于垂直于层理;重力分异是指在岩心底部渗吸时,渗吸置换出原油而停留在岩层表面形成油膜,阻止压裂液继续进入基质,导致渗吸效果变差,底部渗吸采收率与顶部渗吸采收率相差14.12%;模拟水力压裂裂缝宽度为2 mm的条件下发生渗吸置换的液量有限,导致模拟裂缝内含水饱和度下降快,限制了渗吸的进一步进行。因此,裂缝的缝高方向应尽量穿过平行层理,增大裂缝宽度,增加裂缝改造体积。

射孔参数对砂砾岩储层压裂的影响

砂砾岩油藏具有应力差大、破裂压力高的特点,导致造缝难度大,如何降低破裂压力是安全压开储层的关键。将水泥与石英砂按3∶1混合并随机混入不同直径的鹅卵石和细碎石粒,制作边长300 mm的人造砾岩,使用水力喷砂射孔枪进行射孔,通过改变角度0~90°、深度1.5~6 cm模拟现场不同射孔方位角和炮眼深度,根据现场数据设置实验三向应力分别为9.4、19.3、24.8 MPa,排量为50 mL/min,压裂液黏度为45 mPa·s,开展室内水力压裂实验,分析射孔角度和射孔深度对裂缝起裂及破裂压力的影响。研究结果表明,射孔方向与最大水平主应力夹角为0°时破裂压力最低,为11.9 MPa,减小射孔方位角能够降低破裂压力3.55 MPa;射孔深度由1.5 cm增加至6.1 cm,破裂压力降低了4.63 MPa;当射孔孔眼附近存在砾石,破裂压力异常增高约10 MPa。建议通过合理优化射孔方位角,适当增加射孔深度,同时遴选砾石粒径较小且分选性较好的层段进行施工,提高压裂改造成功率。研究成果为制定玛湖射孔方案提供了参数优选的依据。

四川盆地公山庙油田中侏罗统沙溪庙组一段致密油藏流体渗流特征

针对致密油藏岩石孔隙结构复杂、流体渗流阻力大、油气产量低、开发效益较差等问题,以四川盆地中部地区(简称“川中地区”)公山庙油田中侏罗统沙溪庙组一段低渗透、特低渗透致密砂岩油藏为例,在储层岩石润湿性实验基础上,开展了流体低速渗流实验、恒速水驱油实验和自发渗吸实验等多项研究。研究结果表明:①川中地区公山庙油田沙一段致密油藏的储层岩石总体上呈弱亲水性特征,在完全饱和地层水条件下的水相渗流曲线为一条直线,且经过坐标原点,地层水单相渗流符合达西定律且不存在启动压力或启动压力梯度。②在通过油驱水建立束缚水饱和度的条件下,岩石孔隙表面吸附的水膜降低了油相渗流通道,两相渗流存在贾敏效应,增加了油相渗流的附加阻力。油相低速渗流曲线不过坐标原点,存在启动压力或启动压力梯度;储层岩石的渗透率越低,启动压力或启动压力梯度越大。③驱替速度和岩石渗透率对水驱油效果有较大影响,在较高的驱替速度下,注入水在大孔道中发生指进和沿裂缝发生水窜是造成水驱油效率降低的主要原因。④岩石渗透率对渗吸驱油效果有显著影响,且裂缝样品的渗吸驱油效率大于基质样品的渗吸驱油效率。⑤对致密油藏实施大规模压裂改造,所形成的高渗透缝网可有效降低流体渗流的启动压力或启动压力梯度,再辅以单井吞吐(水油渗吸交换)的开采方式,这种组合是保证致密油藏长期稳产的重要技术措施。研究成果对致密油藏以及页岩油的开发具有重要的借鉴意义。

油基钻井液与地层流体重力置换实验研究

碳酸盐岩地层连通性较好,多发育裂缝溶洞型地层,经常发生重力置换式溢流,溢流与漏失并存,难以处理。在一些区块中,由于油与油基钻井液发生重力置换溢流,常导致钻井液密度降低,无法平衡井底压力,造成恶性溢流事故。为了及时处理溢流事故,实现安全钻井,需要掌握油与油基钻井液发生地层重力置换的机理,从理论出发指导现场处理重力置换溢流。因此,基于自主研制的井筒-裂缝-地层重力置换实验装置,开展重力置换实验,证明了重力置换现象的存在;配置油基钻井液,开展油基钻井液与油重力置换实验,发现由于地层原油与油基钻井液发生反应,会导致油基钻井液密度与粘度明显下降,导致油基钻井液无法平衡井底压力,影响钻井进程,实验对现场处理重力置换溢流具有指导意义。

英山地热田区深大断裂的控水控热作用及地热系统成因研究

目前对英山地区深部地温场的分布情况以及构造控热模式尚无系统研究,不利于地热资源科学的开发利用。基于野外裂隙测量、浅层连续测温、钻孔压水试验等成果,建立了英山裂隙岩体地下水渗流-传热三维模型,对深部储层在不同构造组合模式下的压力场、温度场和达西流速场进行分析。研究结果表明:研究区深部温度场和压力场受断裂系统影响较大,在致密基岩及隔水断层处,流体运动微弱,热量运移以热传导为主,导水断层处以热对流为主;在深部导水断层区域温度和水压偏低,与导水断层处相比,隔水断层处水压偏高;在2 000 m深度以深,高温区和水力交换强烈区与导水断层带处完全对应,表明断层是储层中最主要的流体和热量运移通道;区内断层组合模式为复合模式,北东向断层为英山地区主要导水导热构造,热水在沿北东向断层向上运移的过程中,受南北向断层的阻隔,最终在两组断层的交叉复合位置处形成温泉。该研究可为研究区内的地热资源科学勘查和合理开发利用提供参考。

海上低渗薄互层反向压驱压裂工艺技术研究及应用

南海西部某低渗砂泥薄互层油藏非均质性强、产量递减快、油气井斜度大,射孔跨度大、部分井水驱开发效果差。在详细研究油藏特征、开发现状的基础上,通过调研陆上以胜利油田为代表的注水井端正向压驱和以大庆、长庆油田为代表的采油井端反向压驱的应用条件和应用效果,形成针对海上低渗薄互层反向压驱压裂技术措施:利用悬挂分段工具、球剂复合暂堵技术分层;大规模反向压驱对地层补能,采用高效驱油剂进行渗吸置换驱油;逆序混合压裂降低裂缝起裂压力;优选低伤害海水基压裂液满足携砂流变能力,降低储层伤害;大规模加砂压裂有效改造储层。通过现场应用证明,该技术可靠性强,措施后见油快,稳产期长且增产效果显著,较好地解决了海上大跨度多段连续射孔斜井的增产改造难题,对类似油气井的增产改造方案设计提供一定的借鉴。