Heterogeneity and influencing factors of marine gravity flow tight sandstone under abnormally high pressure:A case study from the Miocene Huangliu Formation reservoirs in LD10 area,Yinggehai Basin,South China Sea

The characteristics of reservoir heterogeneity of the marine gravity flow tight sandstone from the Miocene Huangliu Formation under abnormally high pressure setting at LD10 area in Yinggehai Basin are studied,and the influencing factors on reservoir heterogeneity are discussed,based on modular formation dynamics test,thin sections,XRD analysis of clay minerals,scanning electron microscopy,measurement of pore throat image,porosity and permeability,and high pressure Hg injection,as well as the stimulation of burial thermal history.The aim is to elucidate characteristics of the heterogeneity and the evolution process of heterogeneity of the reservoir,and predict the favorable reservoirs distribution.(1)The heterogeneity of the reservoir is mainly controlled by the cement heterogeneity,pore throat heterogeneity,quality of the reservoir heterogeneity,and the diagenesis under an abnormally high pressure setting.(2)The differences in pore-throat structure caused by diagenetic evolution affected the intergranular material heterogeneity and the pore throat heterogeneity,and finally controlled the heterogeneity of reservoir quality.(3)Compared with the reservoir under normal pressure,abnormally high pressure restrains strength of the compaction and cementation and enhances the dissolution of the reservoir to some extent,and abnormally high pressure thus weakening the heterogeneity of the reservoir to a certain degree.The favorable reservoirs are mainly distributed in the gravity flow sand body under the strong overpressure zone in the middle and lower part of Huangliu Formation.

Productivity Analysis Method of Abnormal High-Pressure Gas Reservoir in Ying-Qiong Basin

Ying-Qiong Basin in the west of South China Sea contains plenty of abnormal high-pressure gas reservoirs, whose stress sensitivity is crucial for well productivity. To explore the influence of stress sensitivity on production, the variable outlet back pressure stress sensitivity experiments were applied to test core sample permeability under different burden pressure and obtain the relational expression of power function of core stress sensitivity. Afterwards, new productivity equation is deduced in consideration of reservoir stress sensitivity, and the affection of stress sensitivity on production is analyzed. The result demonstrates close link between stress sensitivity and productivity, since single well production decreases dramatically when reservoir stress sensitivity has been taken into account. This research is constructive for well-testing data interpretation in stress sensitive gas reservoirs.

Test and Study of the Rock Pressure Sensitivity for KeLa-2 Gas Reservoir in the Tarim Basin

KeLa-2 gas reservoir is the largest uncompartimentalized gas field so far discovered in China, with a reserve of hundreds of billions of cubic meters of dry gas. It has such features as extremely long interval (550m), high pressure (74.5MPa) and pressure coefficient (2.022). Gas reservoirs with a pressure coefficient of over 2.0 are not commonly found. The abnormal high-pressure reservoirs are quite different in characteristic and performance during the process of depletion exploitation. Therefore, it is necessary to know the property of pressure sensitivity for this abnormal high-pressure reservoir. The aim of this paper is to test the reservoir pressure sensitivity and to analyze its effect on the deliverability of gas. Through some experiments, the permeability change with the confining pressure of rock samples from KeLa-2 abnormal high-pressure gas reservoir is measured. A power function is used to match the measured data, and to derive an empirical equation to describe the change of permeability through the change of the reservoir pressure or effective overburden pressure. Considering the permeability change during the development of reservoirs, a conventional deliverability equation is modified, and the deliverability curve for KeLa-2 gas reservoir is predicted. The research indicates that the extent of the pressure sensitivity of rock samples from KeLa-2 is higher than that from the Daqing oilfield. KeLa-2 reservoir rock has the feature of an undercompaction state. The pressure sensitivity of a reservoir may decrease the well deliverability. It is concluded that for KeLa-2 reservoir the predicted absolute open flow (AOF), when the pressure sensitivity is taken into account, is approximately 70% of the AOF when permeability is constant and does not change with pressure.

Numerical Simulation of Oil and Gas Two-Phase Flow in Deep Condensate Gas Reservoirs in Bohai Buried Hills

The BZ19-6 gas field is characterized by high temperature and high pressure (HTHP), high condensate content, little difference between the formation pressure and dew point pressure, and large amount of reverse condensate liquid. During the early stage of depletion development, the production gas-oil ratio (GOR) and production capacity remain relatively stable, which is inconsistent with the conventional reverse condensate seepage law. In view of the static and dynamic conflict in development and production, indoor high-temperature and high-pressure PVT experiment was carried out to reveal the mist-like condensation phenomenon of fluids in the BZ19-6 formation. And the seepage characteristics of condensate gas reservoirs with various degrees of depletion under the condition of HTHP were analyzed based on production performance. The change rule of fluid phase state was analyzed in response to the characterization difficulties of the seepage mechanism. The fluid state was described using the miscible mechanism. And the interphase permeability interpolation coefficient was introduced based on interfacial tension. By doing so, the accurate characterization of the “single-phase flow of condensate gas-near-miscible mist-like quasi single-phase flow-oil-gas two-phase flow” during the development process was achieved. Then the accurate fitting of key indicators for oilfield development was completed, and the distribution law of formation pressure and the law of condensate oil precipitation under different reservoir conditions are obtained. Based on research results, the regulation strategy of variable flow rate production was developed. Currently, the work system has been optimized for 11 wells, achieving a “zero increase” in the GOS of the gas field and an annual oil increase of 22,000 cubic meters.

Action mechanisms of abnormal fluid pressure on physical properties of deep reservoirs: A case study on Jurassic Toutunhe Formation in the southern margin of Junggar Basin, NW China

Considering the action mechanisms of overpressure on physical changes in skeleton particles of deep reservoir rocks and the differences in physical changes of skeleton particles under overpressure and hydrostatic pressure, the sandstone of the Jurassic Toutunhe Formation in the southern margin of Junggar Basin was taken as an example for physical modeling experiment to analyze the action mechanisms of overpressure on the physical properties of deep reservoirs. (1) In the simulated ultra-deep layer with a burial depth of 6000-8000 m, the mechanical compaction under overpressure reduces the remaining primary pores by about a half that under hydrostatic pressure. Overpressure can effectively suppress the mechanical compaction to allow the preservation of intergranular primary pores. (2) The linear contact length ratio under overpressure is always smaller than the linear contact length ratio under hydrostatic pressure at the same depth. In deep reservoirs, the difference between the mechanical compaction degree under overpressure and hydrostatic pressure shows a decreasing trend, the effect of abnormally high pressure to resist the increase of effective stress is weakened, and the degree of mechanical compaction is gradually close to that under hydrostatic pressure. (3) The microfractures in skeleton particles of deep reservoirs under overpressure are thin and long, while the microfractures in skeleton particles of deep reservoirs under hydrostatic pressure are short and wide. This difference is attributed to the probable presence of tension fractures in the rocks containing abnormally high pressure fluid. (4) The microfractures in skeleton particles under overpressure were mainly formed later than that under hydrostatic pressure, and the development degree and length of microfractures both extend deeper. (5) The development stages of microfractures under overpressure are mainly controlled by the development stages of abnormally high pressure and the magnitude of effective stress acting on the skeleton particles. Moreover, the development stages of microfractures in skeleton particles are more than those under hydrostatic pressure in deep reservoir. The multi-stage abnormally high pressure plays an important role in improving the physical properties of deep reservoirs.

Progress and development directions of stimulation techniques for ultra-deep oil and gas reservoirs

By reviewing the development history of stimulation techniques for deep/ultra-deep oil and gas reservoirs,the new progress in this field in China and abroad has been summed up,including deeper understanding on formation mechanisms of fracture network in deep/ultra-deep oil and gas reservoir,performance improvement of fracturing fluid materials,fine stratification of ultra-deep vertical wells,and mature staged multi-cluster fracturing technique for ultra-deep and highly deviated wells/horizontal wells.In light of the exploration and development trend of ultra-deep oil and gas reservoirs in China,the requirements and technical difficulties in ultra-deep oil and gas reservoir stimulation are discussed:(1)The research and application of integrated geological engineering technology is difficult.(2)The requirements on fracturing materials for stimulation are high.(3)It is difficult to further improve the production in vertical profile of the ultra-deep and hugely thick reservoirs.(4)The requirements on tools and supporting high-pressure equipment on the ground for stimulation are high.(5)It is difficult to achieve efficient stimulation of ultra-deep,high-temperature and high-pressure wells.(6)It is difficult to monitor directly the reservoir stimulation and evaluate the stimulation effect accurately after stimulation.In line with the complex geological characteristics of ultra-deep oil and gas reservoirs in China,seven technical development directions are proposed:(1)To establish systematic new techniques for basic research and evaluation experiments;(2)to strengthen geological research and improve the operational mechanism of integrating geological research and engineering operation;(3)to develop high-efficiency fracturing materials for ultra-deep reservoirs;(4)to research separated layer fracturing technology for ultra-deep and hugely thick reservoirs;(5)to explore fracture-control stimulation technology for ultra-deep horizontal well;(6)to develop direct monitoring technology for hydraulic fractures in ultra-deep oil and gas reservoirs;(7)to develop downhole fracturing tools with high temperature and high pressure tolerance and supporting wellhead equipment able to withstand high pressure.

准噶尔盆地深层-超深层碎屑岩致密气储层特征及其控制因素

为寻找准噶尔盆地深层-超深层有利碎屑岩致密气储层,利用钻井、录井、薄片及化验资料,研究了碎屑岩致密气储层发育特征、储集空间类型、物性变化特征及有利储层控制因素。研究结果表明:①深层-超深层有利碎屑岩致密气储层储集岩主要为三角洲砾岩和砂岩,以细砾(砂)岩、中砾(砂)岩及中-细砾(砂)岩为主,为岩屑类砂岩。砾石成分和砂岩岩屑以凝灰岩为主,胶结物主要为方解石,局部富集沸石类。②储集空间为孔隙和裂缝,以孔隙为主。储集空间有孔隙型、裂缝型和孔隙-裂缝混合型3种组合类型。孔隙主要为原生剩余孔隙和次生溶蚀孔隙,以次生溶蚀孔隙为主。裂缝以成岩压实微裂缝和构造裂缝为主。③碎屑岩致密气储层垂向上形成了3个次生孔隙发育带。④岩石成分、建设型成岩作用和异常高压是控制有利储层的主要因素,3个主要因素控制了盆地深层-超深层碎屑岩致密气有利储层的发育和分布。

岩矿扫描录井在碳酸盐岩储层异常高压预测中的应用

做好碳酸盐岩储层异常高压随钻预测,是降低溢流、井漏风险发生概率的关键。针对塔里木盆地富满地区一间房-鹰山组碳酸盐岩储层异常高压预测难题,通过岩矿扫描录井技术,获取与断控缝洞型碳酸盐岩储层异常高压相关的孔隙度、裂缝数两个参数,引入反映裂缝复杂程度的裂缝复杂指数,并建立孔隙度与裂缝复杂指数图板,对塔里木盆地富满地区一间房-鹰山组碳酸盐岩储层异常高压进行识别和预测。以塔里木盆地富满地区FD 1井为例,应用孔隙度与裂缝复杂指数图板能有效表征碳酸盐岩储层异常高压段,为该地区碳酸盐岩储层异常高压研究和预测提供了一个新方法,也为下一步勘探开发提前采取工程措施,降低溢流、井漏风险发生概率提供技术支撑。

应力敏感特低渗气藏绝对无阻流量计算新方法

为准确评价特低渗气藏产能,推导考虑应力敏感效应的气井产能方程,建立了特低渗气藏绝对无阻流量计算新方法。通过产能方程左端项数值与产气量的线性关系,确定方程系数A和B,建立考虑应力敏感效应的气井产能方程和绝对无阻流量计算公式,提高特低渗气藏产能预测精度。经S气藏A1、B1、B2井现场应用,相比于忽略应力敏感影响,应力敏感的气井绝对无阻流量下降19%,设计产能精度达到90.4%和95.0%,表明应力敏感效应对气井产能影响较大。新方法更适用于特低渗气藏的产能评价,具有较大的推广应用价值。

西湖凹陷古近系致密砂岩气“三元耦合控藏”特征

针对西湖凹陷古近系致密砂岩气成藏机制与成藏模式尚不明确等问题,综合分析了烃源岩的特征与生排烃期次,研究异常高压的成因与分布特点,以及大型储集体的展布与物性特征,建立了致密砂岩气的成藏模式。研究结果表明:烃源岩、异常高压和致密储层“三元耦合控藏”是西湖凹陷致密砂岩气藏成藏关键因素,其中古近系煤系烃源岩条件优越,生气高峰期与储层致密形成时间一致,生烃增压同时提供了富厚的物质基础;异常高压改善储层物性,同时利于致密砂岩气的长距离运移和聚集;大规模的砂岩储集体发育,致密砂岩气在异常高压作用下汇聚成藏。西湖凹陷致密砂岩气藏呈现出“自源侧向-垂向”的成藏模式,共发育“原生型”和“改造型”2类致密砂岩气藏,具有良好的勘探前景。

Origin of abnormal high pressure and its relationship with hydrocarbon accumulation in the Dina 2 Gas Field, Kuqa Depression

Based on distribution of formation pressure by indirect estimation and formation testing,this study investigates origin of abnormal high pressure in the Dina 2 Gas Field in the Kuqa Depression in combination with the latest research findings.Contribution of major overpressure mechanisms to this gas field is estimated,and generation of the abnormal high pressure as well as its relationship with natural gas accumulation is explored.Disequilibrium compaction,tectonic stress,and overpressure transfer are the major overpressure mechanisms.Overpressure transfer resulted from vertical opening of faults and folding is the most important cause for the overpressure.Gas accumulation and abnormal high pressure generation in the reservoirs of the Dina 2 Gas Field show synchroneity.During the early oil-gas charge in the Kangcun stage,the reservoirs were generally normal pressure systems.In the Kuqa deposition stage,rapid deposition caused disequilibrium compaction and led to generation of excess pressure(approximately 5-10 MPa)in the reservoirs.During the Kuqa Formation denudation stage to the Quaternary,reservoir overpressure was greatly increased to approximately 40-50 MPa as a result of vertical pressure transfer by episodic fault activation,lateral overpressure transfer by folding and horizontal tectonic stress due to intense tectonic compression.The last stage was the major period of ultra-high pressure generation and gas accumulation in the Dina 2 Gas Field.

Gas expansion caused by formation uplifting and its effects on tight gas accumulation:A case study of Sulige gas field in Ordos Basin,NW China

Gas expansion caused by significant exhumation in the Sulige gas field in the Ordos Basin since Late Cretaceous and its effects on hydrocarbon accumulation have been investigated systematically based on comprehensive analysis of geochemical,fluid inclusion and production data.The results indicate that gas volume expansion since the Late Cretaceous was the driving force for adjustment and secondary charging of tight sandstone gas reservoirs in the Sulige gas field of the Ordos Basin.The gas retained in the source rocks expanded in volume,resulting in gas re-expulsion,migration and secondary charging into reservoirs,while the gas volume expansion in the tight reservoirs caused the increase of gas saturation,gas-bearing area and gas column height,which worked together to increase the gas content of the reservoir and bring about large-scale gas accumulation events.The Sulige gas field had experienced a two-stage accumulation process,burial before the end of Early Cretaceous and uplifting since the Late Cretaceous.In the burial stage,natural gas was driven by hydrocarbon generation overpressure to migrate and accumulate,while in the uplifting stage,the gas volume expansion drove internal adjustment inside gas reservoirs and secondary charging to form new reservoirs.On the whole,the gas reservoir adjustment and secondary charging during uplifting stage is more significant in the eastern gas field than that in the west,which is favorable for forming gas-rich area.

流体异常高压对深层储集层物理性质的作用机理——以准噶尔盆地南缘侏罗系头屯河组为例

针对超压对深层储集层骨架颗粒物理变化的作用机制以及超压与静水压力条件下骨架颗粒物理变化的差异性问题,以准噶尔盆地南缘侏罗系头屯河组砂岩为例,开展超压对深层储集层物理性质作用机理的物理模拟实验。研究结果表明:①在模拟埋深6000~8000 m的条件下,超压环境下机械压实作用使剩余原生孔的减小值约是静水压力下的二分之一,超压可有效抑制机械压实作用,使粒间原生孔隙得以保存。②超压环境下的颗粒线状接触比例始终小于相同深度静水压力下的颗粒线状接触比例,但二者差值向深层呈现减小趋势,揭示流体异常高压抵抗有效应力增大的作用减弱,超压下机械压实程度向深层有逐渐接近静水压力下机械压实程度的趋势。③由于异常高压流体的存在,深层储集层在超压下易形成拉张裂缝,骨架颗粒内微裂缝呈细长特征,而静水压力下骨架颗粒内微裂缝呈短宽特征。④超压下骨架颗粒内微裂缝发育的主要时期晚于静水压力下,微裂缝发育程度及长度均有向更深层延伸的特点。⑤超压下骨架颗粒内微裂缝的发育期次主要受控于流体异常高压的发育期次以及作用于骨架颗粒上的有效应力大小,深层储集层超压下骨架颗粒内微裂缝发育期次多于静水压力下的发育期次,流体异常高压的多次发育对改善深层储集层的物理性质具有重要作用。

准噶尔盆地异常压力特征及其对深层-超深层致密储层的影响

准噶尔盆地深层-超深层领域近年来连续获得发现和突破,储层为非常规致密储层且发育异常高压。为明确异常高压发育特征及其对储层质量的影响,利用已钻重点井完井系统试油测压数据进行统计分析,确定盆地深层-超深层压力分布特征和类型,结合成岩作用类型,明确其对致密储层质量的影响。结果表明:①深层-超深层广泛发育异常高压,剩余压力大,压力系数高,垂向和平面分布范围广;②可划分为一般、中等、强和超强等4个异常高压区,西部和东部区块主要位于一般和中等异常高压区,中部区块主要位于一般和强异常高压区,南部区块从一般到超强异常高压区均有分布;③压力系数垂向演化可分为渐变、突变和多变等3种类型,具有不同成因。异常高压对深层-超深层致密储层影响主要体现在:①通过增强孔隙流体承压能力,减弱岩石骨架颗粒压力,抑制压实作用,使储层保留大量原生粒间孔隙;②通过抑制胶结物的生成和析出,减弱胶结作用,使胶结物体积分数随埋深增加持续下降;③通过抑制有机质演化,延长生、排烃期,延长和扩大有机酸作用的时间和范围,增强溶蚀作用,形成次生孔隙;④通过促进孔隙流体压力积聚,当孔隙流体压力超过上覆地层压力的60%时,促进非构造裂缝形成。异常高压对盆地深层-超深层致密储层质量的改善和提升发挥了关键作用,是其成为有效储层的控制因素之一。

塔北、塔中奥陶系碳酸盐岩异常高压形成、保存与分布

塔里木盆地奥陶系超深层碳酸盐岩储集层受控于高能相带、区域不整合面及多期次和多类型断裂破碎作用改造,内幕流体及压力系统分布异常复杂。分析认为,沉积、构造、化学反应等因素均影响了塔北、塔中地区奥陶系碳酸盐岩异常高压的形成、保存与分布。厚层膏盐岩延缓了烃源岩热演化,阻滞应力传递,不整合面为构造应力和欠压实压力传递、晚期油气充注提供通道,均有利于异常高压形成;后期硫酸盐热化学还原反应一定程度上削弱了异常高压的发育程度并影响其垂向分布层位;厚层泥岩、致密石灰岩等优质盖层有利于异常高压保存。异常高压主要分布于生烃坳陷周缘、远离主干断裂或活动性较弱的次级断裂。其中,塔北地区异常高压主要由构造挤压与欠压实作用形成,呈多点散状分布于断裂复杂的跃满地区和鹿场地区;塔中地区由流体膨胀形成的异常高压集中分布于塔中10号构造带,储集层一般规模较小且定容。

西湖凹陷A洼陷异常高压封存箱成因机制与控藏作用

近年来勘探实践表明,西湖凹陷斜坡带A洼陷岩性目标普遍发育高压,高压封存箱内为主要油气富集区。从高压封存箱的判别方法入手,引入“开放压力系统”的概念,从地质成藏的角度重新认识和定义高压,并利用地质录井、测井和地震等资料,对A洼的优质烃源岩(煤层)发育特征、高压成因、高压对成藏的控制作用等方面开展对比研究。研究结果表明:(1)西湖凹陷斜坡带A洼平湖组高压源于生烃增压,且高压封存箱内的砂体具有层层成藏特征;(2)平湖组“先增压再降压”的特殊压力系统特征是煤层发育丰度、热演化程度和砂体发育广度三者耦合的结果;(3)高压封存箱是砂体尖灭和源灶生烃叠合的指示标志,其边界的有效刻画,将显著提高油气钻探成功率。本项研究对于生烃增压型盆地的岩性油气藏勘探具有一定借鉴意义。

YJ侏罗系优质储层发现的意义与试采进展

介绍准噶尔盆地YJ井区砂岩油藏侏罗系储层发育特征和试采进展。2004年,Y1井5 873~5 888 m井段试油,日产油72 m3/d,日产气10 562 m^(3)/d,发现YJ井区。生产层油层厚度8.4 m,层理缝比较发育,异常高压。Y3-CP1井完钻井深6 111 m,水平段374 m,采用自喷投产,油压46 MPa,日产油62 t/d、日产气18 000 m^(3)/d,不含水,已累产油3.554 9×10^(4)t,累产天然气1.1×10^(7)^(3)。Y3-CP1井原油可采储量为6×10^(4)t。YJ井区已有9口井获得工业油流,到2022年8月,累产油8.8×10^(4)t。

海上异常高压定容气藏动储量评价方法应用

海上气田异常高压气藏大多表现为定容气藏,目前针对异常高压定容动储量评价方法较多,但动储量计算精度有待提高,因此有必要结合生产实际,对不同动储量评价方法开展应用研究。本文结合海上气田异常高压气藏开发生产具体实例,分别利用三种不同方法计算气藏动储量结果,同时分别对比了不同动储量评价方法的原理、适用条件及优缺点,可应用于海上气田异常高压定容气藏动储量评价,对于类似气藏的开发技术政策研究具有较强指导意义。

地层异常高压形成机理的研究

通过对地层中各种不同异常高压形成机理的系统分析 ,认为不同的异常高压形成机理具有不同的作用对象和作用范围 ,不均衡压实、构造挤压、生烃增压和流体热膨胀增压是异常高压形成的主要机理 .不均衡压实增压主要在泥岩或大套泥岩内砂岩中有作用 ,生烃增压则主要发生于成熟—高成熟的烃源岩中 ,流体热膨胀增压主要发生于封闭体系中 ,三者具有一定的普遍性 .构造挤压作用增压主要发生于压性盆地中 ,在前陆盆地山前带具有普遍意义 .流体密度差增压主要发生于油气藏范围 ,主要产生局部异常高压 .矿物成岩作用引起的超压主要发生于储层中 ,仅是辅助的异常高压形成机理 .水压头对某些盆地的超压形成有一定作用 ,缺乏普遍性 .渗透作用对超压意义不大 .实际的含油气盆地中 ,往往是某一种或几种成因占主导地位 ,而其他成因基本不起作用或作用不明显 .所以 。

塔里木盆地异常高压气藏的主要地质特征和成藏模式

在全面论述塔里木盆地异常高压气藏分布的基础上,重点剖析了南天山和西昆仑山的山前坳陷的区域演化、异常高压成因、储气构造形成和成藏期,进而提出其成藏模式,探讨异常高压气藏形成的关键和勘探靶区。库车坳陷除依南2气藏为自源型外,其它5个气藏均属晚期充注型;主成藏期是中新世晚期—上新世早期,背斜发育受一组后展式扩展的逆冲断层控制,更新世以来天然气向原储气构造内充注,异常高压是自源型高压和传导型高压的叠加。叶城凹陷柯克亚背斜深部的古近系在中新世成藏,上新世-早更新世随地层褶皱发生调整,属晚期调整的气藏;浅部的中新统气藏则是晚期充注型,除气源岩供气外还有深部的古近系气藏为之供气,应属晚期次生成藏。