鄂尔多斯盆地东南部长7_(3)段泥页岩储层有机质发育特征及富集模式

针对鄂尔多斯盆地东南部中生界延长组长7_(3)段泥页岩储层有机质非均质性强、分布规律复杂、预测难度大的热点问题,基于钻井、测井、岩心、薄片及微量元素分析等资料,对长7_(3)段泥页岩储层开展了有机质发育特征及富集模式研究。结果表明,长7_(3)段沉积时期半深湖-深湖亚相泥页岩有机质丰度高,发育厚度大,连续性好,有机质类型以Ⅱ1型为主,页岩气烃源岩潜力巨大。有机质主要表现为顺层富集、大段厚层富集及大面积分布等特征。受印支运动的影响,长7_(3)段沉积时期盆地基底大幅沉降,形成了大规模沉积中心,扩大了湖盆的可容空间。潮湿-半干旱气候有利于营养物质进入湖盆,促进水生生物聚集,火山活动等事件也导致水体富营养化,提高了有机质生产力。长期稳定的缺氧还原环境为沉积有机质保存提供了关键条件。

番禺低隆起珠海组砂岩碳酸盐胶结特征及其对储层物性的影响

为了深化珠江口盆地番禺低隆起的油气地质特征认识,针对碎屑砂岩储层中碳酸盐胶结物发育特征、胶结机制及其对储层物性的影响等问题,采用孔渗分析、薄片鉴定、扫描电镜及X射线衍射等测试手段,对该区珠海组储层砂岩开展了系统的成岩作用研究。结果表明:该区发育同生成岩期、早成岩阶段A期及晚成岩阶段A_1期共3期碳酸盐胶结;同生成岩期发育基底式胶结的方解石及铁白云石,与该时期孔隙流体在弱碱性成岩环境中过饱和析出有关;早成岩阶段A期发育孔隙式胶结的方解石、铁白云石及菱铁矿,该期胶结物质来源包括生物化石骨架颗粒溶解、铝硅酸盐矿物水化作用及早期残余孔隙流体等;晚成岩阶段A_1期发育少量孔隙式胶结的方解石及铁白云石,该阶段末期成岩环境逐步转变为弱碱性—碱性,在较大埋深、较高温压条件下,强烈的水-岩反应释放出Ca^(2+),Fe^(2+)及Mg^(2+)等离子并进入孔隙流体,导致末期方解石及铁白云石过饱和析出;碳酸盐胶结是导致研究区储层物性变差的主要原因之一,早期方解石及铁白云石包裹碎屑颗粒,充填粒间孔隙,极大地破坏了储层物性,中期孔隙式胶结的方解石、铁白云石及菱铁矿进一步缩减了孔隙空间,晚期碳酸盐胶结见方解石及铁白云石充填粒间孔隙并交代碎屑颗粒,使砂岩进一步致密化。研究结果可为该区有利区带预测及勘探目标评价提供依据。

甘泉油田长8油层组储层孔隙发育特征及演化规律

通过孔渗、压汞、薄片鉴定和扫描电镜等分析资料,以鄂尔多斯盆地甘泉油田三叠系延长组长8油层组储层作为研究对象,系统研究孔隙发育特征及演化规律。研究结果表明:研究区长8储层主要发育岩屑长石砂岩,呈特低孔-超低渗特征,属典型的致密砂岩储层。长8储层孔隙类型以粒间孔、长石及岩屑溶孔为主,有少量晶间孔、微裂缝。影响孔隙演化的主要因素分为建设性及破坏性成岩作用,其中,建设性因素包括溶蚀作用及早期碳酸盐胶结作用,机械压实作用、中期及晚期胶结作用对孔隙产生破坏性影响。研究区长8储层孔隙演化定量计算表明:强烈的机械压实导致原生粒间孔遭到大幅破坏,孔隙度由原始35.88%下降至15.99%,早期溶蚀使孔隙度增至17.86%,后因胶结作用致孔隙度下降至14.17%,随后有机酸溶蚀使孔隙度增至14.60%,溶解产物进一步发生胶结使孔隙度降至现今孔隙度6.74%。长石、岩屑颗粒及胶结物的溶蚀加大了次生孔隙空间,是长8储层物性改善的根本原因。

甘泉油田长8油藏水下分流河道砂体钙质夹层特征及成因

钙质夹层研究对油田开发初期井网布置、后期增储上产等具有重要意义。通过岩心观察、铸体薄片观察、扫描电镜观察、测井资料分析等手段,对甘泉油田延长组长8段钙质夹层岩性、电性、分布成因及其对储集层非均质性的影响开展了系统研究。结果表明,钙质夹层发育受水下分流河道微相控制,主要发育在砂体顶部和底部,具有稳定性较高、厚度较大等特征,此外,具有低自然伽马、低声波时差、高电阻率的测井响应特征。钙质夹层发育主要受控于2期方解石胶结,第一期与同生成岩期方解石的过饱和沉淀有关,此时期,壳类生物残体的溶解、河流携带的Ca^(2+)及CO_(2)^(3-)、大气中CO_(2)的溶解等是方解石胶结的物质来源;第二期方解石胶结为中成岩阶段B期的孔隙式胶结,地层中残留流体的Ca^(2+)及CO_(2)^(3-)、不稳定组分溶蚀、黏土矿物转化等为钙质胶结提供了Ca^(2+)及CO_(2)^(3-)。钙质夹层的发育增强了储集层砂体的层内非均质性,导致砂体垂向连通性变差和油水关系复杂。在油藏注水开发过程中,钙质夹层与相邻非渗透性隔夹层斜交形成有效隔挡,形成局部剩余油富集区。

鄂尔多斯盆地南部延长组长8油藏油气充注期次

为了研究鄂尔多斯盆地南部延长组长 8 油藏的油气充注期次,开展了储集层中包裹体宿主矿物的成岩序列分析和包裹体均一温度测试。结果表明:①鄂尔多斯盆地南部延长组长 8 油藏发育 3 期烃类包裹体,第 1 期包裹体分布在石英矿物早期裂缝或石英颗粒内部溶蚀区,均一温度为 61.1~121.7 ℃;第 2 期包裹体分布在石英加大边内部或方解石胶结物中,均一温度为 106.2~155.7 ℃;第 3期包裹体分布在切穿石英及其加大边的晚期裂缝中,均一温度为 92.2~130.5 ℃。②结合研究区的构造热演化史可以得出,延长组长 8 油层组第 1 期油气充注发生在早侏罗世晚侏罗世(192.5~152.0 Ma),为早期油气成藏;第 2 期油气充注发生在晚侏罗世早白垩世(152.0~126.0 Ma),为主要成藏时期;第3期油气充注发生在古近纪(60.0~36.5Ma),为晚期油气成藏。该研究成果对鄂尔多斯盆地南部寻找次生油气藏具有重要勘探意义。

Chlorite cement and its effect on the reservoir quality of sandstones from the Panyu low-uplift,Pearl River Mouth Basin

Based on porosity and permeability measurements, mercury porosimetry measurements, thin section analyses, SEM observations, X-ray diffraction （XRD） analysis and granulometric analyses, diagenetic features of reservoir sandstones taken from the Zhuhai formation in the Panyu low-uplift of the Pear River Mouth Basin were examined. This study shows that chlorite cements are one of the most important diagenetic features of reservoir sandstones. The precipitation of chlorite was controlled by multiple factors and its development occurred early in eo-diagenesis and continued till Stage A of middle diagenesis. The precipitation of chlorite at the early stage was mainly affected by the sedimentary environment and provenance. Abundant Fe- and Mg-rich materials were supplied during the deposition of distributary channel sediments in the deltaic front setting and mainly in alkaline conditions. With the burial depth increasing, smectite and kaolinite tended to be transformed into chlorite. Smectite cements were completely transformed into chlorite in sandstones of the studied area. Volcanic lithics rich in Fe and Mg materials were dissolved and released Fe2＋ and Mg 2＋ into the pore water. These cations precipitated as chlorite cements in middle diagenesis in an alkaline diagenetic environment. Chlorite coatings acted as porosity and permeability, thus helping preserve cements in the chlorite cemented sandstones. The reservoir quality of chlorite cemented sandstones is much better than sandstones without chlorite cements. Chlorite cements play an important role in the reservoir evolution that was mainly characterized by preserving intergranular porosity and forming better pore-throat structures of sandstones.

新疆哈密野马泉西金矿区资源量数据集

康古尔塔格韧性剪切带是金矿重要控矿带,产有康古尔、马头滩、石英滩等重要矿床。野马泉西金矿即位于该韧性剪切带的东延苦水-雅满苏韧性剪切带上,属韧性剪切带控矿型金矿。本文在野外地质调查基础上采集了野马泉西金矿探矿工程坐标、工程内样品的分析测试成果等数据,采用地质块段法对野马泉西金矿资源量进行了估算,形成了数据集。数据集测试样品均委托有国家甲级资质的测试中心进行,内外检合格率90%以上,数据质量可靠,对周边同类型矿床的资源量估算具参考意义。

七里村油田长6油层浊沸石胶结特征及其对物性影响

为深化七里村油田油气地质特征认识,针对延长组长6油层浊沸石发育特征、胶结机制及其对物性的影响,采用孔渗分析、薄片鉴定及扫描电镜等分析手段,对长6油层砂岩成岩作用开展了系统研究。结果表明,长6油层发育同生成岩期、早成岩A期和晚成岩A期3期浊沸石。同生成岩期,浊沸石胶结主要受沉积环境和物源影响,长6油层砂岩火成岩碎屑中玻璃质矿物及变质岩屑的水化作用,为早期浊沸石的生成提供了丰富的物质;早成岩A期,斜长石的钠长石化作用为浊沸石胶结提供了重要物质基础;晚成岩A期,胶结与浊沸石过饱和析出有关,所需的Ca^(2+)及SiO_2等来源于早期浊沸石、长石及岩屑颗粒溶蚀等。浊沸石胶结与长6油层物性关系密切,早期浊沸石胶结阻止了碎屑颗粒进一步压实,亦为后期溶蚀形成大量次生孔隙提供条件;晚成岩A期的浊沸石溶蚀,扩大了储集层孔隙空间,同时改善了储集层孔喉结构和连通性。

米仓山构造带下寒武统筇竹寺组砂岩球状风化特征及成因机制

球状风化发育类型广泛,并且与人们的生产生活息息相关,但是人们对球状风化的研究却相对较少。为进一步研究其发育特征和形成机制,笔者通过薄片鉴定、扫描电镜、X--射线衍射、主量及微量元素分析等实验手段对米仓山构造带下寒武统筇竹寺组砂岩球状风化发育特征及成因机制开展了系统研究。研究表明,米仓山构造带下寒武统筇竹寺组砂岩的球状风化除了受构造运动、气候和降雨等因素的影响外,其核心因素是地层岩性、化学风化作用和不同部位的差异风化。风化的形成过程大致可以分为节理的形成以及岩层的分割、核部球体的形成及边部风化壳的剥落3个阶段。

甘泉油田延长组长7致密储层孔喉结构特征及分类评价

为厘定致密砂岩储层孔喉结构特征、建立并完善储层分类评价标准,应用薄片鉴定、铸体薄片、扫描电镜、压汞等测试手段,精细表征了鄂尔多斯盆地甘泉油田三叠系延长组长7致密砂岩储层的岩石学特征、储层物性、储集空间类型及孔喉结构特征,并在此基础上对致密砂岩储层进行了分级分类评价。研究结果表明,甘泉油田长7储层岩性主要为岩屑长石砂岩及长石岩屑砂岩,空气渗透率中值小于1×10^(-3)μm^(2),覆压渗透率中值为0.0554×10^(-3)μm^(2),属典型的致密储层。砂岩储集空间以残余粒间孔、长石溶孔为主,见少量微裂缝。平均面孔率为3.45%,孔喉半径呈宽范围大尺度分布;储层砂岩孔径一般0.23~57.35μm,平均孔径约为22.35μm,主要以小孔为主。喉道半径一般为0.03~3.5μm,平均约为0.35μm。研究区储集层孔喉结构复杂,且非均质性较强,主要为小孔-细喉型,小孔-微细喉型储层,此2类储层孔喉结构对研究区储层物性起到主要贡献。建立了研究区长7致密砂岩储层分类评价标准,将研究区致密砂岩储层划分为5类储层,其中,Ⅱ类及Ⅲ类储层在研究区长7油层广泛发育,是有利的储层类型,次为Ⅰ类及Ⅳ类储层。

Characteristics of the turbidite fan in the Wenchang Formation of the Enping Sag, Pearl River Mouth Basin, China and its hydrocarbon significance

A turbidite fan in the Eocene upper Wenchang Formation in the Enping Sag, Pearl River Mouth Basin （PRMB） has been studied using seismic, logging and borehole data. The fan is characterized by parallel progradation on the dip seismic profile and is mound-shaped or lenticular-shaped on the strike seismic profile. The study of the core and logging data from well EP17-3-1, which is located in the front side of the turbidite fan, shows that this fan is a set of normal grading sand beds, interbedded within thick dark grey mudstones of semi-deep to deep lake deposits in the Wenchang Formation. The fan is interpreted as a sand/mud-rich turbidite fan that has an area of over 140 km2 and a maximum thickness of over 340 m. Combined with a study of the regional geological background and previous provenance analysis of the Eocene Wenchang Formation, the main potential provenances for the turbidite fan are considered to be the Panyu low-uplift and northern fault terrace zone. The Enping Sag is considered to be a half graben-like basin whose north side is faulted and whose south side is overlapped. Basement subsidence in the Eocene was mainly controlled by boundary faults which dip relatively steeply on the north side, causing the subsidence center of the Enping Sag in this stage to be close to the north boundary faults. Sustained faults developed in the Enping Sag during the Eocene caused an increase of the relative height difference between the north and the south uplift zone in the Enping Sag. Affected by the second episode of the Zhuqiong movement （39-36 Ma） in late Eocene, sediments which had accumulated on the Panyu low-uplift zone were triggered and moved toward the subsidence center of the Enping Sag and formed the turbidite fan. The second episode of the Zhuqiong movement is the most important triggering factor for the formation of the turbidite fan in the Wenchang Formation. Seismic attribute characterization shows that the low frequency energy is enhanced and high frequency energy is weakened when seismic waves propagate through the oil-bearing zone in this fan. Amplitude versus offset （AVO） anomalies are observed in the seismic data and abnormally high pressure is encountered. The turbidite fan in the Wenchang Formation has provided important information for sedimentary evolution in deep layers of the Enping Sag and pointed to a new direction for the hydrocarbon exploration in the study area.

鄂尔多斯盆地南部旬邑地区延长组砂岩地球化学特征

通过对鄂尔多斯盆地南部旬邑地区延长组砂岩进行主量元素、微量元素和稀土元素分析,明确了旬邑地区延长组沉积期的沉积环境、源区风化程度以及古气候条件等,进一步探讨了研究区砂岩的源区母岩岩性及构造背景等。微量元素比值及其相关图解表明,鄂尔多斯盆地南部地区延长组沉积时期属于氧化环境,能够反映古气候条件的重要指标均显示旬邑地区延长组沉积期属于典型的干旱型气候。砂岩样品的化学蚀变指数(CIA)值分布于10.93~86.17之间,平均值为45.38,化学风化指数(CIW)值分布于0.42~56.42之间,平均值为10.52,表明研究区砂岩从源区搬运至沉积盆地的过程中经历的风化作用较弱,该结论与A—CN—K三角图解所得出的结论相一致,而且Th—U图解与Sm—Ce图解表明沉积物经历了简单的沉积循环过程。砂岩样品稀土元素球粒陨石标准化模式总体显示轻稀土(LREE)相对富集,重稀土(HREE)相对平坦,铕具有“V”形负异常,铈异常不明显,曲线表现为明显右倾,与UCC和PAAS的分布形态类似,表明旬邑地区延长组砂岩物源来自上地壳酸性母岩区,该结论与F1—F2图解、Cr/V—Y/Ni图解、Th/Co—La/Sc图解、Th/Sc—Zr/Sc图解及La/Yb—ΣREEs图解所得出的结论相一致。La—Th—Sc与Th—Sc—Zr/10图解表明研究区砂岩的源区大地构造背景属于大陆岛弧和活动大陆边缘环境。显著高的Fe、P等元素含量和较高的烧失量显示延长组沉积期富含营养物质,而且干旱炎热的气候条件和风化程度较低的酸性火成岩有利于研究区烃源岩有机质的保存和转化,有利的储层条件和优势储盖组合为研究区发育大型油气田提供了良好的条件。