Influences of burial process on diagenesis and high-quality reservoir development of deep-ultra-deep clastic rocks:A case study of Lower Cretaceous Qingshuihe Formation in southern margin of Junggar Basin,NW China

Taking the Lower Cretaceous Qingshuihe Formation in the southern margin of Junggar Basin as an example,the influences of the burial process in a foreland basin on the diagenesis and the development of high-quality reservoirs of deep and ultra-deep clastic rocks were investigated using thin section,scanning electron microscope,electron probe,stable isotopic composition and fluid inclusion data.The Qingshuihe Formation went through four burial stages of slow shallow burial,tectonic uplift,progressive deep burial and rapid deep burial successively.The stages of slow shallow burial and tectonic uplift not only can alleviate the mechanical compaction of grains,but also can maintain an open diagenetic system in the reservoirs for a long time,which promotes the dissolution of soluble components by meteoric freshwater and inhibits the precipitation of dissolution products in the reservoirs.The late rapid deep burial process contributed to the development of fluid overpressure,which effectively inhibits the destruction of primary pores by compaction and cementation.The fluid overpressure promotes the development of microfractures in the reservoir,which enhances the dissolution effect of organic acids.Based on the quantitative reconstruction of porosity evolution history,it is found that the long-term slow shallow burial and tectonic uplift processes make the greatest contribution to the development of deep-ultra-deep high-quality clastic rock reservoirs,followed by the late rapid deep burial process,and the progressive deep burial process has little contribution.

Major breakthrough of Well Gaotan 1 and exploration prospects of lower assemblage in southern margin of Junggar Basin, NW China

Well Gaotan 1 was tested a high yield oil and gas flow of more than 1 000 m^3 a day in the Cretaceous Qingshuihe Formation,marking a major breakthrough in the lower assemblage of the southern margin of Junggar Basin. The lower assemblage in the southern margin of the Junggar Basin has favorable geological conditions for forming large Petroleum fields, including:(1) Multiple sets of source rocks, of which the Jurassic and Permian are the main source rocks, with a large source kitchen.(2) Multiple sets of effective reservoirs,namely Cretaceous Qingshuihe Formation, Jurassic Toutunhe Formation and the Khalza Formation etc.(3) Regional thick mudstone caprock of Cretaceous Tugulu Group, generally with abnormally high pressure and good sealing ability.(4) Giant structural traps and litho-stratigraphic traps are developed. The northern slope also has the conditions for large-scale litho-stratigraphic traps.(5) Static elements such as source rocks, reservoirs and caprocks are well matched, and the dynamic evolution is suitable for large oil and gas accumulation. The lower assemblage of the southern margin of the Junggar Basin has three favorable exploration directions, the Sikeshu Sag in the west part, the large structures in the middle and eastern part, and the northern slope.

Lithofacies paleogeography restoration and its significance of Jurassic to Lower Cretaceous in southern margin of Junggar Basin,NW China

In view of the difficulties in the study of lithofacies paleogeography and the low reliability of the distribution range of sedimentary sand bodies in the prototype basin caused by less deep drilling, complex seismic imaging and low degree of exploration in the southern margin of Junggar Basin, NW China. A new method based on the source to sink idea was used to restore lithofacies paleogeography and predict glutenite distribution. In the restoration, apatite fission track age was used to define range and uplift time of macro-provenance;the range of provenance area and the migration process of lake shoreline were restored based on the quantitative relationship between gravel diameter and transportation distance, tectonic shortening and other geological parameters;drilling cores and field outcrop sedimentary structures were analyzed, and a series of maps of lithofacies paleogeographic evolution and distribution range of glutenite bodies were compiled. It is concluded that from Early Jurassic to Early Cretaceous, in the southern margin of Junggar Basin, the provenance area gradually expanded from south to north, the lake basin expanded, shrunk and expanded, and the paleoclimate changed from humid to drought to humid. The western section always had proximal fan delta deposits from the southern ancient Tianshan provenance developed, and in the middle and eastern sections, the provenance areas evolved from far source to near source, mainly river-delta, braided delta, fan delta and other sediments developed. The boundary between provenance areas of the western and middle sections is speculated to be Hongche fault zone. In an angle open to the northwest with the current basin edge line, the restored ancient lake shoreline controlled the heterogeneity of reservoirs in the delta plain belt and delta front belt on its both sides. The ancient lake shoreline, current stratigraphic denudation line and current basin margin line limit the types and scope of favorable reservoirs.This understanding provides an important geological basis for oil and gas exploration in the deep lower source-reservoir assemblage at the southern margin of Junggar Basin.

Formation conditions and exploration direction of large and medium gas reservoirs in the Junggar Basin, NW China

The Junggar Basin is rich in oil but lacks natural gas, which is inconsistent with its geological background of natural gas. Based on the analysis of main source kitchens, and the evaluation of geological setting and controlling factors of gas accumulation, it is proposed that three significant fields for gas exploration should be emphasized. The first field is the Carboniferous volcanic rocks. The Carboniferous residual sags and large-scale reservoirs were developed in three active continental margins, i.e., the southeastern, northeastern and northwestern active continental margins. Gas accumulation is controlled by the favorable reservoir-caprock combinations composed of volcanic rocks and their superimposed lacustrine mudstones in the Upper Wuerhe Formation. Dinan, Eastern and Zhongguai uplifts are three favorable directions for natural gas exploration. The second field is the Lower combinations in the southern margin of Junggar Basin. Rows of structural traps were developed in this area with ideal preservation conditions and space-time configuration for trap-source combinations. Sets of clastic reservoirs and overpressured mudstones formed perfect reservoir-caprock combinations which are the main exploration direction for Jurassic coal-type gas reservoirs in this area. The seven large structural traps in the middle-east section are recently the most significant targets. The last field is the Central Depression. Large hydrocarbon generating centers, i.e., Mahu, Fukang and Shawan sags, were developed in this area, their source rocks were deeply buried and at highly-mature stage. Thus the Central Depression is a favorable exploration direction for Permian high-over mature gas fields(reservoirs). Great attentions should be paid to two types of targets, the deeply–buried structures and structural-lithologic traps. Based on three main gas systems, gas exploration is suggested be strengthened within three fields and on three levels.

埋藏过程对深层-超深层碎屑岩成岩作用及优质储层发育的影响——以准噶尔盆地南缘下白垩统清水河组为例

以准噶尔盆地南缘下白垩统清水河组为例,综合利用岩石薄片、扫描电镜、电子探针、稳定同位素组成及流体包裹体等技术手段,开展前陆盆地埋藏过程对深层—超深层碎屑岩成岩作用及优质储层发育影响的研究。研究表明,清水河组依次经历了“缓慢浅埋”、“构造抬升”、“渐进深埋”与“快速深埋”4个埋藏阶段。“缓慢浅埋”与“构造抬升”不仅能够缓解储层颗粒间的机械压实作用,还有利于长期保持开放型的成岩体系;既能够促进大气淡水对储层易溶组分的充分溶解,还能够抑制溶蚀产物的沉淀。晚期“快速深埋”过程促成流体超压的发育,一方面有效地抑制压实、胶结作用对原生孔隙的破坏,另一方面也促进储层微裂缝的大量发育,提高了晚期有机酸充注产生的溶蚀效果。基于孔隙度演化史的定量恢复,证实长期“缓慢浅埋”与“构造抬升”过程对深层—超深层优质碎屑岩储层发育的贡献最大,其次为晚期“快速深埋”过程,“渐进深埋”过程则几乎没有贡献。

准噶尔盆地南缘高探1井重大发现及下组合勘探前景展望

高探1井于白垩系清水河组测试获日产千方高产油气流,准噶尔盆地南缘下组合勘探取得重大发现。准噶尔盆地南缘下组合具备形成大油气田的有利成藏条件,主要表现在:①发育多套烃源岩,其中侏罗系、二叠系为主力烃源岩,烃源灶规模大;②发育白垩系清水河组、侏罗系头屯河组和喀拉扎组等多套规模有效储集层;③发育白垩系吐谷鲁群区域性巨厚泥岩盖层,普遍发育异常高压,具备良好封盖能力;④发育成排成带分布的大型背斜构造,北部斜坡区还具有形成大型地层岩性圈闭的条件,为形成大油气田提供了良好圈闭条件;⑤烃源岩、储集层、盖层等静态要素匹配良好,动态演化有利于油气规模聚集。准噶尔盆地南缘下组合具有西段四棵树凹陷、中段和东段大构造、北部斜坡等3个有利勘探方向。

准噶尔盆地南缘下组合成藏条件与大油气田勘探前景

准噶尔盆地是一个油气资源丰富的叠合含油气盆地,该盆地南缘下部成藏组合贴近准南主要烃源层———中下侏罗统煤系地层,宽缓大中型构造圈闭多,上侏罗统—下白垩统深部规模有效储集层发育,下白垩统吐谷鲁群厚层湖相泥岩及三叠系、中下侏罗统各层组内部湖湘泥岩盖层条件好。研究结果表明:该区圈闭与规模有效储集层空间发育匹配;圈闭形成时间与主生排烃期时间匹配;白垩系吐谷鲁群区域盖层与中上侏罗统储盖组合匹配,油气资源量大、发现程度低。结论认为:该区具备大油气田成藏条件,具有良好的勘探前景。

羌塘南缘多龙矿集区荣那斑岩-高硫型浅成低温热液Cu-(Au)套合成矿：综合地质、热液蚀变及金属矿物组合证据

位于羌塘南缘多龙矿集区内的荣那斑岩-高硫型浅成低温热液Cu-(Au)矿床系近年来中铝西藏与西藏地质五队合作勘查取得重大找矿突破的铜矿床,控制资源量已达超大型规模,但对该矿床的成因类型仍存在争议。本文根据详细的钻孔岩芯、结合光学显微镜、扫描电镜观察、硫化物的电子探针分析,认为该矿床成矿与早白垩世花岗闪长斑岩有关。矿体主要产于下中侏罗统色哇组长石石英砂岩和成矿斑岩体中,矿体呈东西走向、南倾的隐伏状,延深巨大,金属矿化以铜为主,伴有金、银矿化,偶见钼矿化。热液蚀变具有两阶段蚀变:与斑岩型矿化有关的黑云母化、角岩化、硅化-绢云母化及硅化-伊利石-绿泥石化以上部叠加的高级泥化,蚀变分带明显。相应的该矿床具有斑岩型细脉浸染状矿化和以硫砷铜矿为特征的高硫型矿化,含铜矿物主要分为4个带,大致与蚀变分带相对应,下部主要为斑铜矿-黄铜矿;过渡带以斑铜矿-铜蓝组合为特征;中上部为蓝辉铜矿-砷黝铜矿-硫砷铜矿组合;顶部主要由为辉铜矿-蓝辉铜矿组成。总体上,矿床中上部为Cu-S体系、向下转变Cu-Fe-S体系。与其它类似矿床相比,该矿床硫化物中以富Zn、贫金为特征。综上认为该矿床为斑岩-高硫型浅成低温热液Cu-(Au)套合成矿的典型实例,其勘查突破为羌塘南缘火山岩区及覆盖区的找矿打开了一扇窗口。

四川盆地南缘下志留统龙马溪组页岩气储层矿物成分特征及意义

运用X射线衍射技术,对四川盆地南缘长宁—兴文地区下志留统龙马溪组39个露头泥岩/页岩样品进行了定性和定量分析。结果表明,龙马溪组泥岩/页岩矿物成分以黏土矿物和石英为主,平均含量分别为53.39%和29.15%;其次为方解石,平均含量为5.46%;另外,还含有少量的长石、白云石、石膏、黄铁矿等矿物。龙马溪组为浅海陆棚沉积,对有机质的富集和保存有利,为页岩气藏的形成提供了良好的沉积条件;黏土矿物组合特征反映出龙马溪组已经历晚成岩阶段,对应有机质演化的成熟—高成熟阶段,具有适宜页岩气形成的成熟度条件。黏土矿物对页岩气藏的形成和开发有一定积极意义,龙马溪组底部厚度约为30m的地层,伊利石和绿泥石含量低、相应孔隙率高且脆性矿物石英含量大于50%,是理想的页岩气重点勘探开发层位。页岩气储层矿物成分研究为其吸附储存、裂缝评价、渗流运移、压裂造缝和工艺性能等的研究提供了坚实的基础。

准噶尔盆地南缘侏罗系-下白垩统岩相古地理恢复与意义

针对准噶尔盆地南缘深层钻井少、地震成像复杂、勘探程度低而导致的原型盆地岩相古地理研究困难、沉积砂体展布范围可信度低的问题,基于源-汇思想,使用新方法开展岩相古地理恢复与砂砾岩体分布预测研究,应用磷灰石裂变径迹年龄确定宏观物源区范围与隆升时间;依据砾石径与搬运距离定量关系、构造缩短量等地质参数,恢复物源区范围、湖岸线迁移过程;开展钻井岩心与野外露头沉积构造等分析,编制岩相古地理演化与砂砾岩体分布范围系列图件。早侏罗世—早白垩世,准噶尔盆地南缘物源区范围由南向北逐步扩大,湖盆经历扩张—萎缩—扩张、古气候经历潮湿—干旱—潮湿的演化过程。西段一直发育来自南部古天山物源的近源扇三角洲沉积,中段与东段物源区具有由远源到近源的演化特征,主要发育河流—三角洲、辫状河三角洲、扇三角洲等沉积;西段与中段物源区的分界线推测为红车断裂带。恢复出的古湖岸线与现今盆地边缘线呈向西北敞开的夹角,控制了其两侧三角洲平原相带与前缘相带储集体的非均质性,湖岸线与现今地层剥蚀线、盆地边缘线限定了有利储集体的类型与范围。该认识可为准噶尔盆地南缘深层下组合油气勘探提供地质参数依据。

准噶尔盆地大中型气田(藏)形成条件与勘探方向

准噶尔盆地现有勘探结果呈现出'油多气少'的特点,与天然气地质条件不匹配。基于主力气源灶分析、天然气地质条件与控藏要素评价,认为准噶尔盆地具备大中型气田(藏)形成基本条件,未来天然气勘探应关注3大重点领域与勘探方向:①石炭系火山岩,东北、东南和西北3大活动陆缘均发育石炭系残余生烃凹陷和规模火山岩储集层,火山岩储集层与上乌尔禾组湖泛泥岩配置形成优质储盖组合,控制天然气聚集,存在滴南凸起带、东部隆起带和中拐凸起带3大有利勘探方向;②南缘下组合发育成排成带的构造圈闭,保存完整,圈源时空配置好,多套有效碎屑岩储集层与超压泥岩盖层配置形成有利储盖组合,是侏罗系大中型煤型气田(藏)勘探有利方向,南缘中东段7大构造圈闭是近期探索的重点目标;③中央坳陷带发育玛湖、沙湾和阜康等大型生烃凹陷,烃源岩埋深大,热演化程度高,是寻找二叠系高—过成熟天然气田(藏)的有利方向,存在深大构造和大型构造-岩性两类勘探目标。建议立足3大含气系统,围绕3大重点领域,按3个层次加快盆地天然气勘探步伐。

准噶尔盆地南缘中下侏罗统煤系烃源岩生气史

利用化学动力学方法,以西山窑组煤成气为例,模拟计算了准噶尔盆地南缘地区中下侏罗统煤系烃源岩的生气过程。结果表明,该区中下侏罗统煤系地层主要生气期为燕山运动期,约占最终生气量的80%,并以白垩纪为主。因此,对应绝大部分天然气的生成,燕山运动形成第一排背斜圈闭对该中下侏罗统煤成气成藏意义重大。而喜马拉雅运动则最终决定该区天然气的成藏条件:一方面对第一排背斜圈闭的构造调整(包括油气在原生油气藏中的继续保存和向次生油气藏的转移)在很大程度上决定了该区天然气的资源前景;另一方面所形成的第二、第三排背斜圈闭可聚集烃源岩晚期热解及原油二次裂解所生天然气。

伊犁盆地阔斯加尔地区西山窑组下段岩性岩相特征及与铀成矿关系

研究伊犁盆地阔斯加尔地区含铀层系西山窑组下段的岩性岩相特征,总结其与铀成矿的关系,为该区下一步铀矿地质勘查提供理论依据。根据研究区西山窑组下段岩性特征、二维连井剖面特征、砂体发育特征、岩相平面结构展布特征,结合整个盆地南缘的沉积地质背景,阔斯加尔地区主要赋矿层位中侏罗统西山窑组下段下亚段主要为扇三角洲前缘沉积,并发育有朝北和北东方向展布的水下分流河道以及河道间的水下分流间湾等沉积微相。通过对研究区目的层段岩性岩相与铀成矿关系的研究,阔斯加尔地区西山窑组下段赋存的铀矿体主要受分流河道砂体展布方向、分流河道砂体厚度、沉积作用的水动力、沉积微相的形态或突变,以及沉积期后的构造演化等因素的控制。

准噶尔盆地南缘下组合复杂构造地震成像技术效果

准噶尔盆地南缘地形复杂,低降速带变化大,地下构造高陡,断裂发育,波场极其复杂,地震成像困难,制约了南缘油气勘探的进程。近几年随着物探技术的进步和对复杂地震勘探攻关力度的加大,地震成像品质有了明显的提高。改进地震资料采集技术,改善观测方式,优化采集参数,得到了高陡构造的反射信息;物探成像新技术的发展,采集、处理、解释一体化工作模式的建立以及定量化的过程质量控制,建立了更为准确的近地表模型。基于断层相关褶皱的构造建模指导偏移速度场的建立,利用声波测井、VSP速度资料的综合标定,使原本难以成像的断褶带、掩伏带构造地震波场聚焦,得到良好的成像效果。

准噶尔盆地南缘油气成藏组合特征及分布规律

根据生、储、盖的基本特征,准噶尔盆地南缘主要划分为下部、中部和上部3类油气成藏组合,以及由该3类油气成藏组合派生的下部—中部和中部—上部油气成藏组合,各个油气成藏组合具有不同的油气成藏特征。由于构造运动的影响,准噶尔盆地南缘的沉积中心自东向西发生迁移,南、北出现构造分带,由东向西,由南向北地层、沉积产生差异,生、储、盖的发育也出现差异,从而导致下部油气成藏组合主要分布在南缘东段和中段及西段南部靠近山前的地带,即靠近山前的第一排构造带,而中部和上部油气成藏组合则主要分布在南缘中段和西段北部的第二排、第三排构造带。其中,南缘中段主要分布中部和中部—上部油气成藏组合,而西段则主要分布上部和中部—下部油气成藏组合。

鄂尔多斯盆地南缘下寒武统地层划分及沉积演化特征

为研究鄂尔多斯盆地南缘下寒武统的地层发育特征与沉积演化规律,开展了大地构造背景分析、地层对比和岩相古地理研究。结果表明:①鄂尔多斯盆地南缘辛集组之下发育东坡组和罗圈组地层,为主要烃源岩系,可归属到下寒武统,TOC 质量分数为 0.19%~11.18%,平均为 3.14%,为寒武系最优质的烃源岩。②整个华北地区在早寒武世早期发生海侵,沉积了一套海进地层,鄂尔多斯盆地南缘经历了深水海湾沉积、海岸沉积和碳酸盐岩缓坡沉积过程。③鄂尔多斯盆地南缘寒武系沉积厚度为 500~1 300 m,局部可达 1 500 m 以上,其中张夏组鲕粒滩分布广泛,发育溶孔和晶间孔,为相对优质的储集体,与东坡组和罗圈组构成了良好的源储组合。该研究成果对鄂尔多斯盆地寒武系油气勘探具有重要意义。

塔里木盆地塔中隆起南坡油气勘探领域

通过分析塔里木盆地塔中南坡中下寒武统地震相特点,结合台盆区主要钻井中下寒武统沉积相与TOC的关系,认为塔中南坡中下寒武统沉积相与塔里木盆地中央隆起相同,主要发育蒸发台地膏盐(泥)坪—局限台地云坪相沉积,生烃潜力比满加尔斜坡盆地相深水欠补偿沉积的深灰—黑色泥(页)岩差。解剖塔中隆起主要油气藏成藏富集特点,分析南坡潜山领域近20口钻井未获油气突破的原因,提出隆起上断裂带具有控储控藏控富特点。NW与NE向断裂的交会区、塔中Ⅰ号“Y”形断裂带内、靠近NE走滑断裂(<1km)和通源断裂断距大(T18)及NE走滑断裂的断堑—张扭破碎带为塔中隆起奥陶系油气富集场所;塔中南坡潜山勘探领域应由潜山圈闭高部位向靠近主断层的白云岩潜山圈闭高部位转变;近油源、通源断裂发育、储盖组合好的大型背斜构造圈闭的高部位是寒武系盐下油气成藏富集有利区。

南天山南缘下二叠统玄武质岩浆的地球化学特征及其构造意义

南天山造山带南缘发育大量的下二叠统火山岩。地球化学指标显示南天山南缘西段拜城县宿相厄肯沟出露的下二叠统小提坎立克组玄武岩为拉斑玄武岩(里特曼指数δ=2.93)。该套岩石低FeO^T、MgO和全碱(Na_2O+K_2O),高CaO和Al_2O_3,相对高钠,低钾;Rb、K、U和Ba等大离子亲石元素富集;稀土配分曲线整体协调一致,为向右缓倾的曲线,轻稀土元素(LREE)相对富集;微量元素配分型式呈"驼峰状";玄武岩的母岩浆经历了以单斜辉石为主的分离结晶作用和强烈的陆壳混染作用。同位素组成^(143)Nd/^(144)Nd=0.512 849±0.000 005,^(87)Sr/^(86)Sr=0.706 845±0.000 014;-10<εNd(t)<0,且ε_(Sr)(t)>0,模式年龄T_(DM)为1.463 279765 Ga。结合区域地质资料表明,小提坎立克组玄武岩形成于板内伸展环境,具有主动裂谷作用性质,说明南天山造山带南缘当时处于碰撞后伸展背景。

呼探1井井口压力波动特征及成因机理

呼探1井是准噶尔盆地南缘中段首口获得天然气勘探重大发现的超深层异常高压气井,该井在试采时井口压力出现大幅波动,无法有效确定储集层参数及开展合理产能评价。因此,基于颗粒架桥堵塞原理,利用气藏动态分析法,表征了裂缝中颗粒循环堵塞—解堵变化趋势;同时,建立呼探1井双重介质渗流机理模型,开展压力波动特征分析及成因机理研究。研究表明,裂缝中颗粒循环堵塞—解堵是造成压力大幅波动的主要原因,一方面,随着裂缝中颗粒不断运移解堵,压力波动幅度逐渐减小,表皮系数逐渐减小,采气能力趋于稳定;另一方面,在裂缝循环堵塞—解堵的过程中,裂缝开度越大,压力波动幅度越大,同一裂缝开度下,近端裂缝堵塞—解堵,导致压力波动幅度较大,远端则相反。不仅为准噶尔盆地南缘中段储集层特征研究、井位部署、产能评价提供依据,而且为超深层异常高压气井压力分析提供借鉴。

中扬子区东南缘下组合天然气勘探潜力分析

中扬子区东南缘震旦纪-早奥陶世处于被动大陆边缘坡折带附近,各种相带频繁交替,生储盖组合配置良好。印支期以来受SN向褶皱造山的影响,后期改造强烈,东部的崇阳-通山地区发育自南向北的逆冲推覆构造,西部桑植-石门地区构造变形较弱,以宽缓的复向斜为主。根据原型盆地分析及基本石油地质条件初步评价,认为桑植-石门复向斜的中部弱变形区及崇阳-通山推覆构造的下盘弱变形区(原地体)是较为有利的勘探区带,桥头、中湖等局部构造是有利的勘探目标。