Mixed carbonate rocks lithofacies features and reservoirs controlling mechanisms in a saline lacustrine basin in Yingxi area,Qaidam Basin,NW China

Taking the mixed pre-salt carbonate rocks in the upper member of Eocene Xiaganchaigou Formation(E_(3)^(2))of Yingxi area in the Qaidam Basin as an example,the lithofacies and controlling mechanisms of reservoir formation are analyzed based on a large dataset of cores,thin sections and geochemical analysis.The reservoirs in E_(3)^(2)pre-salt layers have five types of lithofacies,of them,mixed granular calcareous dolostone,massive calcareous dolostone,plaque calcareous dolostone,and laminated dolomtic limestone are of sedimentary origin,and breccia calcareous dolostone is of tectonic origin.The four types of sedimentary lithofacies are divided into two types of saline sedimentary sequence lithofacies combinations,low-energy type in the sag area and low to high-energy type in the slope and paleo-uplift zone in the depression.Affected by high-frequency supply of continental clastic material,the two types of salty sedimentary sequences are mostly incomplete subtypes of lithofacies.Lithofacies have strong impacts on pre-salt reservoirs in E_(3)^(2):(1)Lithofacies type and sedimentary sequence controlled the formation and distribution of dolomite intercrystalline pores and dissolved pores during the pene-sedimentary period.(2)The structure of laminated dolomitic limestone controlled the formation of large-scale laminated fractures and high permeability channels during the diagenetic period.(3)Granular,massive,plaque calcareous dolostones have low mud content and strong brittleness,in the late tectonic reactivation period,the distribution of the three types of lithofacies,together with their distance from the top large slip faults and secondary faults,controlled the formation and distribution of high-efficiency fracture-cave brecciaed calcareous dolostone reservoirs.The above research led to the composite lithofacies-tectonic formation model of pre-salt reservoir in E_(3)^(2)of Yingxi area.The tempo-spatial distribution of tectonic breccia calcareous dolostone reservoirs,laminated dolomitic limestone shale oil reservoirs and granular,massive calcareous dolostone dissolved-intercrystalline pore tight reservoirs in various structural belts of the studied area have been figured out.These findings gave new insights into tight-shale oil accumulation theory in mixed carbonate successions from saline lacustrine basins,aiding in high efficient exploration and development of petroleum in the studied area.

Identification of the Quaternary low gas-saturation reservoirs in the Sanhu area of the Qaidam Basin,China

Low gas-saturation reservoirs are gas bearing intervals whose gas saturation is less than 47%. They are common in the Quaternary of the Sanhu area in the Qaidam Basin.Due to the complex genesis mechanisms and special geological characteristics,the logging curves of low gas-saturation reservoirs are characterized by ambiguity and diversity,namely without significant log response characteristics. Therefore,it is particularly difficult to identify the low gas-saturation reservoirs in the study area.In addition,the traditional methods such as using the relations among lithology,electrical property,physical property and gas bearing property,as well as their threshold values,can not effectively identify low gas-saturation reservoirs.To solve this problem,we adopt the decision tree,support vector machine and rough set methods to establish a predictive model of low gas-saturation reservoirs,which is capable of classifying a mass of multi-dimensional and fuzzy data.According to the transparency of learning processes and the understandability of learning results,the predictive model was also revised by absorbing the actual reservoir characteristics.Practical applications indicate that the predictive model is effective in identifying low gas-saturation reservoirs in the study area.

Genesis of lacustrine carbonate breccia and its significance for hydrocarbon exploration in Yingxi region, Qaidam Basin, NW China

To examine the reservoir type and distribution regularity of high-and stable-yield lacustrine carbonates in the upper Member of Paleogene Xiaganchaigou Formation of Yingxi region and to determine the high-efficiency hydrocarbon exploration direction, the origin and significance of carbonate breccia in this area were investigated based on comprehensive analysis of a large number of well cores, thin sections, rock and mineral testing and log-seismic data. The study reveals that the carbonate breccia has three origins:(1) Sedimentary breccia, formed by the event-related collapse, fragmentation and re-deposition of the early weakly consolidated carbonate rock in the steep slope of underwater paleohighs due to short-term high-energy water body reformation and other geological processes.(2) Diagenetic breccia, with breccia-like structure, formed by deformation or breaking of host rock due to growth of idiomorphic and coarse crystalline gypsum-salt minerals in the weakly consolidated argillaceous carbonate rock of the penecontemporaneous period.(3) Tectonic breccia, can be further divided into fault breccia and interlayer slip breccia according to their occurrence characteristics, both of which are closely related to activity of the Shizigou thrust Fault. With a large number of partially filled pores, vugs and fractures between breccia, the two types of tectonic breccia are high-and stable-yield reservoirs in deep Yingxi region, and may occur extensively under gypsum-salt detachment layers of adjacent areas, so they are the exploration targets in the next step. Sedimentary breccia and diagenetic breccia are of great significance in searching for large-scale carbonate reservoirs.

Characteristics of parametamorphic rock reservoirs in Pingxi area, Qaidam Basin, NW China

Based on core, thin-section, scanning electron microscopy(SEM) and well logging data, the characteristics of the parametamorphic rock reservoirs in the Pingxi area were analyzed by means of whole rock X-ray diffraction and micron CT scanning. The parametamorphic rock reservoirs mainly had three types of rocks: slate, crystalline limestone and calc-schist; the original rocks were Ordovician-Silurian marine clastic and carbonate rocks. The three types of parametamorphic rock reservoirs developed three types and six sub-types of reservoir space. The first type of reservoir space was fractures, including structural, weathered and dissolution fractures; the second type was dissolved porosities, including dissolved pores and caves; the third type was nano-sized intercrystalline porosities. The three types of parametamorphic rock reservoirs were different widely in the quantity, volume and radius of pore-throats, and were strongly affected by the type and development degree of fractures. The parametamorphic rock reservoirs were formed by metamorphism, weathering, structural fragmentation and dissolution. Metamorphism reformed the parametamorphic rock reservoirs significantly, breaking the traditional constraint of finding weathering crust at top. The parametamorphic rock reservoirs experienced five formation stages, and their distribution was controlled by rock type, metamorphic degree, ancient geomorphology, and weathering intensity.

Characteristics and genesis of clay minerals in the northern margin of the Qaidam Basin

In order to develop appropriate reservoir protection measures in the northern margin of the Qaidam Basin and improve its oil and gas recovery efficiency,characteristics of clay minerals from eleven clay rock samples from the northern margin of the Qaidam Basin were investigated using X-ray diffraction analysis,the Scanning Electron Microscope（SEM）and energy spectrum analysis.Clay mineral composition and distribution characteristics of the main hydrocarbon reservoirs,i.e.,from the Jurassic and Paleogene-Neogene,were explored.We analyzed the main factors which affected these attributes.The results show that the major clay minerals in the northern margin are chlorite,kaolinite,illite,smectite and illite/smectite inter-stratified minerals.Illite is the most widely spread clay mineral in this area. Chlorite is mainly found in the entire Neogene and in shallow horizons of the Paleogene.Smectite is enriched in the shallow Paleogene-Neogene.There are large amounts of kaolinite and illite/smectite inter-stratified minerals in the Jurassic.The major factors affecting the different development of clay minerals in the region are properties of parent rocks,paleoclimate and paleowater media conditions, diagenesis transformation,tectonic and terrain conditions.

Reservoir formation conditions and key exploration & development technoloiges in the Yingdong Oilfield in western Qaidam Basin

Located in east part of Yingxiongling structural belt in the Qaidam Basin,the Yingdong oilfield has a extremely complicated ground condition.Due to no significant discovery,this oilfield was considered to have no favorable geologic conditions for formation of oil or gas reservoir.In the past few years,with continuous improvement in the mountain 3D seismic surveys and logging data interpretation,some breakthroughs were obtained in 2010,and the Yingdong oilfield,the largest-scale reserves of a single reservoir with highest organic matter abundance,most favorable physical property and optimal development efficiencies in the Qaidam Basin,had been discovered,the production capacity was up to 0.55×10^(6) t.Through detailed analyses of the Yingdong oilfield,some studies,such as hydrocarbon accumulation conditions and technical challenges,are carried out,and following conclusions can be achieved.The Yingxiongling area is located in Mangya hydrocarbon-generation sag in the west part of the Qaidam Basin,its oil sources are rich;the Neogene Xiayoushashan Formation and Shangyoushashan Formation are dominated by wide and gentle delta frontdshore-shallow lacustrine sediments with interbeds of sandstone and mudstone,the sandbodies are widely distributed with favorable physical condition,and the mudstone is the key caprock,combined with high-quality Paleogene hydrocarbon source rocks,a complete source-reservoir-cap assemblage can be formed.Large-scale detachment faults of the Yingdong area connect high-quality Paleogene hydrocarbon source rocks with middle-shallow buried structural traps,thus,reservoirs formed in the early stage are modified,and at the same time,hydrocarbons formed in the later stage continue to migrate and accumulate;in this way,the deep and shallow faults form a relay-style hydrocarbon transport system,and hydrocarbons are accumulated in the shallow structural traps in the later stage;in this area,the middle-shallow faults have good lateral plugging performance which is favorable for preservation of oil and gas.For complex landforms and reservoir features in the Yingdong area,the integral 3D seismic acquisition,processing and interpretation technology is developed for complex mountain areas to provide a reliable foundation for hydrocarbon exploration.For some problems in the Yingdong oilfield like long oil/gas-bearing intervals,great diffi-culty in identification of fluids,the development mode of multiple oil/gas/water systems in the long intervals is established,and the geologic modeling technology with constraint of multiple conditions on complex fault blocks is also developed.Thus,hydrocarbon accumulation mechanism in the Yingdong oilfield is clear,and some complex key technology of engineering are well solved,providing necessary geologic theories and technical supports for high-efficiency development and rapid production construction in the Yingdong oilfield.

Assessment of Groundwater Source of Piedmont Plain Area of China Northwest Arid Region Based On Numerical Modeling

After the middle of 1960s,along with the appearance and extensive utilization of computer featured in large capacity and rapid speed,numerical method(mainly include finite difference method and finite element

Tectonic analysis and petroleum significance of Cenozoic faults in Dongping-Niuzhong area in Altyn slope

The evolution process and petroleum significance of two groups of fault structures,the NW-SE trending and near EW trending ones in the Cenozoic of Dongping-Niuzhong area of the Altyn slope,Qaidam Basin,were investigated using high precision 3-D seismic data.The NW-SE faults were generated in Oligocene,causing the formation of a series of folds related to transpression faults in the Niuzhong and Dongping area.After the Miocene,with the continuous extension of the Altyn Tagh strike-slip fault zone,the EW trending faults began to develop massively in Altyn slope.The activity of near EW trending faults and large-scale uplift of the bedrock in the northern Niuzhong area shared most of the compression torsion in Niuzhong and Dongping area,consequently,the activity of NW-SE trending faults weakened significantly after the Miocene.Then good hydrocarbon source rocks developed in the inherited Jurassic sags.The faults were effective pathways for oil and gas migration in Dongping and Niuzhong areas,and the oil and gas charging time matched well with the formation period of the NW-SE trending faults and their related structures,making the fault-related anticlines favorable targets for oil and gas accumulation.The Niuzhong area has been less affected by the Cenozoic movement after the Miocene,and thus has better conditions for gas reservoir preservation.

柴达木盆地南八仙地区渐新世浅水三角洲物源及沉积演化

以古近系渐新统下干柴沟组上段(E23)为研究对象,在精细岩芯观察和钻(测)井资料综合分析的基础上,结合重矿物组合、ZTR指数、砂岩碎屑组分、粒度累积概率图和砂地比等参数综合分析结果,对柴达木盆地南八仙地区E23湖盆扩张期弱退积型浅水三角洲物源方向、砂体展布规律和沉积微相发育演化进行了深入研究。结果表明:①南八仙地区E23沉积时期物源主要来自南祁连山中酸性岩浆岩和中高级变质岩发育区,物源方向为近北东—南西向,稳定重矿物(磁铁矿、石榴子石、白钛矿和锆石)含量高(质量分数介于81.0%~99.9%)、不稳定重矿物(绿帘石和角闪石)含量低。②南八仙地区E23沉积时期为浅水三角洲—滨浅湖沉积环境,主要发育水下分流河道砂体,岩性主要为岩屑长石砂岩,其次为长石岩屑砂岩,砂体的成分成熟度一般中等—较差、分选磨圆度中等—较差,粒度概率图以反映河流作用的一跳跃一悬浮式为主;沉积构造类型多样,主要发育块状层理、正粒序层理、平行层理和槽状交错层理。③E23沉积时期,南八仙地区继承性发育3条北东—南西向呈条带状展布的砂体富集带(砂地比值介于35%~65%之间),早期到中期砂体发育程度增强,呈进积式;中期到晚期砂体发育程度有所减弱,呈弱退积式。④E23沉积时期,南八仙地区处于浅水三角洲前缘亚相沉积环境,持续发育3个呈北东—南西向展布的沉积朵叶体,主要发育水下分流河道微相,其次为水下分流间湾微相,早期到中期浅水三角洲前缘发育规模增大,中期到晚期发育规模减小。

原油中C_(19-49)长链三环萜烷系列及其地球化学意义——以柴达木盆地西部英西地区原油为例

【目的】为了确定柴达木盆地西部英西地区古近系深部储层(E)原油的热演化程度和成因类型,【方法】利用色谱—质谱(GC-MS)和色谱—质谱—质谱(GC-MS-MS)技术,对其中的各类生物标志物、烷基菲和金刚烷类化合物的分布与组成特征进行了系统分析。【结果与讨论】分析结果表明该地区原油中正构烷烃系列均具有明显的偶碳优势,Pr/Ph比值低(<0.60),Ph/nC_(18)比值高(>1.30),伽马蜡烷含量高,伽马蜡烷指数介于0.90~1.36,属于典型咸水湖相原油,这与研究区古近纪的沉积特征一致。但依据不同原油中长链三环萜烷系列的分布与组成特征,可将他们分成两类:一类原油中C_(19-49)长链三环萜烷系列异常丰富,C_(19-30)TT/C_(27-35)H比值大于1.60,C_(23)TT/C_(30)H>1.40,并伴随有高甾藿比(>4.50)和高β-胡萝烷/nC_(37)比值(>3.20),表明藻类是其主要原始生烃母质;另一类原油中C_(19-30)长链三环萜烷系列含量中等,C_(19-30)TT/C_(27-35)H比值小于0.50,C_(23)TT/C_(30)H<0.55,其甾藿比相对较低(<2.0)、β-胡萝卜烷含量中等,β-胡萝烷/nC_(37)比值小于1.50,可见此类原油中藻类的贡献明显低于前一类原油。对比它们的甾、萜烷和金刚烷类化合物成熟度参数,发现这两组原油的成熟度相近,其对应的R_(o)值介于1.1%~1.3%,即它们形成于生油高峰之后、凝析油气形成以前这一演化阶段。【结论】影响研究区原油中长链三环萜烷系列相对丰度的主要因素是原始生烃母质,而非成熟度,因而它在研究区具有指示原油成因类型的作用,在后续油气勘探中应重点关注。

柴达木盆地三湖地区第四系七个泉组物源研究

为了深入评价柴达木盆地东部三湖地区第四系七个泉组天然气勘探潜力以及预测有利岩性气藏勘探区带和目标,文中通过重矿物组合、ZTR指数、重矿物稳定系数以及砂岩碎屑组分等参数,系统分析了该地区七个泉组的物源组成,确定物源方向并恢复母岩类型。研究表明:(1)七个泉组沉积时期,三湖地区重矿物稳定系数和ZTR指数均由柴达木盆地边缘向盆地中央方向增大,大致呈环带状展布,不同物源区主要重矿物组合差异显著,不稳定重矿物含量变化明显。(2)格尔木物源主要流动方向为北偏西方向,向北影响涩北地区的南部;乌图美仁物源规模小于格尔木物源,主要流动方向为北东方向,向北东影响台南地区的西南部和涩南3井区。(3)锡铁山—埃姆尼克山物源和绿梁山物源规模均较小,其中前者影响范围向南达察尔汗地区,而后者向南影响伊克雅乌汝北部和驼峰山地区。(4)台南—涩北地区主要为乌图美仁物源和格尔木物源的共同影响区。该研究首次明确了柴达木盆地三湖地区物源由乌图美仁物源和格尔木物源组成的昆仑山缓坡物源体系、由锡铁山—埃姆尼克山物源和绿梁山物源组成的祁连山陡坡物源体系以及盆地内部台南—涩北地区混合物源体系组成,可为该地区天然气勘探开发提供指导作用。

柴达木盆地马海东地区古近系砂岩储层微观孔隙结构特征及微观致密区成因

柴达木盆地北缘马海东地区古近系的油气勘探已经取得发现,但储层微观孔隙结构特征认识不清是影响油气勘探与开发的主要因素之一。为揭示马海东地区古近系砂岩储层微观特征,综合运用岩石薄片显微镜观察、X射线衍射(XRD)分析和压汞测试等试验技术,开展了低渗透砂岩储层的岩石学特征、物性特征、微观孔隙结构及各储层非均质性对比研究,用变异系数定量表征了储层非均质强弱程度。研究结果表明:①古近系砂岩储层以长石岩屑砂岩为主,填隙物主要为方解石。②路乐河组Ⅰ砂组储层孔隙度较大,下干柴沟组Ⅱ砂组储层孔隙度中等,路乐河组Ⅱ砂组储层孔隙度最小。③储层岩石经历了压实、胶结和溶蚀成岩作用,路乐河组Ⅱ砂组储层非均质性最强,路乐河组Ⅰ砂组储层非均质性最弱,下干柴沟组Ⅱ砂组储层非均质性介于两者之间。④富塑性岩屑纹层或富杂基的低渗砂岩为致密储层,方解石胶结和塑性黏土质岩屑变形是致密储层形成的重要原因。

柴达木盆地西部干柴沟区块下干柴沟组上段页岩油储层特征及勘探潜力

柴达木盆地西部干柴沟区块C902井在古近系下干柴沟组上段Ⅳ~Ⅵ油层组获得高产油气流,实现了柴达木盆地古近系页岩油的重大勘探突破。然而,古近系页岩油的评价标准和资源潜力不清等问题制约了干柴沟区块高效开发。基于C902井及其他探井的勘探成果,利用岩性、物性、孔隙结构、生烃潜力等资料,综合评价了干柴沟区块古近系下干柴沟组上段Ⅳ~Ⅵ油层组页岩油的勘探潜力。结果表明,该套页岩层系混积特征明显,岩相类型包括纹层状和层状灰云岩、纹层状和层状云灰岩、纹层状黏土质页岩和层状泥岩,具有较高脆性指数,可压性强;晶间孔和纹层缝是重要的储集空间,占比达85%,属于低孔-特低渗储层;w(TOC)均值高于0.9%,氯仿沥青“A”和S_(1)+S_(2)共同指示生烃潜力大,且有机质类型以Ⅰ~Ⅱ_(1)型为主。因此,下干柴沟组上段Ⅳ~Ⅵ油层组具有烃源岩品质好、源储一体、可压性强、发育广泛等特征,生储盖组合在空间上广泛发育且密封性好,有利于压裂改造后提高油气采收率,对干柴沟区块页岩油的高效开发具有重要理论指导意义。

柴达木盆地干柴沟地区古近系下干柴沟组上段页岩层系优势岩相及其控储因素

柴达木盆地干柴沟地区页岩油勘探近年获得重要突破,研究高原咸化湖盆岩相与储层特征对甜点识别具有重要意义。通过岩心和薄片观察、全岩矿物组成和原位微量元素分布测试、大面积视域扫描拼接成像、高压压汞与氮气吸附实验以及一维核磁共振分析,判识了岩相类型,系统研究了页岩储集性和含油性差异,提出了优势岩相和控储主因。研究结果表明:研究区储层有块状灰云岩(碳酸盐矿物含量>70%)、层状灰云岩(碳酸盐矿物含量50%~70%)、纹层状混积岩(碳酸盐矿物含量10%~50%)和断续状水平层理混积岩(碳酸盐矿物含量10%~50%)4种岩相。块状灰云岩和层状灰云岩孔隙以晶间孔为主,储集空间大且连通性好,孔隙中含油指数高,为优势岩相;纹层状混积岩基质孔隙发育较差,纹层密集发育的混积岩渗透性较好;断续状水平层理混积岩孔、缝不发育,储集性较差。优势岩相成储过程受3方面因素控制:①碳酸盐矿物组构决定宏孔发育程度;②陆源长英质细粒沉积物和黏土矿物含量控制比表面吸附性;③纹层发育程度最终改善储层渗透性能。

咸水湖泊细粒重力流沉积及油气意义:以柴达木盆地英西地区下干柴沟组上段为例

细粒重力流可以将滨浅湖的碎屑物质和有机质搬运至半深湖—深湖,形成沉积粒度小于0.0625 mm的细粒重力流沉积物,是深湖环境的重要搬运和沉积作用之一。柴达木盆地英雄岭地区西部下干柴沟组上段(E3~2)为咸水的半深湖—深湖环境,发育了湖底扇—深湖化学沉淀碳酸盐岩沉积体系。研究表明下干柴沟组上段发育有7大类岩相:云/灰质泥岩、粉砂质泥岩、白云岩、泥质白云岩、泥质粉砂岩、细粉砂岩以及粗粉砂岩岩相,形成了7类细粒沉积岩相组合:(1)泥流—泥质湍流—安静水体沉积岩相组合(LA1);(2)半深湖化学沉淀与事件沉积互层岩相组合(LA2);(3)滑塌—细粒碎屑流—泥流沉积岩相组合(LA3);(4)细粒异重流沉积岩相组合(LA4);(5)细粒浓缩密度流沉积岩相组合(LA5);(6)细粒碎屑流—细粒过渡流—细粒浊流沉积岩相组合(LA6);(7)细粒浓缩密度流—细粒湍流—细粒过渡流—泥流沉积岩相组合(LA7)。细粒重力流作用及其相互转化,形成了多样的岩相组合,反映了复杂的沉积作用过程。湖盆细粒沉积物的形成和分布受古气候、盆地构造及湖平面变化的影响。在整体干旱的气候背景下,气候湿润湖平面上升有利于优质烃源岩和细粒异重流的发育;气候干热湖平面下降则有利于发育化学沉积的碳酸盐岩层和滑塌引起的细粒重力流沉积。咸水湖盆半深湖—深湖环境发育的代表泥流—泥质湍流—安静水体沉积的岩相组合(LA1)和化学沉淀碳酸盐岩与事件沉积碳酸盐岩互层的岩相组合(LA2)是优质的“甜点段”。

柴北缘西段嗷唠山地区三叠系碎屑锆石U-Pb年代学特征及其地质意义

柴达木盆地三叠纪有无沉积过程及其后期演化等关键地质问题一直存有争议。文章针对柴北缘西段嗷唠山三叠系沉积岩进行了系统的碎屑锆石年代学研究,结合岩石组合分析和区域地层对比,尝试为理清柴北缘三叠纪地层框架提供依据。根据嗷唠山Tb段下部碎屑锆石中获得年轻锆石年龄平均值248 Ma,结合前人从下伏Ta段中获得的古生物资料,可以将嗷唠山三叠系的形成时代限定在早—中三叠世。文章所采集的嗷唠山样品碎屑锆石年龄谱系可分为5组,分布在(243~260 Ma)、(414~538 Ma)、(678~857 Ma)、(1064~1642 Ma)和(1700~2836 Ma),其主要物源分别对应于柴北缘地区分布的印支期岩浆岩、上泥盆统再旋回物质、柴北缘超高压变质带、柳河群以及达肯达坂群。研究区与柴北缘东段怀头他拉地区三叠系具有相同的沉积特征,并且在岩性组合及碎屑锆石年龄谱系上明显区别于周缘祁连和西秦岭三叠纪地层分区,暗示柴北缘地区在三叠纪曾经发育一系列连续或断续分布的沉积地层。早三叠世,受宗务隆洋向南俯冲影响,柴北缘地区开始快速隆升,先期的多套沉积地层与结晶基底被迅速剥蚀,在近源断陷处形成了冲/洪积相为主的沉积地层。中三叠世,周缘构造带的活动强度总体趋于稳定,柴北缘地区处于浅海陆棚-台地相沉积体系,发育厚层灰岩为主的沉积。至晚三叠世,伴随东昆仑—柴达木地体强烈的陆陆碰撞,柴达木盆地整体被迅速抬升,盆地内弱固结的三叠系被大面积剥蚀,部分向东搬运至共和盆地,仅在部分洼陷得以保存。

柴达木盆地东北缘德令哈地区砂岩型铀矿化特征及找矿方向

德令哈地区位于柴达木盆地东北缘,砂岩型铀矿勘查找矿一直没有取得突破。基于详细的野外地质调查与室内研究,对德令哈地区新发现的德科、德东和旺尕秀三个铀矿化点进行重点剖析。研究表明:德令哈地区砂岩型铀矿赋矿层位主要以中新统下油砂山组(N_(1)y)、上油砂山组(N_(2)y)和狮子沟组(N_(2)s)为主,含矿砂岩主要包括褐红色、黄色、褐黄色、黄绿色中粗砂岩及灰绿色钙质细砂岩,矿石中有机质较为发育,常见“有机质+黄铁矿+铀矿物”组合形式。野外地质调查发现:研究区砂岩型铀矿化与断裂构造关系密切,铀矿化主要发育于背斜构造靠近核部一翼,部分断层中也发育铀矿化。石油部门资料指示德令哈地区发育一套厚约200 m的石炭系克鲁克组(C_(2)h)富铀暗色泥岩,铀含量可达30×10^(-6)~50×10^(-6)以上,可以为上覆含矿层提供深部铀源。研究区“背斜+断裂”构造组合形式是良好的构造减压区,为深部富铀成矿流体的向上运移提供了有利通道。据此分析认为柴东北缘德令哈地区的砂岩铀矿找矿方向应以“渗出型”砂岩铀矿为主,找矿目的层应以中新统下油砂山组、上油砂山组和狮子沟组为主,重点关注“背斜+断裂”的叠合部位。

柴达木盆地干柴沟地区勘探突破及启示

柴达木盆地西部干柴沟地区历经60余年勘探未获重大油气发现。2019年以来,通过强化山地三维地震勘探技术攻关和深化高原咸化湖相混积型碳酸盐岩成储、成藏研究,油气勘探终获突破,发现了古近系下干柴沟组构造油气藏,同时英雄岭页岩油和湖相碳酸盐岩岩性油气藏勘探也展现出良好前景。研究成果主要得益于以下几点:①高品质三维地震资料揭示干柴沟地下构造形态,发现东翼发育断背斜,为油气聚集提供了有利圈闭条件;②大面积咸化湖相混积碳酸盐岩具备储集能力,碎屑岩、湖相碳酸盐岩和膏盐岩层在纵、横向上均呈有序分布,构成了良好的生-储-盖组合;③基于全油气系统理论,认为研究区常规油气(源外)和非常规油气(源内)立体成藏。剖析干柴沟地区油气勘探历程发现:①地震勘探技术进步是干柴沟复杂构造区地下构造圈闭得以落实和油气地质特征得以揭示的基础;②干旱咸化湖盆发育的大面积混积碳酸盐岩不仅是烃源岩而且具备储集能力,这一认识拓展了勘探领域,是勘探取得突破的关键;③全油气系统理论的引入,推动油气勘探向源内拓展,揭示了英雄岭页岩油的良好勘探前景。

蚀变矿物填图及找矿中的应用

青海省地质勘查工作区位于典型的高原荒漠区,地形切割大、植被覆盖率低、基岩出露面积广、地表调查难度大。为研究卫星高光谱数据在柴北缘荒漠区蚀变矿物填图及找矿中的应用,基于高光谱分辨率的国产遥感卫星资源一号(ZY-1)02D数据,通过精细的辐射定标、大气校正、数据修复与正射校正等处理后,获得青海省柴北缘赛坝沟等荒漠地区的高光谱遥感影像;经过详细的野外调查采样并使用FieldSpec Pro FR光谱仪进行波谱测试,构建了研究区包含绿泥石化等12种主要矿物蚀变的标准实验室光谱数据集;最后开展了研究区蚀变矿物提取及找矿研究。结果发现,研究区的蚀变矿物主要有绿帘石、绿泥石、钠长石、绢云母、硅化、高岭土、碳酸盐、褐铁矿、阳起石、蛇纹石、赤铁矿、黄铁矿和孔雀石等13类,蚀变信息分布与地层、侵入岩岩性及韧性剪切构造密切相关。通过对赛坝沟等典型矿床的蚀变特征研究发现,孔雀石化、褐铁矿化、黄铁矿化、绢云母化、硅化等蚀变信息与成矿关系十分密切,具有重要的找矿指示意义;部分钾长石化、绿泥石化、绿帘石化、钠长石化也与成矿作用有一定的关系,可作为找矿参考信息。最终,通过上述方法,结合配套开展的1∶2.5万地球化学测量成果,在托莫尔日特地区发现了铜金矿化点1处。因此,高光谱蚀变矿物填图在我国自然条件恶劣的西部荒漠地区能够弥补传统地质调查和矿产勘查手段的局限性,可用于快速了解区域地质背景、成矿地质条件,进而提取矿物光谱信息等,为地质找矿工作提供大范围的丰富、精细的信息,具有广泛的应用前景。

咸化湖盆混积岩岩相类型、沉积旋回及相模式——以柴达木盆地风西地区新近系为例

针对咸化湖相混积岩岩性复杂、沉积机制不明确等问题,综合岩心、铸体薄片、扫描电镜、X射线衍射、测井、碳氧同位素组成等多种资料,采用岩心与测井、岩石学与地球化学交叉结合研究手段,对柴达木盆地风西地区新近系上干柴沟组至下油砂山组(N1—N21)混积岩进行了综合分析。结果表明,风西地区混积岩包括陆源碎屑岩和湖相碳酸盐岩,沉积于远离物源的浅湖环境,偶尔出现半深湖环境,发育5种典型岩相及6种微相类型。稳定碳氧同位素组成揭示,沉积旋回的形成是受气候驱动的补偿-欠补偿循环机制所控制。提出一种干旱咸化背景下的混积岩沉积旋回模式:补偿期湖平面急剧上升,发育泥坪、砂泥坪、滩等微相,沉积机制以物理沉降为主;欠补偿期湖平面缓慢下降,发育灰泥坪、灰云坪、藻丘/席微相,以化学-生物沉积机制为主导。在咸化湖盆混积体系中,湖相碳酸盐岩主要形成于湖退期;相变并非根据传统认为的可容纳空间来解释,而是受控于气候变化导致的湖水化学性质短期波动。研究结果为咸化湖盆混积岩高分辨率层序模式及成因提供了新解释,对指导咸化湖相非常规油气勘探具有重要意义。