角岩化无烟煤的发现及初步研究

角岩化无烟煤首见于湖南省骑田岭花岗岩周围晚二叠世煤层中,它是一种低级热接触变质岩。本文在研究角岩化无烟煤岩石学特征的基础上,详细分析了其岩石化学、微量元素、稀土元素和碳同位素的地球化学特征及其有机物的X射线衍射、红外光谱和喇曼光谱特征。并探讨了角岩化无烟煤发现的地质意义。

新疆喀拉通克铜镍矿田成矿条件、岩浆通道与成矿潜力分析

位于中亚造山带北缘的喀拉通克早二叠世铜镍硫化物矿区是新疆规模最大的铜镍矿山,包含13个岩体,相当部分为隐伏岩体,其中1号、2号、3号、9号矿床为主力矿床,经过30余年持续开发,最大开采深度已达740 m,已面临后备资源不足的危机。已知矿体主要产于辉长岩、苏长岩、辉长苏长岩以及橄榄苏长岩中,甚至角闪辉长岩局部也含矿,未见超镁铁岩产出,具有显著的磁性(200 nT)、重力(0.29×10^(-5)m/s^2)、激化率异常,以镁铁岩含矿、岩体规模小且成群成带、分异演化程度高、富铜(Cu/Ni约3:2)、PGE较高、块状硫化物贯入矿体普遍发育为特色。其围岩为含炭质板岩、片岩和凝灰岩,变形强烈,常规电法受到炭质层的干扰。依据岩石学、地球化学研究,岩浆源于软流圈地幔,基于与东天山同期铜镍矿床含矿岩相及其比例和剩余重力异常的比较,推断其应发育有相当比例的超镁铁岩,因而深部出现超基性岩的可能性很高,且含矿性应更好。这一推断得到坑道钻探的证实,2013年矿区在Y2岩体东段650~740 m深度和Y2岩体西段400~500 m深度发现隐伏超镁铁岩且含矿,局部见贯入块状矿体。橄榄辉石岩、辉石橄榄岩系矿区首次发现,粒度很细,发育强烈的蛇纹石化、纤闪石化,推测只是隐伏超基性岩的头部。结合控岩控矿构造的追溯及南、北岩带的侧伏和倾伏方向判断,硫化物珠滴构造的发现与系统观测统计,围岩烘烤边和角岩化的研究分析,提出南岩带主岩浆通道位于Y2与Y3岩体之间,而不是原普遍认为的岩浆通道位于Y1与Y2岩体之间。结合矿区的现状,提出采用高分辨率浅层地震、CSAMT和瞬变电磁地-井测量,结合传统的高精度重力勘探、磁法勘探和激发极化法来勘探和预测南岩带深部隐伏含矿超镁铁岩的空间位置和产状,圈定岩浆通道和隐伏铜镍矿体,进而推动北岩带和外围G21、22号岩体的深部探矿工作。

辉绿岩侵入作用对油气储层的影响——以高邮凹陷北斜坡中东部地区阜三段为例

含油气盆地中辉绿岩的侵入不但加速了围岩的成岩作用进程,引起了热变质作用,改变围岩中矿物的溶解度,同时,对围岩也进行了物理改造。辉绿岩侵入作用带来的大量热能引起地温梯度升高,在浅部地层中便可发现深部地层中才有的铁方解石,加速成岩作用的进程;热变质作用以岩浆接触带中的泥岩角岩化以及砂岩中重结晶的绢云母和绿泥石为特征;在接触带附近,由于岩浆热液的侵入,温压的升高,偏碱性溶液浓度集中,促进石英溶解。同时,辉绿岩侵入体对围岩的物理改造主要表现在构造-岩浆活动形成有利于油气储集的次生裂缝。

香格里拉县红牛矽卡岩型铜矿

“三江成矿带”内的红牛铜矿,赋存于大理岩边部矽卡岩化蚀变带及角岩体中。赋矿地层为曲嘎寺组第二段。对矿石结构、构造及矿石矿物成分、共生伴生关系等进行研究,明确找矿标志。

大顶铁矿区变质岩类型浅析

对广东大顶铁矿区的变质岩类型进行了概述,分析了变质岩的成因,阐述了各类型变质岩土成矿的关系,认为大顶铁矿是一高温热液接触交代矽卡岩型矿床,成矿与矽卡岩有密切关系。

普朗铜矿外围找矿方向

普朗岩体外接触带,与热液活动密切相关,受构造裂隙控制,大脉状产出,可寻找大脉型矿体。而北部向深部寻找与斑岩有关的矿体;西南部则可寻找角岩化带矿体。

云南大理笔架山金矿区围岩蚀变特征及地质意义

云南大理笔架山金矿区地处宾川—程海深大断裂与金沙江—红河断裂所夹持的倒三角地带,矿区的围岩蚀变主要与这一地区喜马拉雅期富碱侵入体有关,在富碱性的斑岩体接触带形成强烈的矽卡岩化和角岩化,并伴随有明显的铜、钼、金等多金属矿化。因此矽卡岩化、角岩化既有利于成矿,也是直接的找矿标志。

广东省龙川县麻布岗天堂山矿区铷的工艺矿物学特征

广东省龙川县麻布岗天堂山矿区铷矿赋矿岩石主要为角岩化火山岩,次为云英岩型铷矿石。Rb2O平均品位0.142%,铷主要呈类质同像形式赋存于黑云母(含水黑云母)、绿泥石、绢云母和长石四种矿物中。黑云母(水黑云母)中Rb2O平均含量为0.31%,分布率17.15%,黑云母(水黑云母)嵌布粒度相对较粗,晶形较完整,单体解离性好。从黑云母(水黑云母)中回收铷,Rb2O可充分富集,铷的理论回收率81.78%。

河北涞源木吉村矿田隐爆相角砾岩发育特征及其形成机制

河北涞源木吉村矿田内突出发育的隐爆相角砾岩,是该内生金属矿田的成矿同源岩体——闪长玢岩侵入晚期的产物。其形成和分布主要受成岩期构造控制。根据隐爆相角砾岩的地质发育特征将其分为四类:爆破角砾岩,震碎—震裂角砾岩、流化—侵入角砾岩、热液注入—交代角砾岩。

Diagenetic evolution and its effect on reservoir-quality of fan delta sandstones during progressive burial: Evidence from the upper part of the fourth member of Shahejie formation, Bonan sag, Jiyang depression

Petrographic analysis combined with various techniques, such as thin section identification, fluid inclusions, isotopic data, petro-physical property testing and oil testing results, was used to study diagenetic evolution and its effect on reservoir-quality of fan delta reservoirs of Es4s in the Bonan sag. The diagenesis is principally characterized by strong compaction, undercompaction, multi-phase of dissolution and cementation. Compaction played a more important role than cementation in destroying the primary porosity of the sandstones. The reservoirs have experienced complicated diagenetic environment evolution of "weak alkalineacid-alkalinity-acid-weak alkalinity" and two-stage of hydrocarbon filling. The diagenetic sequences are summarized as "early compaction/early pyrite/gypsum/calcite/dolomite cementation→feldspar dissolution/the first stage of quartz overgrowth → early hydrocarbon filling→quartz dissolution/anhydrite/Fe-carbonate cementation→Fe-carbonate dissolution/feldspar dissolution/ the second stage of quartz overgrowth→later hydrocarbon filling→later pyrite cementation. In the same diagenetic context, the diagenetic evolution processes that occurred in different sub/micro-facies during progressive burial have resulted in heterogeneous reservoir properties and oiliness. The braided channel reservoirs in fan delta plain are poorly sorted with high matrix contents. The physical properties decrease continually due to the principally strong compaction and weak dissolution. The present properties of braided channel reservoirs are extremely poor, which is evidenced by few oil layers developed in relatively shallow strata while dry layers entirely in deep. The reservoirs both in the underwater distributary channels and mouth bars are well sorted and have a strong ability to resist compaction. Abundant pores are developed in medium-deep strata because of modifications by two-stage of acidic dissolution and hydrocarbon filling. The present properties are relatively well both in the underwater distributary channels and mouth bars and plenty of oil layers are developed in different burial depth. The present reservoir properties both in interdistributary channel and pre-fan delta are poor caused by extensively cementation. Small amounts of oil layers, oil-water layers and oil-bearing layers are developed in relatively shallow strata while dry layers totally in deep.