川中地区下寒武统龙王庙组白云岩储层成岩作用

下寒武统龙王庙组是四川盆地一个全新的含油气层,尤其是随着近期川中地区该层位取得重大突破,龙王庙组展现出了巨大的勘探潜力。通过岩心薄片观察、扫描电镜及X衍射分析等研究手段结合常规储层物性分析方法等对川中龙王庙组储层成岩作用进行了探讨。研究结果发现龙王庙组储层发育良好,储集岩以砂屑白云岩及粉晶白云岩为主,粒间溶孔、晶间溶孔以及溶洞较为发育,孔隙度集中在2%～6%间,渗透率集中在0.001×10^-3～0.1×10^-3μm2间,结合孔渗相关关系分析认为龙王庙组储层包括中孔中渗的孔隙型储层及低孔高渗的裂缝-孔洞型储层两类。储层在成岩阶段经历了压实作用、胶结作用、白云石化作用、重结晶作用及多期溶蚀作用。压实作用及胶结作用使得原生孔隙大幅度减少,对储层的形成具有破坏性作用;白云石化及重结晶作用造成孔隙结构发生改变,进而提高储层的有效孔隙度。研究表明龙王庙组白云岩成因主要与同生-准同生阶段局限高盐度海水有关;而多期溶蚀作用产生了大量的次生孔洞成为现今主要的储集空间。

四川盆地焦石坝地区页岩裂缝发育主控因素及对产能的影响

以涪陵页岩气田焦石坝地区五峰组-龙马溪组页岩为研究对象,通过岩心观察、FMI测井解释和氩离子抛光扫描电镜等手段,对页岩裂缝发育的主要控制因素及其对产能的影响进行分析。研究发现,焦石坝地区五峰组-龙马溪组页岩发育微观裂缝(解理缝、晶间缝和贴粒缝)和宏观裂缝(高角度缝——斜交缝和垂直缝、水平缝——页理缝和层间滑动缝)。这两类裂缝的发育程度明显受到岩层的力学性质、页岩气层异常高压、距主滑脱面的距离、斑脱岩的发育程度以及构造作用的控制,其中微观裂缝和水平裂缝在五峰组和龙马溪组底部最为发育,而高角度缝在远离断裂带的构造稳定区主要发育在五峰组,在靠近断裂带页岩气层均有发育。天然裂缝在纵横向上发育程度的差异控制了页岩气单井产量,主要体现在:1影响了页岩气富集,微裂缝和水平裂缝在远离焦石坝构造周边断裂的稳定区总体表现出积极的贡献,而开启性高角度缝,易于形成页岩气逸散通道,造成页岩气藏丰度降低、实测地层压力略有偏低;2影响了后期人工体积改造的有效性,开启性高角度缝的发育不仅会造成钻井液漏失量大,同时也不利于后期压裂改造形成缝网,使人工体积改造有效性降低。

重庆南川地区中二叠统茅口组眼球状灰岩成因

中二叠世茅口组中一下部发育一种特殊的眼球状灰岩，眼球部分通常为颜色较浅，富含生屑颗粒的灰岩；而眼皮部分通常为颜色较暗的泥灰岩。其成因一直存在分歧。本文通过对重庆南川大铺子剖面茅口组底部眼球状灰岩的野外观察和室内研究，认为陆源输入的改变导致眼球和眼皮部分泥质含量的差异；在成岩过程中，碳酸盐沉积物为主的眼球部分因为胶结作用而没有被机械和压实作用破坏，泥质含量较多的眼皮部分则受到强烈的压实。因此，该地区眼球状灰岩的形成是沉积和成岩过程相互作用的结果，为浅海陆棚沉积环境。

Origins of High H_2S-bearing Natural Gas in China

Natural gas containing hydrogen sulphide （H2S） has been found in several petroliferous basins in China, such as the Sichuan Basin, Bohai Bay Basin, Ordos Basin, Tarim Basin, etc. Natural gas with higher HES contents （HES 〉5 % mol.） is mostly distributed in both the gas reservoirs of Dukouhe, Luojiazhai, Puguang and Tieshanpo, which belong to the Triassic Feixianguan Formation in the northeastern Sichuan Basin and those of the Kongdian-Shahejie formations in the northeastern Jinxian Sag of the Jizhong Depression, Bohai Bay Basin. In the Sichuan Basin, the HES contents of natural gas average over 9% and some can be 17 %, while those of the Bohai Bay Basin range from 40 % to 92 %, being then one of the gas reservoirs with the highest H2S contents in the world. Based on detailed observation and sample analysis results of a total 5000 m of core from over 70 wells in the above-mentioned two basins, especially sulfur isotopic analysis of gypsum, brimstone, pyrite and natural gas, also with integrated study of the geochemical characteristics of hydrocarbons, it is thought that the natural gas with high HES contents resulted from thermochemical sulfate reduction （TSR） reactions. Among them, the natural gas in the Feixianguan Formation resulted from TSR reactions participated by hydrocarbon gas, while that in the Zhaolanzhuang of the Jinxian Sag being the product of TSR participated by crude oil. During the consumption process of hydrocarbons due to TSR, the heavy hydrocarbons were apt to react with sulfate, which accordingly resulted in the dry coefficient of natural gas increasing and the carbon isotopes becoming heavier.

Multiple Dolomitization and Fluid Flow Events in the Precambrian Dengying Formation of Sichuan Basin, Southwestern China

The Precambrian Dengying Formation is a set of large-scale, extensively dolomitized, carbonate reservoirs occurring within the Sichuan Basin. Petrographic and geochemical studies reveal dolomitization was a direct result of precipitation by chemically distinct fluids occurring at different times and at different intensities. Based on this evidence, dolomitization and multiple fluid flow events are analyzed, and three types of fluid evolution models are proposed. Results of analysis show that Precambrian Dengying Formation carbonates were deposited in a restricted peritidal environment （630- 542 Ma）. A high temperature and high Mg2＋ concentration seawater was a direct result of dolomitization for the micrite matrix, and for fibrous aragonite in primary pores. Geochemical evidence shows low δ18O values of micritic dolomite varying from -1.29%o to -4.52%o PDB, abundant light rare earth elements （REEs）, and low dolomite order degrees. Microbes and meteoric water significantly altered dolomite original chemical signatures, resulting in algal micritic dolomite and the fine-grained, granular, dolosparite dolomite having very negative δ18O values. Finely crystalline cement dolomite （536.3-280 Ma） and coarsely crystalline cement dolomite have a higher crystallization degree and higher order degree. The diagenetic sequence and fluid inclusion evidence imply a linear correlation between their burial depth and homogenization temperatures, which closely resemble the temperature of generated hydrocarbon. Compared with finely crystalline dolomite, precipitation of coarsely crystalline dolomite was more affected by restricted basinal fluids. In addition, there is a trend toward a more negative δ18O value, higher salinity, higher Fe and Mn concentrations, REE-rich. Two periods of hydrothermal fluids are identified, as the exceptionally high temperatures as opposed to the temperatures of burial history, in addition to the presence of high salinity fluid inclusions. The early hydrothermal fluid flow event was characterized by hot magnesium- and silicon-rich fluids, as demonstrated by the recrystallized matrix dolomite that is intimately associated with flint, opal, and microcrystalline quartz in intergranular or intercrystalline pores. This event was likely the result of a seafloor hydrothermal chimney eruption during Episode I of the Tongwan Movement （536.3-5.5 Ma）. In contrast, later hydrothermal fluids, which caused precipitation of saddle dolomite, were characterized by high salinity （15-16.05wt% NaCI equivalent） and homogenization temperatures （250 to 265℃）, δ18O values that were more enriched, and REE signatures. Geochemical data and the paragenetic sequence indicate that this hydrothermal fluid was related to extensive Permian large igneous province activity （360-280 Ma）. This study demonstrates the presence of complicated dolomitization processes occurring during various paleoclimates, tectonic cycles, and basinal fluids flow; results are a useful reference for these dolomitized Precambrian carbonates reservoirs.

评价煤成烃源岩生烃潜力的一种新方法

采用有机岩石学与有机地球化学相结合的方法，在详细研究未成熟及低成熟煤成烃源岩有机组分生烃潜力的基础上，将源岩中各种显微组分按生烃潜力大小以壳质组显微组分为标准实现标准化，提出评价煤成烃源岩原始生烃潜力的标准壳质化指数（ＭＥＩ）方法。应用该方法对四川盆地上三叠统煤成烃源岩的生烃潜力进行了评价，并取得了良好的效果。

四川盆地龙女寺储卤构造深层地下卤水的水文地球化学特征及成因

本文将龙女寺储卤构造深层地下卤水与不同浓缩阶段的黄海水两者的化学组分进行比较,以及对不同储卤层卤水之间的化学组分进行比较,结果表明该储卤构造地下卤水以高矿化度和富含Br,I,Sr,Ba等元素为特征,可分为两种类型,即碎屑岩储卤层的Cl NaCa型卤水和碳酸盐岩储卤层的Cl Na型卤水。前者来源于以陆相为主的同生沉积水,泥岩和页岩的隔膜渗滤作用可能对卤水化学组分的富集有着重要的影响;而后者则来源于海相同生沉积残余卤水。

四川盆地早白垩世红层磁倾角偏低研究

对四川盆地东北部巴中地区和西部雅安地区早白垩世红层分别采集9块手标本,进行了详细的古地磁学研究.系统退磁获得两地的特征剩磁,其中巴中地区平均方向为,倾斜校正之前:D_g/I_g=25.3°/19.0°,k=18.6,α_(95)=8.8°;倾斜校正之后:D_s/I_s=25.8°/18.9°,k=24.3,α_(95)=7.6°.雅安地区平均方向为,倾斜校正之前:D_g/I_g=24.5°/45.0°,k=15.7,α_(95)=9.0°;倾斜校正之后:D_s/I_s=356.7°/35.6°,k=28.5,α_(95)=6.6°.磁化率各向异性实验结果显示两地均未受到显著的构造应力影响.等温剩磁各向异性(AIR)实验结果,巴中地区IRMz/IRMLx平均值为0.8194,表明18%的压实率;雅安地区IRMz/IRMx平均值为0.8909,表明11%的压实率,计算得到巴中和雅安地区校正后的磁倾角分别为22.7°和38.8°.根据等温剩磁各向异性(AIR)实验和Tauxe and Kent(2004)提出的EI校正法得到的结果表明,四川盆地早白垩世陆相碎屑岩层中存在沉积压实作用造成的磁倾角偏低现象,而且川东北巴中地区的偏低程度强于川西雅安地区.

四川盆地震旦系灯影组层序划分及多期台缘带的发现

四川盆地中部高磨地区震旦系灯影组台缘带勘探成效显著,但台内钻探以中-低产为主,亟待攻关有利区带预测办法。以野外露头、岩心、测井和地震资料为研究基础,利用测井数据建立灯影组可容纳空间模型,可间接反映古海平面升降规律,并以此作为地震层序划分的主要依据,建立高分辨率层序地层格架,分析沉积横向上的沉积趋势,发现台内"隐蔽"的有利相带。结果表明:①灯影组发育2个二级层序,4个三级层序;②首次发现灯二期及灯四期内各发育1次区域性海退,即灯影期共有4次区域性海退,而非前期认为的2次海退;③4期海退在高磨地区形成了4期台缘带。结论认为:由于新发现的灯二早期及灯四早期台缘带尚未有钻探证实,台内多期台缘带应是下一步风险勘探的重要方向。

页岩气水平井卡钻主要原因及预防对策

四川盆地长宁—威远国家级页岩气示范区目前已经实现了埋深3500m以浅海相页岩气的规模化、效益化开发,但随着该区页岩气水平井段长度的延伸,管柱下入过程中摩擦阻力、扭矩增大,易造成频繁遇阻、卡钻等现象。为此,在分析卡钻原因的基础上,从预防钻井过程中井眼力学变形的角度出发,以提高页岩长水平井井段的钻井液封堵性能为重点,协同优化影响井眼轨迹和井眼环空岩屑浓度的钻具组合与钻井参数,通过优化井身结构、井眼轨迹、钻井液性能等技术措施,配套降摩减阻及提速配套工具,制订了页岩气水平井防卡钻技术措施,并进行了现场应用。研究及应用结果表明:(1)对于水基钻井液采用加入适量复合盐抑制剂的方式并配合固控设备的应用,可有效控制钻井液中的有害固相含量,而对于油基钻井液则采用提高油水比、增加乳化剂等方式以增强其稳定性;(2)井眼轨道设计优化为三维轨道二维化后,钻柱最大摩阻较之于优化前降低了20%;(3)高效随钻震击器的钻具组合,配合以合理的钻井参数控制机械钻速,可以达到满足井眼环空携岩要求的岩屑浓度,减少岩屑床的厚度;(4)现场12井次的应用效果表明,水平井段阻、卡等复杂事故时率由2.3%降低至0.92%。结论认为,该研究成果为解决页岩气长水平段卡钻难题提供了有效的技术途径。

唐代西南地区水利工程建设

唐代西南地区农业发展迅速,水利工程建设取得重大成就,不但对前人水利设施进行制度化维护,而且结合本地特点修建新的水利工程,使得水利工程形成以都江堰工程为核心的灌溉体系和由政府主导社会参与的建设格局的特点。这些水利工程承担了灌溉和航运的任务,获得了巨大的经济效益,原因:一是完善的水利管理制度;二是政府重视农业。对我们当前农田水利建设有重要启示,第一,注重资源税,调控用水,发展农业;第二,重视水利工程的修建;第三,鼓励民众参与水利建设;第四,健全水利管理机构,构建覆盖水利建设体系的法律法规,着重落实责任,重在执行;最后,水利工程建设要综合考虑当地的生态经济环境承载能力。