负压地层形成机制及其对油气藏的影响

具异常压力场特征的盆地在我国比较普遍，但更多的是研究超压体系，对于异常低压体系的成因与机制在国内还没有很好的解释。盆地内的广泛沉积造成的巨厚沉积地层，并在随后的地层抬升过程中造成的严重剥蚀，导致剥蚀反弹现象，从而形成负压区。由于地层的温度或其他因素的影响，也会造成局部的负压现象。根据百色盆地的负压现象，从其成因着手,分析其形成过程有其对该地区油气藏的影响。负压造成流体的局部回流，形成低压封隔窗，促使油气二次运移，从而改造油气藏的分布，形成一些与负压有关的油气藏。     

Paleo-oil-Water Contact and Present-Day Gas-Water Contact： Implication for Evolution History of Puguang Gas Field, Sichuan Basin, China

The Puguang (普光) gas field is the largest gas field found in marine carbonate in China.The Puguang gas field experienced complicated evolution history from paleo-oil pool to gas pool.The purpose of this article is to reveal the evolution history of Puguang gas field through systematic study on the relationship between paleo-oil-water contact (POWC) and present-day gas-water contact (PGWC).POWC was recognized by observing the change of relative content of residual solid bitumen in the cores,and PGWC was observed using log and drilling stem test data.Two types of relationship between POWC and PGWC were observed in the Puguang gas field:POWC is above PGWC,and POWC is below PGWC.The former is normal as oil cracking may cause gas-water contact to move downward.The latter can be interpreted by lateral gas re-migration and re-accumulation caused by changes in structural configuration.The relationship between POWC and PGWC suggests that during oil charge,the southwestern and northwestern parts of the Puguang gas field were structurally lower than the northeastern and southeastern parts.Thrusting from Xuefengshan (雪峰山) since Yanshanian movement and from Dabashan (大巴山) since Himalayan movement resulted in the relative uplift of the southwestern and northwestern parts of the Puguang structure,which significantly changed the structural configuration.Based on the paleo-structure discussed in this article,the most probable migration directions of paleo-oil were from the northwest to the southeast and from the southwest to the northeast.Consequently,the evolution history of the Puguang gas field can be divided into three stages,namely,oil charging (200-170 Ma),cracking oil to gas (155-120 Ma),and gas pool adjustment (1200-0Ma).     

Evolution of the Moxizhuang Oil Field, Central Junggar Basin, Northwest China

Current oil saturation in the Moxizhuang (莫西庄) Oil Field in central Janggar (准噶尔) basin was evaluated by logging interpretation and measured on core samples, and the paleo-oil saturation in both the pay zones and water zones was investigated by graln-containing-oil inclusion (GOI) analysis.The pay zones in this field have low oil saturation and display low resistivity and small contrast between pay zones and water zones, and are classified as low-porosity, low oil saturation, and low resistivity reservoirs. Both the current low oil-saturation pay zones and the water zones above 4 365 m have high GOI values (up to 38%), suggesting high paleo-oil saturation. The significant difference between current oil saturation from both logging interpretation and core sample measurement and paleo-oil saturation indicated by GOI analysis suggests that this low oil-saturation field evolved from a high oil-saturation pool. Lateral re-migration and spill of formally trapped oil owing to changes in structural configuration since Neogene was the most plausible mechanism for oil loss in the Moxizhuang Oil Field.The combined effects of differential accumulation in the charge phase and the differential re-migration and spill of accumulated oil in Neogene are responsible for the complicated correlation between residual oil saturation and porosity/permeability of the reservoir sandstones and the distribution of low oil-saturation pay zones and paleo-oil zones (current water zones).     

平行盾构隧道施工对既有隧道影响的数值分析

采用三维有限元方法对平行盾构隧道施工进行模拟,分析新隧道动态掘进时既有隧道位移、变形和内力的变化规律。模型中考虑了盾构机与管片衬砌相互作用,管片衬砌结构的横观各向同性性质。计算结果表明,既有隧道在盾构机附近主要产生纵向上的不均匀沉降和侧移,在盾构机后方主要产生横断面内的旋转。新隧道的修建还将使既有隧道受到“侧向加载“效应,使其横断面内的弯矩减小,轴力增大,且左、右侧受力不再对称。既有隧道纵向受力出现先受压、后受拉的特征,且在远离新隧道侧将出现最不利应力状态。分析表明盾构机顶进力、注浆压力和地层损失对既有隧道的影响较大,施工中应严格控制,而顶进反力的影响相对较小。该工作为类似工程的施工提供参考。     

川东北宣汉—达县地区地层剥蚀厚度恢复

在川东北宣汉—达县地区构造沉积特征分析的基础上,针对遭受剥蚀的各套地层的实际地质特点,利用泥岩声波时差、镜质体反射率(Ro-H)、波动分析和相邻层地层厚度对比等多种方法,对各关键构造变革时期地层的剥蚀厚度进行了研究,并建立了研究区12口典型井的沉积—剥蚀过程的波动方程。结果表明,侏罗统顶部剥蚀面形成时期为晚燕山期至今,地层剥蚀厚度处在700~2300 m;上三叠统须家河组顶部剥蚀面形成于晚印支期,剥蚀厚度处在80~150 m;中三叠统雷口坡组顶部剥蚀面形成于早印支期,剥蚀厚度处在240~450 m。      

浅析中国中西部盆地煤系烃源岩成烃研究

烃源岩作为石油、天然气的母源 ,在油气地质研究和油气勘探中占有相当重的位置。伴随着传统生油理论“源控论”的发展 ,煤系烃源岩的发展也得到广泛的关注 ,其研究内容也不断拓展。根据煤系烃源岩的有机质丰度及相关指标 ,指出煤系烃源岩可以成烃 ,只是作为未成熟—低成熟的向油气转化阶段 ,同时也能够在一定条件下成为具有工业性价值的煤系地层油气藏。中国西北部地区广泛存在煤系地层 ,同时也发现煤系有机质转化为烃类 ,对比西北部 ,中国中西部的含煤地层 ,存在构造的复杂因素 ,在转化过程中考虑的因素很多 ,因此在研究煤系地层的成烃作用时 ,必须慎重 ,结合综合指标才能判断     

川东北长兴组—飞仙关组古原油成藏的孔隙度门限

近年来,在四川盆地二叠系、三叠系海相碳酸盐岩层系中发现了如普光、龙岗、元坝等多个大中型、高孔高渗气田,且天然气主要为古油藏原油裂解气.在油源充足的条件下,孔隙度成为了控制古原油成藏的关键因素,讨论古原油充注的孔隙度门限,尤其对于致密碳酸盐岩储层是否发生古原油的聚集具有指导意义.川东北地区长兴组-飞仙关组礁滩相储层发现了大量的固体沥青,岩石薄片镜下观察到这些固体沥青主要分布于亮晶鲕粒灰岩的粒间孔隙中、结晶白云岩的晶间孔中以及残余鲕粒白云岩的铸模孔中,极少发现沥青充填之后的胶结物.本研究定量统计了沥青含量与现今面孔隙度来恢复视古孔隙度,分别讨论现今面孔隙度、视古孔隙度与沥青含量的关系,确定了视古孔隙度门限,最后经过压实作用校正得到了古原油成藏的孔隙度门限.研究结果揭示,沥青含量与现今面孔隙度无线性关系.而与视古孔隙度有着较明显的正相关关系,当视古孔隙度大于一定值时,沥青含量显著增加;川东北长兴组-飞仙关组碳酸盐岩储层古原油成藏的孔隙度门限值为6.4％～7.4％(平均6.8％).     

川东北地区飞仙关组-长兴组天然气富集机制

飞仙关组-长兴组气藏在川东北不同地区成藏要素基本相同,但是区域上天然气富集程度有所不同。为了揭示天然气的富集机制,通过烃源岩分析测试资料、岩心和薄片观察资料、测井和岩屑录井资料等,分析了川东北地区飞仙关组-长兴组天然气的来源、主力烃源岩生烃强度、储层性质与规模、天然气的保存条件、生烃演化史和油气藏的调整过程。研究表明：（1）川东北地区处于或邻近生烃中心,油气初次运移距离短;（2）礁滩岩性气藏相对独立,礁滩储层分布范围控制着古油藏的规模;（3）气藏上覆多套膏盐岩盖层,天然气保存条件好;（4）早期的古油藏经历高温已经全部裂解,形成现今的气藏;在构造作用控制下,天然气聚集成藏经历了古油藏的形成、古油藏裂解及古气藏的形成和现今气藏的形成3个阶段。对川东北天然气富集机制的探讨,有助于进一步寻找有利靶区,指导天然气勘探。     

渤海盆地现今岩石圈热结构及新生代构造-热演化史

依据236口井共2 706组的静温数据以及25口井的系统测温数据,分析计算了渤海盆地地温梯度及大地热流;建立地壳分层结构模型,利用回剥法计算现今地幔热流、深部温度以及岩石圈厚度;在此基础上,利用地球动力学方法恢复本区热流演化史。结果表明：渤海盆地背景地温梯度为322 ℃/km,热流值为648 mW/m2;盆地现今热岩石圈厚度在61~69 km之间,地幔热流占地表热流的比例在60%左右,属于“热幔冷壳”型岩石圈热结构,盆地地壳底部或莫霍面温度变动在548~749 ℃之间;热流演化的特征与盆地的构造演化背景吻合,新生代以来盆地经历了3期岩石圈减薄并加热的过程,在东营组沉积末期热流达到最高(70~83 mW/m2）,这期间盆地内产出多期碱性玄武岩,表明盆地经历了波及地幔的裂谷过程,随后进入热沉降期,热流逐渐降低,盆地向坳陷型转变。