天津滨海地区浅层剪切波速与基底构造关系研究

Shear wave velocity is one of the important dynamic characteristics of soil layers and applied widely in aseismic engineering. In this paper, 500 drill logging data are used to make a linear interpolation based on 0.01°×0.01°×1m grid. A shallow 3-D shear wave velocity structure of Tianjin coastal area is obtained. According to the data and geological background, we selected two typical velocity profiles to try to introduce and explain its relationship to basement structure. The results show that the shear wave velocity structure clearly presents the characteristic of stratification and lateral inhomogeneity. Furthermore, the difference of the shear wave structure between tectonic elements is clear and the velocity structure between the two sides of the local or border fault in the Quaternary is disturbed or affected significantly. It intuitively shows that the basement structure and fault activity of this region had good control of sedimentation development and strata formation in the Quaternary period which would have an important effect on engineering seismic and geological condition evaluation.     

测井技术在地震目标追踪应用中的方法探讨

目前常见测井-地震综合应用技术主要是测井约束地震反演技术,该技术存在两方面的研究精度问题.一是初始模型等因素影响反演的精度和分辨率,二是波阻抗的多解性难免造成反演的多解性.由于存在以上原因,有必要探索其他方式的"井震结合"研究思路,根据测井、地震信息具有地质背景成因一致的特点,提出寻找二者具有的、可相互辨识的共同地质属性的分析方法,研究认为,测井、地震共同地质属性的辨识可表现在两方面,一是测井、地震信息在地质界面上下地质成因相同.深入研究两者可相互辨识的地质属性信息,可提供地质界面的识别与追踪依据;二是对于一个具体的地质事件或地质体,也理应找到具有同一成因基础的、可相互辨识的信息响应依据.利用该方法对羊二庄某区的实践表明,在测井、地震信息成因一致性分析手段的基础上,开展测井-地质共同地质属性的辨识、追踪研究,对复杂油气区有利目标的追踪具有有效性,该研究成果被钻井结果证实.     

新世纪第二个五年测井技术的若干进展

本文对新世纪第二个五年测井技术的进展进行评述,分析电缆测井、随钻测井、地层测试等井筒探测技术的发展状况,介绍了一些最新的测井仪器和测井方法,重点讨论了测井技术在地层各向异性探测方向的进展.此外对井下永久传感器网络技术,噪声测井,重力测井,过钻头测井的进展进也行了介绍.     

Evaluation of coal bed methane content using BET adsorption isotherm equation

Coal bed methane is unconventional raw natural gas stored in coal seam with considerable reserves in China.In recent years,as the coal bed methane production,the safety and the use of resources have been paid more attentions.Evaluating coal bed methane content is an urgent problem.A BET adsorption isotherm equation is used to process the experimental data.The various parameters of BET equation under different temperatures are obtained;a theoretical gas content correction factor is proposed,and an evaluation method of actual coal bed methane is established.     

Full-wave synthetic acoustic logs in porous media

In order to investigate the permeability of porous media,it is necessary to figure out the property of wave propagation in this medium. The authors calculated the full waveforms and the 2-dimensional spectrum of fluid saturated porous media,analyzed the wave propagation characteristics of different permeable stratums. From the theoretical acoustic pressure waveform received at the well-axis and the 2-D spectrum it is revealed that longitudinal-,transverse-,Stoneley-,pseudo-Rayleigh-,longitudinal mode-and transverse mode waves are different in characters in various permeable strata. Stoneley wave is sensitive to the change of permeability,and its frequency range and amplitude attenuation are influenced by permeability.     

Environmental and social aspects of underwater logging

Underwater logging is a relatively new concept in forestry that has significant economic benefits but also consequences for the environment and local communities. Underwater logging has traditionally been undertaken by divers. However, safety concerns mean that conventional harvesting methods using divers need to be replaced by more sophisticated mechanized harvesting techniques. This paper outlines the environmental and social aspects of underwater logging, highlighting issues that must be considered before any underwater harvesting operations are executed. While the economic reasons for harvesting underwater logs seem compelling, as do the associated social benefits, such as employment generation, there are significant environmental impacts of removing trees from reservoirs, as submerged trees serve as important ecological habitat for aquatic life. Due to the absence of any regulatory regimes encompassing underwater logging, we propose best-practice guidelines for underwater logging operations and suggest the need for a comprehensive sustainability framework based on internationally recognized criteria and indicators to ensure underwater logging operations are environmentally safe, socially beneficial and economically viable.     

国产旋转导向及随钻测井系统在渤海某油田的应用

旋转导向和随钻测井系统可在精确、高效控制井眼轨迹和快速识别地层性质的同时大幅度提高作业效率,降低作业成本。尤其在海上油气开发过程中具有较好的提效效果,但是长期以来该领域均被国外石油公司垄断且租赁价格高昂。中海油国产化研制的Welleader旋转导向系统、Drilog随钻测井系统经过多次试验达到了入井应用要求,在渤海某平台调整井钻井作业中进行了应用,结果表明该套系统旋转导向系统轨迹控制满足定向井轨迹要求、测斜数据准确、测井质量符合标准要求,能够实现钻井过程中的轨迹控制和测井要求。     

判定现今局部应力方向的一种新方法

区域应力与局部应力方向存在差异,不能简单地把区域应力方向当作局部构造应力方向。根据力学分解特征,提出了用区域主应力方向沿构造等高线进行分解以求取局部应力方向的方法。根据北部湾盆地内目的层的构造等高线,用该方法求得S1井目的层的局部应力方向为NNW-SSE向和SWW-NEE向。该应力方向与S1井成像测井分析求得的局部应力方向完全吻合,从而说明本文提出的新方法具有可行性,可以在该区域内推广。      

重力测井技术若干进展

重力测井是一种常规的地球物理方法,具有较大探测深度,对以生物礁及溶孔溶洞为储层的密度异常体的探测具有重要的意义。本文论述了重力测井的研究进展,分析了重力测井的基本原理以及面临的问题和急需解决的科学问题,讨论了今后需要研究的方向及基本课题.认为重力测井在解决复杂储层勘探难题和油气藏动态监测方面具有其它常规测井所不具有的优势,重力测井技术在理论和实践两方面都是可行的,具有广阔的发展前景.     

碳酸盐岩地层孔隙度测井环境校正方法与应用

地震储层预测时需要高精度的测井数据,对测井曲线不仅在储层处要进行环境校正,而且在非储层处也要做环境校正。为了消除井眼扩径和其他影响因素对测井曲线的影响,针对声波和密度等孔隙度测井提出了一套校正办法。首先要找出测井曲线的失真,然后针对引起失真的原因,分别针对声波测井和密度测井提出具体校正办法,主要包括基于阵列声波测井的声波时差重新提取和其他资料的重构-编辑法。上述方法在川东北碳酸盐岩区块进行了实验,经分析与对比,证明该方法是有效的,思路和方法对其他区块也有借鉴意义。