Damage Constitutive and Failure Prediction of Artificial Single-Joint Sandstone Based on Acoustic Emission

The effect law of deformation and failure of a jointed rock mass is essential for underground engineering safety and stability evaluation. In order to study the evolution mechanism and precursory characteristics of instability and failure of jointed rock masses, uniaxial compression and acoustic emission (AE) tests are conducted on sandstones with different joint dip angles. To simulate the mechanical behavior of the rock, a jointed rock mass damage constitutive model with AE characteristic parameters is created based on damage mechanics theory and taking into account the effect of rock mass structure and load coupling. To quantify the mechanism of rock instability, a cusp catastrophe model with AE characteristic parameters is created based on catastrophe theory. The results indicate that when the joint dip angle increases from 0° to 90°, the failure mechanism of sandstone shifts from tensile to shear, with 45° being the critical failure mode. Sandstone's compressive strength reduces initially and subsequently increases, resulting in a U-shaped distribution. The developed damage constitutive model's theoretical curve closely matches the test curve, indicating that the model can reasonably describe the damage evolution of sandstone. The cusp catastrophe model has a high forecast accuracy, and when combined with the damage constitutive model, the prediction accuracy can be increased further. The research results can provide theoretical guidance for the safety and stability evaluation of underground engineering.

     

地震成藏学核心内容与技术方法体系探讨

地震成藏学是随着地震勘探技术和油气成藏理论的不断发展,为了满足现阶段油气勘探实践需要而提出的一门交叉学科.其主要目的是充分利用先进地震技术解决油气动态成藏问题,促使油气成藏从二维、静态向三维、动态方向发展.本文在石油地震地质学最新研究成果基础上,结合地震研究方法和油气成藏学理论最新动态,通过基本原理、学科特点等的综合分析,重新定义了地震成藏学的概念,厘定了地震成藏学研究思路、核心内容与技术方法体系.认为地震成藏学是在油气成藏理论指导下,充分利用地震信息和先进地震技术对油气成藏的静态地质要素、动态地质过程和油气藏空间分布进行研究,最终实现动态成藏建模的一门科学.认为地震成藏学大致包括四方面研究内容:1)静态成藏要素地震地质研究,2)动态成藏过程地震地质研究,3)油气藏空间分布地震地质综合预测和4)油气成藏地震地质综合评价及建模研究.其中,后三者将成为该学科研究核心和今后攻关主要方向.本文针对地震成藏学的主要研究内容,按照勘探区地质认识程度的不同,分别提出了基于烃源岩地震预测技术、成藏动力地震预测技术、油气输导体系地震预测技术和油气成藏地震演化剖面综合分析等关键技术的地震成藏学解析技术和基于岩石物理模拟、流体置换等地震成藏单元随机模拟技术.     

地理国情监测技术路线研究

针对目前地理国情监测过程中遇到的信息采集涉及行业广、种类多、工作繁琐等问题,该文提出了一种新的技术路线,并详细探讨了不同部门、不同行业信息的获取方式。对于基础地理信息采集时地理国情及地表覆盖分类中存在的特殊道路、特殊河流、特殊房屋信息难以采集的情况,给出具体采集办法,提高了采集效率和采集精度;规范地理国情监测框架要求的其他部门、行业信息采集标准,并针对数据量大、类型复杂、调用部门多等问题,提出以云数据库存储数据,解决了后期数据库需多次扩展问题。通过分析与研究表明:此技术路线具有良好的可行性,采用此技术路线可有效采集地理信息并进行数据整合。     

A double-differenced cycle slip detection and repair method for GNSS CORS network

The difficulty to detect and repair cycle slip of carrier phase measurements is a key limit for continuously high accuracy of GNSS positioning and navigation services. We propose an automated cycle slip detection and repair method for data preprocessing of a CORS network. The method jointly uses double-differenced (DD) geometry-free (GF) combination and ionospheric-free observation corrected for the computed geometrical distance (IF-OMC) to estimate the cycle slips in dual-frequency observations. The DD GF combination, which is only affected by the ionospheric residual, can be used to detect cycle slips with high reliability except for special pairs such as (77, 60) on GPS L1/L2 frequencies. The detection principle of the IF-OMC observable is such that there is a large discontinuity related to the previous epoch when cycle slips occur at the present epoch. The disadvantages of these two combinations can be overcome employing the proposed detection method. The cycle slip pair (77, 60) has no effect on the GF combination, while a change of 14.65 m is derived from GPS L1/L2 observations using the IF-OMC algorithm. Using pre-determined station coordinates as precise values, we found that the accuracy of the DD IF-OMC combination was 18 mm for a 200-km CORS baseline. Therefore, cycle slips in dual-frequency observations can be correctly and uniquely determined using DD GF and IF-OMC equations. The proposed method was verified by adding simulated cycle slips in observations collected from the CORS network under a quiet ionosphere and shown to be effective. Moreover, the method was assessed with observations made during intense ionospheric activity, which generated extensive cycle slips. The results show that the algorithm can detect and repair all cycle slips apart from two exceptions relating to long data gaps.     

柴达木盆地北缘冷湖地区侏罗系-古近系储层流体包裹体特征与油气运移

柴达木盆地北缘冷湖地区的侏罗系—古近系储层是柴北缘地区的重点勘探对象,通过对采自该区7口典型钻井中的储层岩心样品进行流体包裹体分析,揭示了油气运移的一些基本特征。首先,根据储层含油气包裹体丰度的差异,认为冷湖地区并不存在从五号→四号→三号构造的顺层油气运移指向,油气主要自昆特依凹陷呈放射状向构造带运移。其次,储层油气包裹体类型的差异表明,深部侏罗系储层中曾经接受过一期成熟度较低的石油充注,但规模可能有限;冷湖地区可能并不存在大规模的天然气聚集;原油普遍遭受过水洗降解等次生变化。最后,综合包裹体岩相学和显微测温结果,提出本区侏罗系—古近系储层中目前所发现的油气大多为中新世后形成。这些认识为区域油气深入勘探提供了重要的基础参考信息。     

基于时相变化的晴空条件下Himawari-8 AHI火点检测

Himawari-8静止气象卫星具有高空间分辨率、高观测频次和高时效特点,对于火点检测具有很强优势。对Himawari-8卫星的3.9μm和11.2μm两通道亮温进行了连续时相变化研究,得出两通道的亮温在时间上的变化差值稳定且规律明显。根据两通道的亮温时相特征,考虑白天可见光对3.9μm通道的影响,并结合火点产生时引起的亮温变化特征,提出了适用于晴空条件下改进的火点检测算法。在多处进行了此算法的实验,例如2018-11-27 T 16:40(UTC时)河北张家口市桥东区一化工厂附近发生的严重爆炸起火事件以及2019-02-28澳大利亚西南部发生的火灾事件,均快速有效的检测到了火点。实验表明,改进的火点检测算法能很好的进行火点检测,并能解决晨昏交界、冰雪下垫面、常规火源点、太阳耀光等火点检测的难题。     

黔北地区桃园向斜铝土矿矿床地质特征及找矿方向

桃园向斜铝土矿位于道真县东部,是务川-正安-道真地区铝土矿的一个组成部分.该铝土矿产于二叠纪梁山组地层中,属于沉积型铝土矿床,其中地质历史时期的沉积间断对铝土矿的形成有重要作用.通过对其成矿地质背景、矿床地质特征的分析,总结了桃园向斜铝土矿的控矿因素及其找矿标志,并指出向斜的深部及西翼中部和南部具有较大的找矿潜力.     

地层岩性与地震波速度的关系分析

岩性与地震波速度的关系非常密切,岩石的成分、密度,岩石颗粒的分选、磨圆度等均不同程度地影响着地震波速度。作者在调研的基础上,系统介绍了岩性与地震波速的关系,并给出了5类沉积岩波速和密度的平均值、波速与密度的转换公式、地震岩性预测的方法。     

Fe3+胁迫对假微型海链藻中性脂累积及DGAT 表达的影响

二酰甘油酰基转移酶(DGAT)是脂类合成途径中的关键酶,其表达水平的高低影响着脂类含量的高低。微量元素Fe3+对于微藻的生长不可或缺,且影响着微藻中油脂的累积。本实验以假微型海链藻(Thalassiosira pseudonana)为研究对象,分析了铁限制(0.000 03mmol/L)和高铁胁迫(0.3 mmol/L)2种Fe3+胁迫条件下,不同种群生长期中性脂累积及二酰甘油酰基转移酶(DGAT)的基因表达受到的影响。结果显示:铁限制条件下,微藻种群生长及其中性脂的合成受到抑制,DGAT的表达量下降;高铁胁迫条件下,高浓度Fe3+可促进中性脂合成与DGAT的表达,但抑制微藻种群生长。因此,富铁条件下更利于总脂的收集。     

实验室培养端足类日本大螯蜚对镉的毒理敏感性研究

沉积物毒性生物检测是沉积物环境质量评价重要内容之一[1].在沉积物毒性生物检测实验中,常用的受试生物有端足类(Amphipoda)、多毛类(Polychaeta)、软体动物(Mollusca)、棘皮动物(E-chinodermata)和枝角类(Cladocera)等中的部分种类[2-3].端足类是目前开展海洋沉积物毒性检测的优选受试生物,对其研究工作进行的最多,经验积累也最丰富,用其进行的有关沉积物毒性检测的方法也比较成熟[3].目前国外已有20多种海洋端足类用于沉积物毒性生物检测中.野生受试生物受季节、数量的限制不能满足检测工作的需要.