Measurement and study of the distributing law of in-situ stresses in rock mass at great depth

To solve the technical cruxes of the conventional system in deep rock mass, an automatic testing system for hydraulic fracturing that includes a single tube for hydraulic loop, a pressure-relief valve, central-tubeless packers, and a multichannel real-time data acquisition system was used for in-situ stresses measurement at great depths （over 1000 m） in a coalfield in Juye of Northern China. The values and orientations of horizontal principal stresses were determined by the new system. The virgin stress field and its distributing law were decided by the linear regression from the logged 37 points in seven boreholes. Besides, the typical boreholes arranged in both the adjacent zone and far away zone of the faults were analyzed, respectively. The results show that a stress concentration phenomenon and a deflection in the orientation of the maximal horizontal stress exist in the adjacent zone of the faults, which further provides theoretical basis for design and optimization of mining.

Techniques for in-situ stress measurement at great depth

Reliable information of in--situ stress state is necessary for the design andconstruction of most important rock projects. As most rock projects are getting deeper and deeper,traditional techniques of in--situ stress measurement are not very suitable. The current techniquesof in--situ stress measurement and their insufficiency for use at great depth are analyzed. Somebasic ideas of the development of new techniques and the improvement of current techniques for useat great depth are provided.

早产儿经大隐静脉行PICC置管最佳置管深度的临床研究

目的分析早产儿经大隐静脉(great saphenous vein,GSV)行经外周静脉穿刺的中心静脉导管(peripherally inserted central venous catheter,PICC)置管最佳置管深度(optimal placement depth,OPD)与体格测量参数之间的相关性,以期建立经GSV PICC置管OPD的预测公式。方法回顾性选取2022年12月—2024年2月在中南大学湘雅三医院新生儿重症监护室经GSV PICC置管的早产儿为研究对象。按穿刺部位不同[膝关节(knee joint,KJ)或踝关节(ankle joint,AJ)GSV],分为GSV-KJ置管组(38例)和GSV-AJ置管组(33例)。测量置管时体重(body weight,BW)、身长、上部量、下部量、头围、腹围,应用Pearson相关分析评估上述变量与OPD的相关性,构建早产儿经GSV PICC置管OPD的预测公式,比较传统预估公式和新预测公式的预测深度与理想的OPD之间的预测残差。结果Pearson相关分析显示,GSV-KJ置管组和GSV-AJ置管组PICC OPD与BW、身长、上部量、下部量、头围、腹围呈显著正相关(均P<0.05),两组中其与BW的相关性均最高;一元线性回归分析显示,GSV-KJ置管组和GSV-AJ置管组PICC置管OPD与BW呈线性关系。OPD预测方程分别为:GSV-KJ PICC置管OPD(cm)=13.1+2.7×BW(kg),GSV-AJ PICC置管OPD(cm)=13.4+6.0×BW(kg);新预测公式的预测残差显著小于传统预估公式(P<0.05)。结论早产儿经GSV PICC置管OPD与BW呈正相关,依据BW构建的新预测公式的预测结果更接近理想的OPD。

鄂尔多斯高原台地边缘地带地应力随钻测量与分布特征

传统水压致裂法和新的热胀致裂法等测量地应力均属于先成孔后测量,容易发生钻孔后变形、自然开裂和应力释放,很难从根本上保证裂纹是试验时发生还是钻孔后已自然发生,难以保证测量结果的准确性.为了克服常规水压致裂法地应力测量过程中钻孔完整性和致裂过程真实性难以确定的问题,采用地应力光声随钻测试系统对鄂尔多斯高原西南边缘地带典型区域地应力进行了水压致裂法测试,揭示了高原台地边缘地区的应力特点,获得了地应力随深度的变化规律,并与华北平原典型区域地应力测试统计结果进行了比较.研究表明,鄂尔多斯高原西南边缘台地地带的地应力处于中国大陆浅层地壳地应力统计结果的低段区间,高原边缘地带的地应力随深度呈线性增长,最小水平主应力随深度的增长速度高于最大水平主应力的增长速度;最大最小水平主应力低于华北平原区;受区域构造及高原台地地形等影响,鄂尔多斯台地边缘的地应力方向相较于华北平原区,向东发生了偏转;最大最小水平主应力与垂直应力之比所反映的侧压系数低于华北平原区,但两个水平最大最小主应力的差异性高于华北平原区.这说明,尽管高原边缘地带地应力总体水平低于华北平原区,但较大的水平应力差异性容易使地下空间发生剪切破坏,将不利于地下工程的稳定性.由此可见,在台地边缘区域进行地下工程设计和建设时,应重点关注井巷工程的方向布置和低水平应力高应力差值带来的负面影响.

ChatGPT环境下思政教育的风险预警与纾解路向——一种对意识形态感性叙事教学的教育哲学考察

以ChatGPT为代表的人工智能技术为思政教育带来了机遇与挑战。媒介变革引发了它异技术对思政教育的主体性挑战,场域变革引发了“伪参与感”对思政教育的环境挑战,向度变革引发了技术拜物教对思政教育的价值性挑战。其产生原因有数字技术下个体被感性主导后产生的“故事性对抗”、数字环境竞速下由于线性叙事的缺席而导致路途与景深的消失、在资本对技术意向的渗透下导致的价值的偏离。数字化背景下思政教育应聚焦“大他者”的构建,意识形态感性叙事的教学模式为思政教育提供了一种可行性路径,从开展意识形态感性叙事以构建思政教育的大他者地位、回归思政叙事过程以寻找感性与理性的张力、规范数字化伦理限度谨防意识形态的叙事性渗透三方面出发,保证思政教育“以人为本”的根基,明晰教育技术时代思政教育的“变”与“不变”。

Evaluation of MODIS Products in the Great Australian Bight and Adjacent Coastal Waters

Satellite remote sensing data can produce global environmental data and is easily accessible and widely used by the scientific and non-scientific community. However, to use satellite data, it is important to know its limitations and how it validates against in situ measurements for the different regions. Here, field measurements of chlorophyll-a concentration and euphotic depth within the Great Australian Bight, Gulf St Vincent and Spencer Gulf were used to validate ocean colour products derived from the Moderate Resolution Imaging Spectroradiometer (MODIS) onboard the Aqua satellite. The field data include in situ and in vivo chlorophyll-a concentration, which were compared against MODIS chlorophyll-a products derived from three algorithms (OC3M, Carder, and Garver-Siegel-Maritorena (GSM)), as well as euphotic depth measurements derived from photosynthetically active radiation (PAR) profiles, which were compared against two MODIS euphotic depth products (derived semi-analytically and from surface chlorophyll-a). The OC3M product performed well in open waters, with errors below the 35% NASA accepted limit, but it overestimated chlorophyll-a values in shallow (<50 m) waters. The GSM product produced the lowest errors, but also showed a smaller dynamic range, while the Carder product produced higher errors than GSM and it also showed small dynamic range. The relationships between the MODIS and in situ euphotic depth were robust, with errors lower than 20%. MODIS products showed weaker or no significant relationships to in situ measurements in the Eastern Great Australian Bight. This is thought to be due to the summertime subsurface upwelling pool that is characteristic of the area. Based on these results, the OC3M product provides the most reliable estimates of chlorophyll-a, and is recommended for further applications of MODIS imagery, if the limitations in shallow waters are taken into account. Alternatively, the GSM product could be a better option if the algorithm were locally adjusted. Changes in the sampling methodology to improve the algorithms are discussed. Derived euphotic depth products can be used with confidence in applying MODIS products for monitoring water clarity, ecosystem health or primary productivity in the region.

Mechanical behaviors of deep pillar sandwiched between strong and weak layers

A variety of coal room and pillar mining methods have been efficiently practiced at depths of up to 500 m with least strata mechanics issues.However,for the first time,this method was trialled at depths of 850 e900 m in CSM mine of Czech Republic.The rhomboid-shaped coal pillars with acute corners of 70,surrounded with 5.2 m wide and 3.5e4.5 m high mine roadways,were used.Pillars were developed in a staggered manner with their size variation in the Panel II from 83 m×25 m to 24 m×20 m(corner to corner)and Panel V from 35 m×30 m to 26 m×16 m.Coal seam inclined at 12was affected by the unusual slippery slickenside roof bands and sometimes in the floor levels with high vertical stress below strong and massive sandstone roof.In order to ensure safety,pillars in both the panels were continuously monitored using various geotechnical instruments measuring the induced stresses,side spalling and roof sagging.Both panels suffered high amounts of mining induced stress and pillar failure with side-spalling up to 5 m from all sides.Heavy fracturing of coal pillar sides was controlled by fully encapsulated steel bolts.Mining induced stress kept increasing with the progress of development of pillars and galleries.Instruments installed in the pillar failed to monitor actual induced stress due to fracturing of coal mass around it which created an apprehension of pillar failure up to its core due to high vertical mining induced stress.This risk was reduced by carrying out scientific studies including the three-dimensional numerical models calibrated with data from the instrumented pillar.An attempt has been made to study the behavior of coal pillars and their yielding characteristics at deeper cover based on field and simulation results.

深部花岗岩试样岩爆过程实验研究

利用自行设计的深部岩爆过程实验系统,对深部高应力条件下的花岗岩岩爆过程进行实验研究。岩爆实验过程可模拟实际工程的开挖条件:对加载至三向不同应力状态下的板状花岗岩试样,快速卸载一个方向的水平应力,保持其他两向应力不变或保持其中一向应力不变增加另外一向应力。实验过程中采集3个方向应力随时间的变化数据,获得花岗岩岩爆全过程应力曲线。根据实验结果,将花岗岩岩爆全过程分为平静期、小颗粒弹射、片状剥离伴随着颗粒混合弹射及全面崩垮4个阶段;将花岗岩岩爆的破坏形式分为颗粒弹射破坏、片状劈裂破坏和块状崩落破坏;分析发生岩爆后花岗岩试样的微观结构破坏特征;根据卸载后发生岩爆的最大主应力与岩石单轴抗压强度的比值对岩爆强度进行分类;根据卸载后至发生岩爆现象的时间,将岩爆分为滞后岩爆、标准岩爆和瞬时岩爆,并对花岗岩岩爆发生机制进行初步探讨。

深部开采冲击地压与瓦斯的相关性探讨

通过大量微震、瓦斯监测和现场调查,发现冲击地压震前、震后和同震都伴随瓦斯异常涌出.对以往“冲击地压只是忽略或没有瓦斯作用的煤体突出”理论提出质疑.提出煤炭深部开采条件下冲击地压与瓦斯密切相关,高压瓦斯气体极有可能参与了冲击地压的孕育,存在一种含气多孔介质和储气构造在开挖卸荷和高压吸附瓦斯解吸膨胀耦合作用下诱发的冲击地压,是造成群死群伤特大灾难性事故的严重隐患.建议深部开采应高度重视冲击地压与瓦斯灾害的相关性.

岩石流变扰动效应试验及其本构关系研究

深井软岩条件下的巷道围岩流变变形较大,且对扰动作用十分敏感,由扰动作用引起的变形不可忽略。提出岩石强度极限邻域、岩石流变扰动效应等岩石力学新概念,得出岩石处于强度极限邻域范围内时,扰动效应具有显著作用。研制岩石流变扰动效应试验仪,进行岩石流变及其扰动效应试验。试验测试岩石在其强度极限邻域内的恒定轴向荷载作用下,对岩石试件进行扰动荷载冲击扰动,得出不同蠕变阶段具有的扰动效应,绘制不同蠕变阶段的扰动次数–累积变形曲线。根据试验成果,分析岩石蠕变扰动效应的影响因素,建立蠕变不同阶段扰动作用条件下在的岩石本构方程。

大采深条带开采坚硬顶板工作面冲击矿压治理研究

为了解决大采深条带开采坚硬顶板工作面的冲击矿压问题,以古城煤矿2106工作面为例,采用现场分析、实验室试验、数值模拟的方法对其发生机理进行了研究.结果表明在此条件下开采时发生的冲击矿压与煤岩性质、采深、坚硬顶板厚度及顶板的周期来压有密切关系.当冲击矿压发生的煤层具有强冲击倾向性,煤层硬度系数大于3、采深900 m以上、顶板岩层坚硬且厚度大于20 m时,冲击矿压发生具有突然性和猛烈性;主要发生在顶板周期来压期间、超前支护50m范围内,此时工作面的CH4和CO气体含量同时升高.对此提出了钻屑法等预测预报的方法和煤体爆破卸压与柔性支护等治理措施.

大埋深高地压弱结构面顶板岩层诱发冲击地压离心模型试验

针对赵楼矿井首采区近1 km深部拟开采的3煤(即山西组稳定可采煤层)冲击地压问题,考虑断层切割顶板的实际情况,概化出弱结构面顶板工程地质模型并进行离心模型试验。研究结果表明:对于离心模型模拟的弱结构面顶板条件,直接顶来压过程中煤柱压力较低,而老顶来压过程对煤柱受力的影响明显,是引起冲击地压的主要动力来源;顶板被断层切割时,顶板岩层的完整性受到破坏,应力在构造部位重新分布,形成构造应力集中,是引发冲击地压的危险部位;回采工作面揭露断层后,下盘顶板沿断层面失去煤体支撑而形成"悬臂梁",由此大大降低了顶板的支撑强度,容易发生因顶板突然断裂而形成的冲击压力,这种构造条件下厚-巨厚层极坚硬顶板易发生冲击地压。研究结果为赵楼矿井巷道的合理布置、支护及采动冲击地压的潜势性评价提供了重要的参考依据。

深部软岩工程大变形力学分析设计系统

采用飞箭软件公司的有限元程序自动生成系统作为软件开发平台,进行“深部软岩工程大变形力学分析设计系统”的合作开发工作。该软件系统具有如下特色:(1)以和分解有限变形力学分析模型为主体,包括极分解力学分析模型供用户进行对比分析;(2)强调非线性大变形力学设计特色:力学对策设计、过程设计和参数设计;(3)包括多种岩土材料本构模型和工程材料单元,可以进行边坡工程、地基工程、地下洞室工程等大变形力学分析;(4)具有我国自主知识产权。目前该软件的弹性、弹塑性大变形二维计算程序和界面已经开发完成。通过对典型算例的弹性数值分析,验证大变形程序的正确性。该软件系统的问世,可为深部软岩巷道等岩体大变形力学问题提供具有分析和设计功能的数值分析软件系统。

大埋深高水压裂隙岩体巷道底臌突水试验研究

随着煤炭开采向深部发展,高地压和高水压矿井破碎岩体巷道发生底臌突水灾害越来越多。为进一步研究该类巷道底臌突水机理与特点,笔者运用相似模拟试验和现场巷道底板增压注水试验不同手段综合研究深部巷道底臌突水的临界突变规律。运用相似试验模拟了承压水作用下,巷道底板发生破坏的特征;通过现场注水试验分析巷道底臌量和底板物性变化规律,发现了深部巷道底臌突水的突变性规律。

深部隧道围岩的流变

为了准确地分析深部隧道围岩在高应力区的流变现象,保持岩土工程的长期稳定性,利用Shvedov-B ingham模型理论,研究了隧道围岩在初始时刻出现塑性区情况下的流变情况,并考虑了塑性区及弹性区力学性质的不同。分析了不同区域岩体的剪应力和体积变化规律。通过理论推导,给出了流变区半径及应力应变的解析解,并分析了应力分布及流变半径的变化规律。指出研究深部隧道围岩的流变,初始参照状态应该取为弹塑性状态。

基于数据挖掘的深部采场岩爆知识的自动获取

将岩石力学和人工智能相结合 ,提出了深部采场岩爆风险估计知识自学习的一种新方法·它利用数据挖掘的方法从岩爆实例数据中挖掘出知识 ,并在此基础上建立了岩爆风险估计的智能系统·从而可以根据获得的现场测试和监测资料 ,综合估计深部采场因开采而诱发的岩爆风险·

深部软岩巷道喷射钢纤维混凝土支护技术

针对深部软岩的基本特征 ,提出了深部软岩巷道支护的新思路 ,即改变现有的锚喷作业顺序 ,并通过在素喷混凝土中掺入适量钢纤维的方法来改善混凝土的整体力学性能 ,使之更好地适应软岩巷道大变形的需要。借助数值模拟 ,进行了支护方案的对比分析 ,并提出了合理的支护方案。该方案在鹤壁矿务局第 10煤矿 - 5

深部厚煤层条带开采煤柱的稳定性

通过对三向应力状态下的煤柱极限强度计算公式分析得出:我国目前普遍应用的A.H.威尔逊计算理论公式存在因简化带来的问题,并且随着采深的增大,问题表现的越明显.理论分析表明,煤柱塑性区宽度不仅与采深、采厚有关,而且也同采出率有关.结合古城煤矿的实际情况,利用FLAC3D模拟得出了不同开采条件下煤柱塑性区宽度,通过二元线性回归分析,得出了煤柱塑性区宽度与采深、采厚及采出率的计算公式.最后给出了在深部厚煤层条带开采情况下煤柱极限载荷的计算公式.

深部开采诱发的岩爆及其防治策略的研究进展

深部开采诱发了严重的岩爆。在南非的深部金矿，67％的死亡和30％的受伤者与岩爆和岩崩有关。本文给出了目前岩爆机理和风险估计研究的主要进展、现场监测矿震的主要手段和防治岩爆的几种主要的有效措施。

大探测深度电磁测深分辨能力的数值模拟

电磁测深比常规电法有勘探深度大、分辨能力强的优点。采用二维电磁测深正演数值模拟方法,针对人工源电磁测深(音频范围)大探测深度分辨能力问题作了定性和定量分析,通过不同地电模型的计算,总结了大深度勘探分辨能力的一些规律,得出了相应的结论。