吴堡县横沟水源地HS3渗流井的设计与施工

渗流井取水是利用河床松散砂砾石含水层为天然滤床开发地表水、地下取水的一种给水技术。结合吴堡县东部河谷区横沟段三号渗流井（HS3渗流井）施工实例,对渗流井的取水原理、设计思路、施工方法及技术要点进行了总结。     

娄江特大桥深孔泵吸反循环工艺的改进

随着国家基础设施投入的加大,桩径1000－2000 mm、孔深100－130 m的钻孔灌注桩在各类工程中屡被采用。泵吸反循环传统上被用于孔深不超过80 m的深孔,在京沪高铁第六标段娄江特大桥钻孔灌注桩施工中,通过对现有的反循环钻机进行改进,很大程度上提高了泵吸反循环的工作效率,顺利地完成了孔深131 m、桩径1.8 m桩孔的施工,产生了很好的经济效益。     

江西省浮梁县朱溪矿区深孔钻探施工技术研究

详细介绍了朱溪矿区3个深孔钻遇地层、钻探设备、钻孔结构、钻头使用、起大钻、冲洗液使用、护孔堵漏、套管使用等具体情况。重点分析和总结了钻孔结构、钻头使用、冲洗液使用、护孔堵漏等钻探工艺技术,并提出今后深孔施工需慎重配套钻探设备、增大钻头外径、提高钻探效率、重视深孔孔斜尤其是方位超差和灰岩溶洞问题等建议。     

应用于非开挖中减小扭矩的二糖有机物的室内研究

非开挖工程常会遇到的淤泥质高粘土土层,施工中往往需要较大的剪切力才可以破坏土体,因此常常会导致钻杆扭矩过大,导向和扩孔难以进行,造成施工困难,延误工期等后果。针对此类地层,通过室内试验研究和对分子结构的作用机理的分析,介绍了一种应用到钻井液中能有效地解决该类地层中的高扭矩问题的常见二糖有机物,并在实际工程中得到有效应用。     

梧桐庄矿新增大口径3号排水孔施工技术

介绍了梧桐庄矿大口径排水孔钻探成井、固井施工技术。该孔设计孔深646 m,终孔直径520 mm,落点坐标水平位移≯5 m,下入重达90余吨的Φ426 mm套管646 m,水泥固井。由于钻孔直径大,垂直度要求高,施工难度大,预防钻孔超斜、确保顺利安全下入Φ426 mm套管并固井是关键。通过采用小口径先导孔钻进再扩孔成井的施工方法,并采取合理的钻具组合和泥浆,制定有效的防斜技术和下套管措施等,顺利完成了施工任务,施工质量满足设计要求。     

深部孔段卡、埋钻事故防治对策的探讨

在简要归纳岩心钻探孔内事故及其防治思路的基础上,重点探讨了深孔钻探最常见的卡、埋钻事故的防治对策。     

地层渗透性对岩石强度及机械钻速影响因素分析

分析了地层渗透性对井底围压及破岩效率产生的影响,并对地层渗透性进行了分类,在此基础上建立了围压下岩石强度模型;基于压持效率制约了井底净化环境,修正与完善了不同地层渗透性的机械钻速模型,确定了各项参数.应用聚类分析中最优分段法对测井参数与录井参数进行了分类处理并编程获得了单轴下和围压下岩石强度剖面及机械钻速剖面,分别选取...     

100MPa、800℃下Mo和W在流体／花岗质熔体相间分配的实验研究

利用“RQV-快速内冷淬火”（外加热冷封式）高温高压实验装置,在100MPa、800℃条件下,以东秦岭地区出露的高钾钙碱性岩浆岩（合峪花岗岩）为实验初始物,实验研究了Mo和W在花岗岩-H2O、花岗岩-NaCl（KCl）-H2O及花岗岩-NaF-H2O体系流体／熔体相间的分配行为。实验结果表明,Mo比W更倾向于分配进入流体相（DMo^流体/溶体〉〉DW^流体/溶体）,相对于纯水体系而言,流体介质中Cl和F的存在均有利于Mo和W向流体相迁移富集,随体系内Cl含量的不断增高,Mo和W的分配系数呈线性增大趋势,而在天然花岗岩可能含有的F含量范围之内,F含量的增高将阻碍Mo、W向流体相迁移,流体介质中Na／K（摩尔比）的变化对Mo和W的分配系数没有明显影响,表明体系碱质（Na或K）类型不是Mo和W在流体／熔体相间分配的主要影响因素。     

The Impact of Aqueous Medium on Gas Yields and Kinetic Behaviors of Hydrogen Isotope Fractionation during Organic Matter Thermal Degradation

In order to recognize the impact of aqueous medium on gas yields and the kinetic behaviors of hydrogen isotope fractionation during organic matter thermal degradation, the gold tube apparatus was used to conduct thermal simulation experiments by mixing the nC18 with the water of different properties and proportions. The yields of natural gas components, the relation among hydrogen isotope composition of each component and the experimental temperatures vs. heating rates have been obtained, and the results indicate that under the higher temperature conditions, the hydrous experiment has obvious impact on gas yields, such as when more water is added, higher amounts of hydrocarbon gas and H2 are yielded, and the existence of water obviously prolongs the temperature interval with the existence of heavy hydrocarbon gas. It also shows that the hydrogen isotope of hydrocarbon gas generated by the hydrous experiment is obviously lighter than that generated by the anhydrous experiment, and with the increasing amount of added water, the δD value of hydrocarbon gas gradually decreases. Compared with gas yields, the variation of δD value is more sensitive to aqueous medium in the thermal simulation experiment. However, compared with the amount of the added water, the aqueous medium property has smaller impact on the gas yields, which still shows the inherit effect on hydrogen isotope composition of aqueous medium. Through the model simulation and the isotope fractionation behavior analysis, it is validated that the hydrogen isotope fractionation process can be well described by the chemical kinetic model. The difference of reaction fraction of normal methane and D-containing methane is large, corresponding to the same activation energy. The content of normal methane is obviously higher in the part with lower activation energy, while the content of D-containing methane is higher in the part with higher activation energy. Therefore, it will result in larger hydrogen isotope fractionation amplitude, and the δD values will be more sensitive to the variation of maturity. Meanwhile, the average activation energy of methane generation from nC18 in the hydrous experiment is higher than that in the anhydrous experiment, and the greater amount of added water, the larger the average activation energy of methane generation reaction. This has laid foundation for its exploratory application in the study of gas reservoir forming history and the gas-source correlation, which indicates the research and application prospects in this orientation.     

热磁技术方法条件实验及相关问题

热磁技术方法条件实验主要包括焙烧粒度、温度、时间及热磁组分分离等实验内容,对各技术环节进行了设计、试验,确立了一套合理的样品焙烧、热磁组分分选的技术流程,并就实验中遇到的一些问题进行了分析探讨,为热磁地球化学方法的引入、推广提供了基础技术支持。