纳米材料对顶管法施工触变泥浆减阻性能影响及浓度优选研究

顶管法施工具有设备少、工序简单、工期短、造价低等优点,被广泛应用于城市涵管、管廊等工程中。触变泥浆是顶管施工中重要的润滑减阻剂,其减阻性能的好坏对顶管施工特别是长距离、大断面顶管工程的顺利进行至关重要。论文使用膨润土触变泥浆为基础泥浆,质量配比为膨润土：羧甲基纤维素钠（CMC）：无水Na₂CO₃：水=80 ： 2 ： 3 ： 920,并选择纳米ZnO、纳米SiO₂、纳米Al₂O₃ 3种纳米材料作为添加剂,通过测试泥浆密度、pH、六速黏度、滤失、泥饼黏附系数和析水率等指标的变化,确定最优纳米材料类型并优选配比浓度。结果表明：浓度为2%纳米SiO₂触变泥浆的减阻性能最好,比基浆减阻性能提升约14%。本文研究成果可为提高长距离、大断面顶管施工中触变泥浆的减阻性能提供一定借鉴,对纳米材料在触变泥浆中的应用具有一定参考作用。     

提高复杂地层取心质量的一种发夹式岩心提断器及其应用

为了解决普通取心钻具在软弱、松散性复杂地层钻进中的取心问题,降低堵心、磨心概率,提高钻进回次进尺长度和岩心采取率,研制了安装在普通S95绳索取心钻具上的一种新式岩心提断器。该岩心提断器是利用女性头饰发夹卡取软弱、松散岩心,其构件由发夹、发夹座、发夹室组成,无须通过铆焊工艺固定,可在施工现场由手工借助一种发夹装配器进行组装。在某勘查区3个钻孔中进行了试验,试验孔段总进尺45.11 m,平均回次进尺1.16 m,平均岩心采取率91.42%。试验结果表明：该岩心提断器与底喷式钻头及“引心管”配合使用,能够在软弱、松散性破碎地层大幅度提高回次进尺量、岩心采取率及取心质量,解决了试验前应用普通绳索取心钻具,在钻遇松软夹石、水敏性强的复杂地层中岩心采取率不足30%的难题。用发夹卡取软弱、松散岩心的方法与类同现有技术中簧片的卡心方法比较,更具经济性、灵活性和普适性。其应用领域不限于矿山地质,还可拓展到水文地质、工程地质及环境地质的岩心钻探,具有广泛的应用前景。     

Numerical simulation of percussive drilling

This paper presents a novel dynamical model to analyze the long‐term response of a percussive drilling system. This departs from existing approaches that usually consider a single activation and bit/rock interaction cycle for the analysis of the process performance. The proposed model integrates the axial dynamics of an elastic piston and an elastic drill bit, a motion‐dependent pressure law to drive the piston, and a generalized bit/rock interaction law representative of the dynamic indentation taking place at the bit/rock interface. It applies to down‐the‐hole percussive drilling as well as top‐hole, with minor modifications. The model does not account for the angular motion or the hole cleaning, however. The model is first formulated mathematically; then, a finite‐dimensional approximation is proposed for computations. Numerical analyses of the model response, for a low‐size down‐the‐hole percussive system, follow. The period‐1 stationary response for the reference configuration is studied in detail, and parametric analyses assessing the influence on the rate of penetration of the bit/rock interaction parameters, the feed force, and the percussive activation parameters are conducted. These analyses reveal that the multiscale nature of the process is well captured by the model and recover expected trends for the influence of the parameters. They also suggest that a significant increase of the penetration rate can be achieved by increasing the percussive frequency. Copyright © 2015 John Wiley & Sons, Ltd.     

EXPLORATION ENGINEERING

正20141864 Deng Mengchun(Institute of Exploration Technology,CAGS,Chengdu 611734,China);Huang Shenghui Rock Sample Collection and Division Technologies for Air Reverse Circulation Sampling Drilling(Exploration Engineering,ISSN1672-7428,CN11-5063/TD,40(7),2013,p.73-76,80,16 illus.,5 refs.)     

Research on Formation Mechanisms of Hot Dry Rock Resources in China

As an important geothermal resource, hot dry rock(HDR) reserves have been studied in many countries. HDR resources in China have huge capacity and have become one of the most important resources for the potential replacement of fossil fuels. However, HDR resources are difficult to develop and utilise. Technologies for use with HDR, such as high–temperature drilling, reservoir characterisation, reservoir fracturing, microseismic monitoring and high–temperature power stations, originate from the field of oil and drilling. Addressing how to take advantage of these developed technologies is a key factor in the development of HDR reserves. Based on the thermal crustal structure in China, HDR resources can be divided into four types: high radioactive heat production, sedimentary basin, modern volcano and the inner–plate active tectonic belt. The prospective regions of HDR resources are located in South Tibet, West Yunnan, the southeast coast of China, Bohai Rim, Songliao Basin and Guanzhong Basin. The related essential technologies are relatively mature, and the prospect of HDR power generation is promising. Therefore, analysing the formation mechanisms of HDR resources and promoting the transformation of technological achievements, large–scale development and the utilisation of HDR resources can be achieved in China.     

庐枞LZSD-1孔科学钻孔钻头选择与使用

受中国地质科学院地质研究所的委托,安徽省地质矿产勘查局313地质队承担《华东庐枞盆地科学钻探选址预研究》3000m科学钻探工程任务,该钻孔为大陆科学钻探选址预研究项目中6个钻孔之一,主要目的是通过钻探揭示和验证与成矿有关的岩体、基底、盖层的空间分布,建立地壳结构模型和异常解释的标尺,为大陆万米钻探提供选址依据。本文主要介绍了在施工过程中的钻头选用情况,仅供同行参考。     

日照市河谷平原区成井方法对比研究

在分析日照河谷平原区水文地质条件的基础上,通过大量抽水试验数据,对比分析研究了当地民井与本次施工水井成井方法的差异,指出了当地民井在成井方法上的不足和缺陷,并提出了适宜该区的成井方法建议。     

以钻代槽勘查方法研究与应用

为解决槽、井探等传统地表揭露手段自身局限性问题及减少对环境的破坏,提出以钻代槽勘查方法研究的技术路线,总结归纳出浅钻技术方法与钻孔布孔方案,同时初步探讨了基于钻孔数据的三维地质建模方法。最后将以钻代槽方法成果在西藏等地进行了推广应用,验证了可行性和有效性。     

纳米氧化物颗粒对水基钻井液润滑性能影响的试验研究

通过在水基钻井液中添加纳米氧化物颗粒,来改善其润滑性能。选用了Al2O3、TiO2及SiO2三种纳米氧化物颗粒作为钻井液改性添加剂,利用极压润滑仪及销盘摩擦磨损实验仪研究了添加不同种类和浓度纳米颗粒氧化物对水基钻井液的润滑性能及减摩效果的影响。结果表明,所添加的3种球形纳米颗粒均有润滑减阻减摩的效果,其中SiO2颗粒的钻井液的润滑性能、滤失性能以及减摩效果都是最好的。当纳米SiO2颗粒加量为0.4%时,滤失量最小,润滑系数降低率达到15.6%,摩擦系数降低率为32.0%,磨痕轨迹平滑,减摩效果最为明显。当纳米颗粒浓度超过0.5%时,减摩效果降低,磨盘脱层磨损明显。     

河元背地区绳索取心钻进泵压计算模型的建立与应用

泵压是反映金刚石绳索取心钻进时井内作业是否正常的重要参数。为了进一步研究泵压波动变化与实际钻进作业之间的关系,指导钻进工作的快速、安全开展,结合江西相山河元背地区CUSD2井实际泵压波动数据及相关钻进资料,建立了适用于本井的循环系统压力损失计算模型。对比分析模型计算的理论泵压与实际泵压的波动变化趋势,将模型应用于实际钻进,在此基础上预测后续地层的泵压波动区域范围,发现7 MPa的泵压安全值不再适用于后续地层钻进,调整设置泵压安全值为10 MPa,并利用邻井泵压波动数据进一步验证其可靠性。适当调整修正理论模型,使其可应用于河元背以及相山地区绳索取心钻进中,指导该地区钻探工作。