CG型全套管冲抓成孔设备及施工工艺

简述了国家重点新产品“CG型全套管冲抓成孔设备”的研发历程,以及设备的组成、特点和参数;分析了全套管灌注桩、咬合桩、置换桩的施工工艺及特点;总结了该设备的应用实例和发展前景。     

全回转套管钻机和全套管施工工艺的研究

简述了全回转套管钻机的国内外研究现状和应用领域。主要介绍了QHZ-2000型全回转套管钻机的设计结构、技术参数、关键技术。分析了全回转套管柱、冲抓斗、清障钻具的结构原理和应用特点。总结了全回转套管灌注桩、全套管清障和全套管拔桩的施工流程、机理和适用范围。研究填补了国内自主研发全回转套管钻机的空白,是一种适合在城市施工的绿色环保、广谱安全的无循环桩基施工新设备和新技术。     

全套管旋挖钻进技术及其应用

介绍了全套管旋挖钻进技术应用范围,并论述了几种不同形式的旋挖全套管钻进用设备及工法、套管的结构性能以及其相应的施工工艺。     

CG型全套管搓管成孔设备的研究和应用

简述了搓管机的国内外发展状况;介绍了CG型全套管设备的组成和参数、工作原理和技术特点;详细分析阐述了搓管机在国内外的应用情况和应用效果。     

CGJ1500新型全套管设备研制和试验成功

国土资源部勘探技术研究所最新研制的两台套“CGJ1500全套管冲抓成孔设备”(包括全套管钻机、液压泵站、套管和冲抓斗等)于2004年10月26日至11月3日在杭州进行了实钻生产试验，试验获得圆满成功。     

我国钻掘设备的发展趋势及几种最新机型

概括地介绍了近年来我国钻掘设备的最新进展与应用情况，主要从钻掘设备的基本性能和技术原理及基本结构等方面进行介绍。介绍的主要设备有全液压岩心钻机系列、轻便设备系列、地源热泵钻机、浅海及滩涂取样钻机、全套管钻机等。     

无循环钻进工艺在易坍塌、缩孔和卵砾石地层的应用

无循环钻进工艺是我国现在和将来桩孔施工领域的主要施工工艺之一,通过对无循环钻进工艺及器具的研究,解决了我国桩孔施工在无水地区和岩石层、卵砾石、淤泥、流沙层进行桩孔钻进的难题,大大减少了孔内事故,提高了无循环钻进工艺在复杂地层中钻进的效率。根据我国目前全套管施工设备少,而旋挖钻机保用量已超过3000多台的现状,通过新的钻具和工艺的结合,用旋挖钻进工艺与全套管跟管钻进、全套管护壁钻进等特殊工法和特殊钻具的配套施工,解决了全套管钻进的成本问题,推动了无循环钻进工艺、机具及全套管配套技术的研究。     

QHZ-2000型全回转套管钻机创卵砾石地层钻进最深记录——在卵砾石层钻进直径1200mm、深度达61.7m

2本刊讯 2014年5月27日,中国地质科学院勘探技术研究所依托科技部专项资金项目最新研制的QHZ-2000型全回转套管钻机设备,在北京市海淀区慈寿寺地铁站旁的某房地产工程工地,成功完成首根Ф1200 mm、深度61.7 m的全套管灌注桩,这是国内采用全回转钻机在卵砾石层施工的最深全套管灌注桩。     

中国地质科学院勘探技术研究所

目前国内外对环保及成桩质量越来越重视。许多基桩工程都要求进行全套管钻进。各旋挖钻机厂家相继研制出了大功率的旋挖钻机,使得全套管钻进工艺可以按以下程序完成：旋挖钻机由动力头依次带动花管驱动器、套管、套管靴进行下管,     

快速下套管抽采瓦斯技术在新庄孜煤矿中的应用

阐述了快速下套管抽采瓦斯技术原理、施工设备、施工工艺及注意事项。并介绍了快速下套管抽采瓦斯技术在安徽淮南新庄孜矿松软突出煤层顺层抽采瓦斯钻孔中的应用情况。     

Tectonics and oil and gas potentials of the Kolyma and Primor'ye lowlands and adjacent shelves

The impact of gigantic meteorites momentarily creates extremely high pressures and temperatures, leading to the formation of distinctive objects — impact breccias and impactites — at the points where they fall. The Zhamanshin crater is one such place. This annular structure has a diameter of about 10 km, contoured by a low rim made up of a body of shattered Paleozoic rocks thrown out from the ring's center, from depths exceeding 100 - 200 m. Among these breccias have been found pieces and lenticular bodies of remelted rocks — impactites, called zhamanshinites. These thermally altered rocks from a series ranging from baked clays to cinder-like, partly recrystallized substances, glass, and black drops and spattered droplets (up to 1 - 5 cm) of isotropic glass that undoubtedly hardened as they fell through the air. The refused neogenic substances formed by selective evaporation are characterized by a considerable deficit of K and Na, excess Al₂O₃ and SiO₂, a lack of H₂O, and a sharp predominance of Fe⁺² over Fe⁺³. Their characteristic shape and distinctive structure and composition suggests that these remelted droplets are tektites, which were called irgizites when first found in the USSR. Their occurrence in the meteorite crater confirms the idea of a genetic unity between tektites and impactites. Selective evaporation of the more volatile elements is characteristic of the surfaces of small planets lacking an atmosphere, but is not characteristic of the earth's surface. The processes and substances occurring at the impact points of gigantic meteorites are therefore unique on the earth, but highly typical of the surfaces of the Moon, Mars, Mercury, and other relatively small celestial bodies.     

RS和GIS技术集成及其应用

本文简要地介绍了ＲＳ（遥感图像处理系统）和ＧＩＳ（地理信息系统）技术及其集成的基本概念和方法。讨论了ＲＳ和ＧＩＳ技术及其集成的内在涵义、相互关系,认为ＲＳ是ＧＩＳ重要的外部信息源,是其数据更新的重要手段,尤其对于全球性的 地理动力学分析,更必须有ＲＳ所提供的覆盖全球的动态数据与ＧＩＳ的结合。反之,ＧＩＳ则可以提供ＲＳ所需要的一些辅助数据,以提高ＲＳ图像的信息量和分辨率,同时,ＧＩＳ可以将实地调查所     

Partition of magnesium and iron between Olivine and spinel,and between pyroxene and spinel

Partition of Fe²⁺ and Mg between coexisting (Mg, Fe)₂SiO₄ spinel and (Mg, Fe)SiO₃ pyroxene was investigated at pressures 80 and 90 kbar and at temperatures 840 and 1050° C, using tetrahedral-anvil type of high pressure apparatus. Olivine-spinel solid solution equilibria in the system Mg₂SiO₄-Fe₂SiO₄ were discussed in the light of the partition reaction. Partition of Fe²⁺ and Mg in both olivine-spinel and pyroxene-spinel systems can not be regarded as that between ideal solid solutions. By applying the simple solution model for the partition of Fe²⁺ and Mg, sign of the heat of mixing was estimated to be positive for all olivine, spinel and pyroxene. Relative concentration of Fe²⁺ in spinel in the pyroxene-spinel system is likely to cause some change in the chemical composition of modified spinel () or spinel () in the transition zone of the mantle. A considerable change is also expected in the transition pressure of to ( + ) and ( + ) to .Presented at the symposium Recent Advances in the Studies of Rocks and Minerals at High Pressures and Temperatures held in Montreal, 1972. Jointly sponsored by the International Mineralogical Association and the Commission on Experimental Petrology.     

Nano-Geology and Unconventional Oil and Gas

<正>Numerous Striking achievements have been made in micro and macro geology after the development for hundreds of years.Two trends branches of geology are divided into microcosmic nano-geology and macroeconomic astrono-geology with the enormous technology progress.The unique characteristics related to the nano-particles and nano-pores may be significant for     

Resource-based industrialization and country size: Venezuela and Trinidad and Tobago

There are scale advantages in resource-based industrialization (RBI). Trinidad and Tobago's small size meant that its RBI projects resulted in: relatively low revenue retention, heavy dependence on export markets, skilled personnel shortages and severe ‘Dutch disease’ effects. However Venezuela squandered its size advantage because its RBI strategy was over-ambitious. Instead of taking advantage of its ample scope for risk-reducing diversification, Venezuela concentrated largely on metals processing in a single location. Although it captured more backward linkage than Trinidad and Tobago it did so at high cost as a result of inefficient project execution. Worse, Venezuela's metals projects greatly exceeded its sizeable domestic demand, overtaxed its human resources and exacerbated existing distortions in the economy. Since poorly implemented RBI projects can overwhelm even a large developing economy, RBI is risky and should therefore only be pursued as part of a flexible, broadly-based diversification drive.     

矿物——成矿与找矿

单颗粒矿物微量元素激光原位定量分析测试数据的大量积累和研究,使矿物成为矿床地球化学研究和矿床勘查的重要示踪剂。本文重点选择磁铁矿、磷灰石、石榴子石、榍石、锆石、绿泥石和绿帘石等的原位分析研究所获得的认识,介绍单颗粒矿物成分组合及变化在矿床类型划分、成矿年龄测定、氧逸度、成矿过程与物质来源、找矿与勘探等方面的应用。不同矿床类型中普遍存在的矿物,如磁铁矿、磷灰石等的微量元素含量及组合差异,提供了矿床类型识别的标志。单颗粒矿物,特别是矿石矿物和密切共生矿物如锡石、铌钽铁矿、赤铁矿、石榴子石、方解石等的原位定年,使成矿年龄的直接准确测定成为现实。矿物中变价元素,如Fe、V、Mn、Ce、Eu含量和/或比值的变化,指示了成矿过程氧逸度及其变化特点。从矿物核部向震荡环带与边部的微量元素含量或同位素组成的变化,示踪了成矿过程中流体来源或性质的变化。斑岩和矽卡岩矿床中与成矿作用关系密切的蚀变矿物,如绿泥石、绿帘石的形成温度、特征微量元素比值,如Ti/Sr、Ti/Co、V/Ni、Mg/Sr等,与距矿床中心距离呈线性函数关系,可定量预测距矿床中心的距离,使以绿泥石、绿帘石为代表的找矿指示矿物研究迅速发展。     

自动化智能化地质岩芯钻探技术装备研发与应用

为解决5000 m地质岩芯钻探基础准则与依据缺失问题，提高钻探装备的自动化、智能化水平，启动了5000 m智能地质钻探技术装备研发工作，通过钻机装备、钻探器具研制，钻探工艺技术研究并经试验示范验证，取得多项创新成果，形成了5000 m地质岩芯钻探技术体系。通过特深孔钻孔口径与管柱规格优化研究、钻杆规格设计、装备性能参数选配，形成了5000 m地质岩芯钻探技术规范体系；基于5000 m特深孔地质岩芯钻机、孔口自动化作业装置等关键设备研制，实现了绳索取芯钻进的孔口作业全流程自动化，形成了轻量化钻机孔口管柱柔顺控制技术；基于复杂地层孔内工况判别、钻进参数优化与轨迹优化控制等技术问题研究，形成了多源信息融合的地面与孔底一体化钻进过程智能控制技术；基于高性能薄壁绳索取芯钻杆和系列小口径高效钻具研制，形成了大深度绳索取芯系列钻杆钻具技术；研发了耐高温环保型冲洗液、生物破胶废浆处理技术、“广谱型”双浆堵漏技术，形成了绿色环保型冲洗液体系与护壁堵漏技术。     

自动化智能化地质岩芯钻探技术装备研发与应用

为解决5000 m地质岩芯钻探基础准则与依据缺失问题，提高钻探装备的自动化、智能化水平，启动了5000 m智能地质钻探技术装备研发工作，通过钻机装备、钻探器具研制，钻探工艺技术研究并经试验示范验证，取得多项创新成果，形成了5000 m地质岩芯钻探技术体系。通过特深孔钻孔口径与管柱规格优化研究、钻杆规格设计、装备性能参数选配，形成了5000 m地质岩芯钻探技术规范体系；基于5000 m特深孔地质岩芯钻机、孔口自动化作业装置等关键设备研制，实现了绳索取芯钻进的孔口作业全流程自动化，形成了轻量化钻机孔口管柱柔顺控制技术；基于复杂地层孔内工况判别、钻进参数优化与轨迹优化控制等技术问题研究，形成了多源信息融合的地面与孔底一体化钻进过程智能控制技术；基于高性能薄壁绳索取芯钻杆和系列小口径高效钻具研制，形成了大深度绳索取芯系列钻杆钻具技术；研发了耐高温环保型冲洗液、生物破胶废浆处理技术、“广谱型”双浆堵漏技术，形成了绿色环保型冲洗液体系与护壁堵漏技术。     

红藻石和蓝藻石概念及分类归属的综述和修订

在分析和总结前人对红藻石和蓝藻石研究成果基础上,结合岩石薄片显微镜下观察实例,发现在以往碳酸盐岩颗粒分类中没有红藻石和蓝藻石的合适位置。鉴于红藻石重要的成因意义和造礁作用,有必要明确红藻石的概念和归属。珊瑚藻本身极易钙化,经生物矿化作用最终保存下来的珊瑚藻屑一直放在生物碎屑中,而红藻石是由非固着的珊瑚藻构成的钙质独立结核,因此也可以被划分到生物碎屑中。蓝藻石作为蓝细菌钙化作用的产物,同时鉴于蓝藻石的广泛存在,把钙化蓝细菌形成的核形石命名为蓝藻石,这一重要概念从提出到现在一直被使用。然而蓝绿藻概念已变更为蓝细菌,蓝藻石的形成与藻类无关,显然将其称作蓝菌石更加确切。因此,应将红藻石和蓝藻石分别归为生物碎屑和核形石当中,并用新的术语蓝菌石替代蓝藻石。其意义在于使红藻石和蓝藻石的概念及归属更为规范,并为碳酸盐岩颗粒的深入研究提供有益线索。