Geology,Geochemistry, and Geochronology of the Fenghuangshan Skarn‐type Copper Deposit in the Tongling Ore Cluster,Anhui Province,East China

The Fenghuangshan skarn-type Cu deposit, Tongling Ore Cluster, Anhui Province, is an important component in the Middle–Lower Yangtze River ore-forming belt. To better understand magmatism and its relationship to mineralization, we investigated geochemical features, ore-forming fluids, and geochronology of the Xinwuli intrusion and the related Fenghuangshan Cu deposit. Lithogeochemical characteristics show that the Xinwuli quartz monzodiorite is formed by mixing magma derived from upper mantle alkaline basalt that has been contaminated by crust materials. C, H and O isotopes indicate that ore-forming fluids mainly come from the magma, with minor amounts of meteoric fluids involved at the late stage. S and Pb isotopic components indicate that ore-forming materials are derived from the mantle. Molybdenite Re–Os isotopic dating yields Re–Os model ages ranging from 139.1±2.4 Ma to 142.0±2.2 Ma, with an isochronal age of 141.1±1.4 Ma, which is consistent with sensitive, high-resolution ion microprobe (SHRIMP) zircon U–Pb ages of quartz monzodiorite and granodiorite in the mining area. Dating analysis yields ages from 136.0±2.0 Ma to 143.0±2.4 Ma for the quartz monzodiorite (a weighted average of 139.4±1.2 Ma) and ages from 136.7±2.0 Ma to 145.3±2.4 Ma for granodiorite (a weighted average of 141.0±1.1 Ma).     

Discussion on establishing monitoring networks for temperature fields of shallow thermal energy in Shandong,China

In the recent decade, the construction projects related to shallow geothermal energy engineering have undergone rapid development in Shandong Province. The predominant type of these developments and applications was heat exchange through buried tubes and the main targets were residential and office buildings. However, an overwhelming majority of the completed geothermal heat pump projects lacked monitoring devices so that they were unable to comprehensively reflect the background values for the geothermal fields within the province and few researches were conducted on their influence on the geological environment. In this paper, locations for monitoring shallow geothermal energy and their validity of the monitoring point deployment were studied in view of the development and application status as well as geological background conditions of various projects located in multiple cities providing data support for analyzing the fluctuation trend and influence of large-scale shallow geothermal energy applications on the shallow geothermal and the feasibility and parameter designs of newly built systems in Shandong Province in the future.     

超临界流体热力学函数的理论计算

Ｄｕａｎ等（１９９２。１９９６）基于分子间相互作用势能模型,建立了一个适合于超临界流体的状态方程,此方程能反演出世界上几十个实验室测定的成千上万个纯组分及混合物的ＰＶＴ（压力、体积、温度）数据（温压范围：Ｐ〈２ＧＰａ,Ｔｃ〈Ｔ〈２０００Ｋ）。最近的研究发现,此方程能准确预测Ｈ２Ｏ、ＣＯ２、ＣＨ４、Ｎ２及它们的混合物在Ｔ＝１．３Ｔｃ,Ｐ＝０到Ｔ＝２０００Ｋ,Ｐ＝１０ＧＰａ这一温压范围内的压力、体积、     

含霞石翡翠的成因研究

本文针对鲜有报道的含霞石翡翠,选择了若干具有代表性的样品进行了详细的岩相学、矿物化学、拉曼光谱和X射线粉晶衍射等方面的研究,并对其成因进行了深入探讨。本研究中的样品属于翡翠中的“飘蓝花”品种,为柱粒状结构,主要由硬玉、霞石、角闪石和少量的钡铝硅酸盐等组成。硬玉可分为两个世代,早期硬玉呈自形,发育规则的环带结构,反映了成岩流体的反复补给过程。早期自形的硬玉颗粒部分被后期细粒化的硬玉±角闪石取代,反映了后期流体事件的改造作用。根据产出和成分特征可将霞石分为两种：贫钾霞石和富钾霞石,其中贫钾霞石多沿自形的硬玉颗粒边界分布,而富钾霞石充填在自形的硬玉颗粒之间。根据结构特征可以推测,含霞石翡翠主要是从成岩流体中直接结晶形成的。矿物组成及其成分特征表明该成岩流体主要富集Na、Al、Si、K、Ba以及少量的Ca、Fe、Mg等元素,微量元素则相对富集LREE、HFSE和Sr等元素。结合样品中的矿物相关系和前人的研究结果,含霞石翡翠中硬玉的结晶压力和温度范围分别被限制在0.6～1.4GPa和300～450℃之间,其中霞石代表着母岩减压后流体活动的产物。     

锂同位素地球化学在地热流体水岩反应中的应用——以川西现代富锂热泉研究为例

高温流体的化学组成及同位素特征是深部环境信息的重要载体。本文基于锂同位素地球化学方法系统分析了川西现代热泉地热流体的水化学特征、水岩反应过程、补给来源、水岩反应温度及循环深度。研究结果显示,茶洛热泉水化学相类型为HCO₃-Na型,与地表水和冷地下水的HCO₃-Ca型存在明显区别。利用锂同位素温标估算茶洛热泉的水岩反应体系温度为227.80±19.84℃（2σ,n=8）,热循环深度为7348.08m±684.26m（2σ,n=8）。茶洛热泉水化学成分主要受水岩反应控制,处于非平衡向局部平衡过度。高K、Li、F、Cl等与花岗岩岩体有关的特征元素表明水岩反应中以与花岗岩岩体反应为主导,估算其贡献率约为75.34%。矿物饱和指数的计算,显示了热泉水中的白云石、萤石、霞石、方解石处于过饱和状态;钾盐以及大多数样品的石膏、硬石膏处于不饱和状态;石盐则趋近于平衡状态。锂元素浓度及锂同位素分析结果表明,热泉中的锂元素浓度远高于地表水和冷地下水,且富集较轻的锂元素。锂同位素质量平衡拟合估算与茶洛热泉水进行水岩反应的岩体的锂元素浓度为13.43±7.04×10^-6（2σ,n=13）,δ⁷Li_rock值为1.14±2.06‰（2σ,n=13）。岩体深度约6958~7450m。研究成果对于认识地热流体的富锂机理,拓展地热型锂资源的找矿思路均具有理论意义与实际应用价值。

     

阿尔金山两侧盐湖物质来源、成钾作用及其控制因素研究

塔里木盆地东部的罗布泊盐湖和柴达木盆地西部的盐湖分别位于阿尔金山两侧,均产出有大量富钾卤水,在油气藏开采中还伴随产出富钾油田水.为探讨阿尔金山两侧盐类资源富集机制及其控制因素,综合分析了罗布泊盐湖、柴达木盆地西部盐湖以及油田水的水化学和氢氧同位素地球化学特征,发现:富钾卤水的形成除依靠地表汇入水体的蒸发浓缩作用外,罗布...     

福州市区地热井施工提高钻井速度的途径与方法

通过多年来在福州市区施工地热井的实际经验,阐述了在各种复杂的地层钻进工艺技术,以及在地热井施工过程中的护壁、清渣、防斜孔等问题作分析,提出了提高钻井速度的有效途径和方法。     

Application of Lithium Isotope Geochemistry to the Study of the Continental Geothermal System

The lithium-rich brine in salt lakes is the main raw material of the world’s lithium products, while the continental geothermal fluids with a high salinity often contain a high concentration of lithium. Continental geothermal system is the focus in the study of geothermal formation mechanism. However, less attention is paid to the system due to the complexity of lithology, and the application of lithium isotopes in this field has not been systematically recognized. The newest application and progress of lithium isotope geochemistry in continental geothermal research in recent years were discussed, the problems in this field were put forward, and future research methods and directions were expected. The study of continental geothermal fluids should attach great importance to the application of Li-B-Sr-U multi-isotopic method, and should also be combined with water-rock reaction experiments under different temperature conditions. Moreover, in the future, the research on continental geothermal system should pay more attention to the various sediment/rock lithium isotopic compositions and their spatio-temporal distribution characteristics in the regional or geothermal field’s scales, mineralogy of reservoir rock, and behaviors of lithium isotopes related to the formation of secondary minerals in the process of water-rock interaction, in order to reveal the complex process of fluid evolution in the geothermal system and provide scientific reference for the exploration, exploitation and utilization of lithium resources in the system.     

新型复合胶无粘土冲洗液研究及应用

针对松散覆盖层、强风化破碎层取心率低,岩心松散破碎,孔壁稳定性差等问题,进行了以天然植物胶为主原料的处理剂复配改性研究和冲洗液优化配方研究。主要研究方法是通过有机聚合物和无机交联剂的作用,对羟丙基瓜尔胶(GRJ)进行交联改性,以此获得新型复合胶无粘土冲洗液优化配方,并进行了现场应用。应用效果表明,该冲洗液密度低,粘度可调范围大,流变性和润滑性好,成膜护心、护壁作用强,完全满足第四系覆盖层、胶结差的砂卵石层和强风化破碎地层取心钻进要求。