西藏冈底斯驱龙斑岩型铜钼-矽卡岩型铜矿成矿体系:辉钼矿Re-Os同位素年代学证据

在西藏冈底斯驱龙斑岩型铜钼矿床南部2 km和东南4 km处分别发育知不拉和浪母家果矽卡岩型铜矿床,它们与驱龙斑岩矿床空间上相邻。其中,浪母家果矽卡岩型矿床中辉钼矿Re-Os等时线年龄为(17.11±0.55)Ma,表明其形成时间与驱龙和知不拉相近。综合冈底斯成矿带区域成矿作用和典型矿床的最新研究成果认为,驱龙斑岩型铜钼矿床-知不拉矽卡岩型铜矿-浪母家果矽卡岩型铜矿系同一期岩浆热液成矿作用的产物,构成一个完整的斑岩-矽卡岩型成矿体系。因此,区域找矿时,应注意在斑岩型铜矿外围寻找高品位矽卡岩型矿床;同时,在具有矽卡岩型矿化的勘查区内应注意寻找深部可能存在的斑岩型铜钼矿床。     

湘中邵阳凹陷二叠系龙潭组页岩含气性特征与气体成因

针对湘中地区邵阳凹陷二叠系龙潭组页岩气资源评价,部署了页岩气调查井2015H-D3井,通过现场解析气等相关样品测试定量分析了页岩含气性特征及其影响因素,并借助气体稳定碳、氢同位素对气体成因进行了初步探讨.结果显示:钻深从150m处开始出现气显,随深度增加,解析气含量呈现先逐渐增大后减小的趋势,300～425m为最高含气层段,累计厚度达125m,现场解析气含量全部大于0.5m^3/t,最高为2.35m^3/t,平均1m^3/t,证实龙潭组具良好页岩气资源潜力.当埋深大于300m时,解析气含量受有机碳含量控制,而埋深小于300m时,解析气含量并不简单受控于有机碳含量,而是受到保存条件的严重制约.气体碳、氢同位素测试显示δ13C1介于-29.87‰～-36.82‰,平均为-34.52‰,δ¹³C_2介于-29.45‰～-31.02‰,平均为-30.09‰,δD1介于-131.20‰～-178.40‰,平均为-167.40‰.气体成因分析揭示龙潭组页岩气属热成因中的油型气类型.基于沉积现象判断龙潭组为海陆过渡相环境,与氢同位素判断结果基本吻合,但目前还无法确定具体判定区间.     

冷平流强迫背景下攀枝花市一次雷暴过程综合分析

基于欧洲中心ERA5再分析资料、NCEP再分析资料、卫星和雷达资料以及MICAPS气象资料,运用天气学方法对2020年4月13日四川省攀枝花市发生的冷平流强迫类雷暴天气过程进行综合分析。结果表明：本次雷暴过程混合了冰雹、短时强降水、雷暴大风等多种天气,其主要影响系统为200 hPa高空急流、500 hPa高原槽、700 hPa切变线和西南急流以及地面辐合线。200~500 hPa西北干冷空气顺高原槽南下对本次过程起主导作用,弱的700 hPa西南急流为本地输送了水汽和不稳定能量,中低层切变线和地面辐合线促进了暖湿气流的辐合抬升。此外,“上冷下暖”的气层结构、中低层较强的垂直风切变、气流的低层辐合与高层辐散、适宜的0℃和-20℃层高度、较强的CAPE和K指数、较大的700~500 hPa温度垂直递减率等因素也是本次雷暴天气过程发生发展的关键。     

A simplified method for analyzing the fundamental frequency of monopile supported offshore wind turbine system design

Preliminary design of offshore wind turbines requires high precision simplified methods for the analysis of the system fundamental frequency. Based on the Rayleigh method and Lagrange's Equation, this study establishes a simple formula for the analysis of system fundamental frequency in the preliminary design of an offshore wind turbine with a monopile foundation. This method takes into consideration the variation of cross-section geometry of the wind turbine tower along its length, with the inertia moment and distributed mass both changing with diameter. Also the rotational flexibility of the monopile foundation is mainly considered. The rigid pile and elastic middle long pile are calculated separately. The method is validated against both FEM analysis cases and field measurements, showing good agreement. The method is then used in a parametric study, showing that the tower length Lt, tower base diameter d0, tower wall thickness δt, pile diameter db and pile length Lb are the major factors influencing the fundamental frequency of the offshore wind turbine system. In the design of offshore wind turbine systems, these five parameters should be adjusted comprehensively. The seabed soil condition also needs to be carefully considered for soft clay and loose sand.     

综合气象观测系统业务运行综合评估技术研究

综合气象观测网运行监控系统是我国气象探测设备运行保障的实时业务系统.文章以装备技术保障工程理论为基础,按可靠性、维修性、保障性、业务性、经济性等多个范畴,从装备运行状态、装备性能参数、探测数据质量、通信传输、供应保障、维护维修等方面,提出了针对我国综合气象观测网中各类设备的运行、维护和保障等工作进行综合评估的技术方法,...     

黔中开阳磷矿沉积区震旦纪陡山沱期定量岩相古地理重建*

磷矿的沉积和成矿与成磷期的古地理环境密切相关。本文首次将“单因素分析多因素综合作图法”运用于开阳地区震旦纪陡山沱期沉积型磷矿床的成矿分析和找矿预测上。通过选取陡山沱组及其各岩性段的地层厚度及磷矿层品位作为单因素,确定开阳地区古地理格局;结合地层岩性组合、沉积特征等多因素综合分析,恢复开阳地区成矿期沉积环境,编制陡山沱早期、中期和晚期岩相古地理图。根据定量岩相古地理重建结果,认为开阳地区陡山沱期整体处于南靠黔中古陆、地势南高北低、局部地形复杂的滨岸海滩沉积环境,其中临滨带为最有利成矿带,局部地形变化也会造成矿层厚度、品位的差异;矿层受到的水流冲蚀、暴露、淋滤及再沉积作用是导致矿石品位显著提升的关键因素。通过定量岩相古地理学精确还原成矿期古地理环境、解析多期次沉积成矿过程,对于确定磷矿控矿因素、构建找矿预测模型和预测矿体空间位置具有重要意义。     

北山方山口地区典型蚀变岩矿的光谱特征研究

利用遥感数据提取蚀变矿物的基础就是熟知不同岩石和矿物的光谱吸收特征,尤其是要掌握不同物理、化学环境下岩石和矿物的光谱变异特征。北山方山口地区地质演化历史复杂,蚀变岩石类型多样。那么不同岩石和矿物的光谱吸收特征有何特点,跟遥感影像上对应端元的光谱曲线是否吻合呢?另外,何种采集条件下获取的地面岩矿光谱最具代表性呢?就上述问题,笔者对方山口试验区内典型岩矿的光谱特征展开研究。实验结果表明：原位露头岩石样品和原地碎石样品与岩石标样在光谱曲线特征上最为接近,样品表层的沙漠漆对特征峰的吸收深度有一定影响。而岩矿的可见光-近红外光谱主要取决于矿物的成分和分子结构,岩石的物理破坏作用不会导致特征谱带的变化。各蚀变岩石影像端元光谱曲线与其实测光谱曲线所反映的曲线形态和吸收峰位置基本一致,但不同蚀变岩石的光谱曲线相似性很高,因此仅利用遥感影像难以准确识别出蚀变岩石的类别,但利用遥感图像提取含Fe2+、Fe3+、OH-、CO32-离子或离子基团的蚀变矿物具有较好的可行性。这对遥感蚀变矿物信息的提取起到了理论指导作用。     

基于HYCOM再分析数据研究琉球海流的形成与起源

The origin of the Ryukyu Current(RC) and the formation of its subsurface velocity core were investigated using a 23-year(1993–2015) global Hybrid Coordinate Ocean Model(HYCOM) dataset. The volume transport of the RC comes from the Kuroshio eastward branch(KEB) east of Taiwan and part of the North Pacific Subtropical Gyre(pNPSG). From the surface to 2 000 m depth, the KEB(p-NPSG) transport contributes 41.5%(58.5%) to the mean total RC transport. The KEB originally forms the subsurface velocity core of the RC east of Taiwan due to blockage of the subsurface Kuroshio by the Ilan Ridge(sill depth: 700 m). Above 700 m, the Kuroshio can enter the East China Sea(ECS) over the Ilan Ridge, meanwhile, the blocked Kuroshio below 700 m turns to the right and flows along the Ryukyu Islands. With the RC flowing northeastward, the p-NPSG contribution strengthens the subsurface maximum structure of the RC owing to the blockage of the Ryukyu Ridge. In the surface layer, the pNPSG cannot form a stable northeastward current due to frequent disturbance by mesoscale eddies and water exchange through the gaps(with net volume transport into ECS) between the Ryukyu Islands.     

Porosity and wave velocity evolution of granite after high-temperature treatment: a review

The evolution of porosity and changes in wave velocity in granite after high-temperature treatment has been experimentally investigated in different studies. Statistical analysis of the test results shows that there is a temperature threshold value that leads to variations in porosity and wave velocity. At a temperature that is less than 200 °C, the porosity of granite slowly increases with increases in temperature, while the wave velocity decreases. When the temperature is greater than 200 °C (especially between 400 and 600 °C), the porosity quickly increases, while the wave velocity substantially decreases. The temperature ranges of room temperature to 200 and 200–400 °C correspond to the undamaged state and the micro-damage state, respectively. The results confirm that there is an important link between the variations of physical and mechanical properties in response to thermal treatment. By studying the relationships among rock porosity, wave velocity and temperature, this provides the basis for solving multi-variable coupling problems under high temperatures for the thermal exploitation of petroleum and safe disposal of nuclear waste.