青藏高原近地层低压系统移动路径及其特征

利用ECMWF 600 hPa高度场加密逐月再分析资料,分析了强、弱季风年高原近地层低压系统的移动路径及其特征。研究结果表明：低压系统于4月在青海省西南部形成,5月沿西南方向移入西藏地区,此后低压系统呈南北向波动西移,直至到达“西至点”后转向东退于10月衰减消散;强季风年低压系统中心强度总体上较弱季风年强。强季风年低压系统移动路径偏北,南北向波动振幅较小,弱季风年低压系统移动路径偏南,南北向波动振幅较大,呈“V”形分布;孕育初生阶段低压系统的形成过程在弱季风年出现“反复”现象;发展成熟阶段高原近地层低压系统南侧印度上空低压系统形成,并且强季风年较弱季风年形成时间偏迟,位置偏南;衰减消亡阶段高原近地层低压系统西北侧的高压系统减弱消散,10月东伸高压脊的脊点在弱季风年较强季风年偏东。     

一次降雪过程的中尺度模式(MM5)站点预报试验

本文利用中尺度数值预报模式(MM5)进行业务预报试验。对2002年12月6日前后一次降水过程进行应用分析，重点对阳泉市站点预报进行对比检验，得出该模式在站点有无降雪、降雪量级及降雪起报、结束时间等方面具有重要参考价值的结论，对于进一步开发降水预报精细产品有重要意义。     

基于Sentinel-3 OLCI影像的巢湖藻蓝素浓度年内动态遥感监测

藻蓝素(PC)是水体蓝藻的指示性色素,其浓度反映了蓝藻生物量,利用卫星遥感监测藻蓝素浓度年内动态对蓝藻水华的有效防控有着重要意义.根据不同季节的巢湖藻蓝素浓度实测数据与同期Sentinel-3 OLCI影像,构建机器学习回归反演模型,应用于巢湖2019年OLCI影像集上,对巢湖藻蓝素浓度的空间分布、年内变化进行遥感监测...     

新疆哈密玉西银矿床特征及成因

玉西银矿床产在中元古界长城系星星峡群黑云斜长片麻岩和藓县系卡瓦布拉克群大理岩间的韧性剪切带、韧脆性破碎带中;矿体呈脉状、透镜状和似层状;矿石由辉银矿、方铅矿、闪锌矿、黄铜矿、石英和黄铁矿等４０余种矿物组成;围岩蚀变有硅化、内铁矿化和碳酸盐化;经历热液成矿期、叠加成矿期和表生成矿期。矿质源自地壳浅部和深部岩石,介质来自地壳封存水、变质水和雨水的混合水,热源主要来自地壳圈层剪切热。在同构造、中低温、中     

延安地区大气中PM_(10)浓度水平及其变化特征

利用延安地区2006—2008年大气中可吸入颗粒物PM10的监测资料,分析了PM10的浓度水平、变化规律及其影响因素。延安地区PM10的年平均浓度为153μg/m3,超过国家环境空气质量标准年平均值2级浓度限值70μg/m3的1倍多,这与当地高的PM10区域背景水平(平均值为109μg/m3)紧密相关。PM10质量浓度水平具有明显的季节性,春季最高,冬秋其次,夏季最低。PM10日均值浓度超过国家环境空气质量2级标准的日数占全年的40%,其中春季达66%。PM10质量浓度日变化呈明显的双峰双谷型特征,与风速的日变化有明显的反相关关系。1mm降水量对PM10的湿清除能力按冬、春、秋、夏依次递减。延安地区出现西风或偏西风时PM10平均质量浓度高,但就累积影响而言,处于主导风向上的西南风要比其他方向高40~50μg/m3左右。     

CINRAD/SA(B)发射机激励放大器芯片级故障诊断流程

激励放大器是发射机射频放大链电路前级功率放大器,对雷达探测资料可靠性具有重要作用。研究芯片级故障诊断流程,一方面可以解决台站技术保障人员无法故障定位到芯片级的技术难题;另一方面,芯片级故障维修可达到大大降低维修成本的目的。雷达故障一般分为参数调整不当导致性能下降故障和器件损坏造成参数异常故障。为此,通过总结出CINRAD/SA(B)发射机激励放大器信号流程、故障树图集,在依据同步信号时序关系及关键点波形参数基础上,研究出规范化的激励放大器调试技术和方法,以及激励放大器芯片级故障诊断定位流程,并列举了依据激励放大器芯片级故障诊断定位流程,修复激励放大器集成块N8损坏,导致+8 V电源不正常,造成激励放大器无功率输出,以及激励放大器的第二级功放模块故障导致激励放大器输出功率低的两个故障的典型个例,以检验维修效果。实际应用结果表明:芯片级激励放大器故障诊断定位流程可以快速定位发射机激励放大器故障点到故障器件,方法简洁、思路清晰、操作规范,基层雷达站技术人员容易掌握;激励放大器调试技术和方法,能解决激励放大器参数调整不当导致激励放大器性能下降故障,可有效提高新一代天气雷达技术保障水平。     

Recent land cover changes on the Tibetan Plateau: a review

This paper reviews the land cover changes on the Tibetan Plateau during the last 50 years partly caused by natural climate change and, more importantly, influenced by human activities. Recent warming trends on the plateau directly influence the permafrost and snow melting and will impact on the local ecosystem greatly. Human activities increased rapidly on the plateau during the last half century and have significant impacts on land use. Significant land cover changes on the Tibetan Plateau include permafrost and grassland degradation, urbanization, deforestation and desertification. These changes not only impact on local climate and environment, but also have important hydrological implications for the rivers which originate from the plateau. The most noticeable disasters include the flooding at the upper reaches of Yangtze River and droughts along the middle and lower reaches of Yellow River. Future possible land cover changes under future global climate warming are important but hard to assess due to the deficits of global climate model in this topographically complex area. Integrated investigation of climate and ecosystems, including human-beings, are highly recommended for future studies.     

山东地区上地幔各向异性研究

通过分析山东地区数字地震台网37个宽频带地震台站的远震SKS波形资料,使用最小能量法和旋转相关法求得每一个台站的SKS快波偏振方向和快、慢波时间延迟,获得了山东地区上地幔各向异性图像.该研究区的各向异性快波方向基本呈WNW-ESE方向,快、慢波时间延迟为0.73-1.71 s.研究表明,山东地区上地幔存在明显的各向异性...     

纪念顾功叙先生百年诞辰座谈会在京举办

2008年6月25日, 由中国地震局地球物理研究所、中国地震学会、中国地球物理学会联合举办的"纪念顾功叙先生百年诞辰座谈会" 在北京国家地球观象台(原白家疃地震台)召开.     

Adsorption Mechanism and Kinetic Characterization of Bituminous Coal under High Temperatures and Pressures in the Linxing‐Shenfu Area

The majority of coalbed methane(CBM) in coal reservoirs is in adsorption states in coal matrix pores. To reveal the adsorption behavior of bituminous coal under high-temperature and high-pressure conditions and to discuss the microscopic control mechanism affecting the adsorption characteristics, isothermal adsorption experiments under hightemperature and high-pressure conditions, low-temperature liquid nitrogen adsorption-desorption experiments and CO2 adsorption experiments were performed on coal samples. Results show that the adsorption capacity of coal is comprehensively controlled by the maximum vitrinite reflectance(Ro, max), as well as temperature and pressure conditions. As the vitrinite reflectance increases, the adsorption capacity of coal increases. At low pressures, the pressure has a significant effect on the positive effect of adsorption, but the effect of temperature is relatively weak. As the pressure increases, the effect of temperature on the negative effect of adsorption gradually becomes apparent, and the influence of pressure gradually decreases. Considering pore volumes of pores with diameters of 1.7-100 nm, the peak volume of pores with diameters 10-100 nm is higher than that from pores with diameters 1.7-10 nm, especially for pores with diameters of 40-60 nm, indicating that pores with diameters of 10-100 nm are the main contributors to the pore volume. The pore specific surface area shows multiple peaks, and the peak value appears for pore diameters of 2-3 nm, indicating that this pore diameter is the main contributor to the specific surface area. For pore diameters of 0.489-1.083 nm, the pore size distribution is bimodal, with peak values at 0.56-0.62 nm and 0.82-0.88 nm. The adsorption capability of the coal reservoir depends on the development degree of the supermicroporous specific surface area, because the supermicroporous pores are the main contributors to the specific pore area. Additionally, the adsorption space increases as the adsorption equilibrium pressure increases. Under the same pressure, as the maximum vitrinite reflectance increases, the adsorption space increases. In addition, the cumulative reduction in the surface free energy increases as the maximum vitrinite reflectance increases. Furthermore, as the pressure increases, the surface free energy of each pressure point gradually decreases, indicating that as the pressure increases, it is increasingly difficult to adsorb methane molecules.