库车前陆盆地流体化学,成因与流动

库车前陆盆地寒武系－第三系流体分析显示：寒武系－奥陶系和侏罗系油田水与白垩系－第三系有所差异,前者总矿化度相对较低,为９０ｇ／Ｌ～１１０ｇ／Ｌ;相对富Ｃａ＾２＋和ＨＣＯ３＾－;后者总矿化度介于７３ｇ／Ｌ～３１０ｇ／Ｌ,主要为１３０ｇ／Ｌ～２９０ｇ／Ｌ,相对富Ｋ＾＋Ｎａ＾＋和Ｃｌ＾－;而大宛齐第三系油田水则相对富Ｃａ。影响水化学演化的因素包括：膏盐类、沸石类矿物溶解以及白云化作用和富镁绿泥石形成等。     

线性四叉树快速动态编码及其实现

对常规线性四叉树编码方法存在的不足进行了 分析,提出了一种在遍历栅格数据过程中直接生成四叉树的快速动态编码方法。该方法用栈代替线性表或数组,在提取格网单元后,直接检测其属性值,生成十进Ｍｏｒｔｏｎ码。将这些数据压入栈,在栈中同步地对已检测过的格网单元或结点向上层结点进行合并。当对整个栅格数据遍厍完后,栈中剩下的记录就是所需要的线性四叉树码结果。最后根据测试结果比较了动态编码方法的运行效率和内存占用     

工作面富水区探测与矿井电法——音频电透视在工作面富水区探测中的应用效果

在影响我国煤矿安全生产的诸多因素中,矿井水害占有重大比例。本文介绍了我国煤矿综采工作面富水特性,以及探测富水区常用的矿井电法及其特点,着重阐述了音频电透视方法的基本原理、工作方法和资料解释,并附以实例说明音频电透视在工作面富水性探测方面的应用效果。      

大兴安岭北东段森林覆盖区岔路口巨型斑岩钼多金属矿床的发现过程及意义

岔路口巨型斑岩钼矿的发现是近年来大兴安岭北段森林覆盖区找矿的重大突破,其规模居中国北方钼矿之首。矿床位于伊勒呼里山南1 029高地火山机构旁侧,成矿与晚侏罗世—早白垩世以超浅成相侵入的石英斑岩、花岗斑岩及其相伴产生的隐爆作用有密切时空关系。矿体产于火山沉积岩和成矿斑岩体中,钼矿化以呈网脉状和细脉的裂隙充填形式为主,少量为大脉状和细脉浸染状;钼矿体呈隐伏穹隆状,延深巨大。热液蚀变发育、分带性明显,以硅化强烈、萤石化广泛为显著特征。矿区剥蚀程度甚低,地表大范围表现为泥化带,仅中心地带发育有弱石英绢云母化和低品位钼矿化;向深部蚀变矿化逐渐增强,矿化延深达千米。钼矿体上部共伴生有脉状铅锌银矿化。成矿同期火山岩碱质含量高,该矿床为碰撞拼接后陆内伸展构造环境中岩浆活动产物,成矿岩浆-热液体系具高氟富硫高氧化的特征,与美国的Climax钼矿较为相似。该矿床的发现和探明,为研究斑岩-脉状钼锌银成矿体系提供了范例,对区域构造-岩浆过程研究与区域找矿勘查均具有重要意义。     

超声提取-固相萃取小柱净化-气相色谱法测定土壤中14种有机氯农药

对土壤中14种有机氯农药的超声提取技术和磺化、固相萃取小柱两种净化方法进行系统研究。结果表明,超声提取节省提取时间,提高分析效率;磺化法和固相萃取小柱法都有净化作用,但磺化法使样品中的艾氏剂、狄氏剂和异狄氏剂全部损失;固相萃取小柱净化当丙酮-正己烷淋洗液体积比为1∶9、淋洗液收集8 mL时回收率>90%,干扰最小。方法检出限为0.63~2.59μg/kg,精密度(RSD,n=7)为1.17%~14.66%,基体加标平均回收率为82.78%~106.94%。方法用于生态地球化学调查评价批量土壤样品的实际分析,检测结果满足评价工作需要。     

TRMM降水率资料的三维变分同化及其对"杜鹃"(0313)台风预报的改进

在GRAPES(Global and Regional Assimilation and Prediction Enhanced System, 全球/区域同化预报系统)三维变分同化系统的基础上, 用改进的郭晓岚对流参数化方案作为观测算子, 来同化TRMM(Tropical Rainfall Measuring Mission, 热带降水监测计划)卫星反演的降水率资料.单点试验表明该方案通过调整背景场的水汽辐合和辐散的垂直结构, 使得同化后观测算子计算的降水率更接近实况.对台风 "杜鹃" (0313)的同     

台湾岛对气流扰动的影响

本文根据一个三维气流过山的模型,用数值快速傅里叶变换方法,讨论理想东北季风气流经过台湾岛产生的扰动气压场、扰动垂直速度场和水平流场.经与实际东北季风下台湾岛的气候特征进行比较,结果令人满意.     

The Role of β-effect and a Uniform Current on Tropical Cyclone Intensity

A limited-area primitive equation model is used to study the role of the β-effect and a uniform current on tropical cyclone (TC) intensity.It is found that TC intensity is reduced in a non-quiescent environment compared with the case of no uniform current.On an f-plane,the rate of intensification of a tropical cyclone is larger than that of the uniform flow.A TC on a β-plane intensifies slower than one on an f-plane.The main physical characteristic that distinguishes the experiments is the asymmetric thermodynamic (including convective) and dynamic structures present when either a uniform flow or β-effect is introduced.But a fairly symmetric TC structure is simulated on an f-plane.The magnitude of the warm core and the associated subsidence are found to be responsible for such simulated intensity changes.On an f-plane,the convection tends to be symmetric,which results in strong upper-level convergence near the center and hence strong forced subsidence and a very warm core.On the other hand,horizontal advection of temperature cancels part of the adiabatic heating and results in less warming of the core,and hence the TC is not as intense.This advective process is due to the tilt of the vortex as a result of the β-effect.A similar situation occurs in the presence of a uniform flow.Thus,the asymmetric horizontal advection of temperature plays an important role in the temperature distribution.Dynamically,the asymmetric angular momentum (AM) flux is very small on an f-plane throughout the troposphere.However,the total AM exports at the upper levels for a TC either on aβ-plane or with a uniform flow environment are larger because of an increase of the asymmetric as well as symmetric AM export on the plane at radii ＞450 km,and hence there is a lesser intensification.     

滞后平均法（LAF）在热带气旋路径集合预报中的应用

本文用-正压模式，采用滞后平均法(LAF)对2000年热带气旋进行路径集合预报试验，并与基于热带气旋初始结构扰动的集合预报方法进行了比较分析，结果表明LAF方法对热带气旋路径预报具有较好的改进作用。但LAF的集合预报效果受模式本身误差的影响，在完美模式的假设下，LAF集合预报相对于控制试验的技巧水平20～40％。     

Sensitivity study of the seasonal mean circulation in the northern South China Sea

A study of the circulation in the northern South China Sea （SCS） is carried out with the aid of a three-dimensional, high-resolution regional ocean model. One control and two sensitivity experiments are performed to qualitatively investigate the effects of surface wind forcing, Kuroshio intrusion, and bottom topographic influence on the circulation in the northern SCS. The model results show that a branch of the Kuroshio in the upper layer can intrude into the SCS and have direct influence on the circulation over the continental shelf break in the northern SCS. There are strong southward pressure gradients along a zonal belt largely seaward of the continental slope. The pressure gradients are opposite in the southern and northern parts of the Luzon Strait, indicating inflow and outflow through the strait, respectively. The sensitivity experiments suggest that the Kuroshio intrusion is responsible for generating the imposed pressure head along the shelf break and has no obvious seasonal variations. The lateral forcing through the Luzon Strait and Taiwan Strait can induce the southwestward slope current and the northeastward SCS Warm Current in the northern SCS. Without the lateral forcing, there is the continental slope. The wind forcing mainly causes the The wind-induced water pile-up results in the southward no high-pressure-gradient zonal belt seaward of seasonal variation of the circulation in the SCS. high pressure gradient along the northwestern boundary of the basin. Without the blocking of the plateau around Dongsha Islands, the intruded Kuroshio tends to extend northwest and the SCS branch of the Kuroshio becomes wider and stronger. The analyses presented here are qualitative in nature but should lead to a better understanding of the oceanic responses in the northern SCS to these external influence factors.