无因次等孔隙体积配产配注方法研究与应用

为了改善注水开发效果差的情况,对无因次等孔隙体积配产配注理论改善注水开发效果的方法进行了研究。针对高30断块油藏,分别使用无因次等孔隙体积法和传统的kh值计算其合理配产配注量,接着采用油藏数值模拟进行了无因次等孔隙体积配产配注法和传统的kh法在该断块油藏注水开发的对比预测。结果表明,相比kh法,无因次等孔隙体积法使油田有效开发时间延长27年,采出程度由22．46％提高到27．94％,提高5．48％,增产原油19．88×10^4t。所以采用无因次等孔隙体积配产配注法比传统kh配产配注法更加符合油藏实际,使有效开发年限更长,最终水驱采收率更高。该方法可以为同类注水开发油藏的合理配产配注提供参考。     

地幔流体及其成矿作用

高灵敏度、高精密度、低检出限、多元素同时检测并可提供同位素组成比值信息的等离子体质谱与高空间分辨率的紫外激光采样技术结合 ,可定量地测定单个流体包裹体中常、微量元素含量 ,为成矿流体的研究提供了一个新的研究手段。文中简要地介绍了激光剥蚀电感耦合等离子体质谱 (LA ICP MS)分析仪器的发展 ,结合实验室的研究工作 ,就激光剥蚀池的设计、单个流体包裹体的剥蚀方法、元素的分馏效率、定量校正技术及其在成矿成因物理化学机制研究中的应用等进行评述 ,并阐述单个流体包裹体元素组成的LA ICP MS分析技术存在的局限和发展趋势。     

中国2000年水足迹的初步计算分析

水足迹是指在一定的物质生活水平下,维持一定人群消费所需要的总的水资源数量.由于考虑了社会经济系统中虚拟水的消费量,水足迹真实地反映了一个地区人类消费对水资源的占有情况,为水资源科学管理提供了非常有用的信息.引入水足迹的概念和计算方法,分析了中国各省2000年人均水足迹.结果表明,西北部省份水足迹较大,南部和中东部省份水足迹较小,青海省水足迹最大,其值为935.75 m3·(人·a)-1,广西水足迹最小,其值为466.31 m3·(人·a)-1.全国平均水足迹为601 m3·(人·a)-1.分析了几个典型省份水足迹的构成,并探讨了降低水足迹以缓解水资源压力的几条途径.     

黏土不透水层确定及水压力分布规律试验研究

工程上将满足一定条件下的黏土层介质视为隔水层。通过模型试验的方法,对黏土层为不透水层的确定方法以及黏土层内部的水压力分布规律进行了研究。通过试验分析得出了某给定黏土层为隔水层的特定条件：即找出了黏土层的厚度、渗透系数及层上水头高度三者的关系和给定黏土层的起始水力坡降,得到了黏土层内已渗透水部分的水压力分布规律。试验结果对工程实际具有一定的指导作用。     

山东东营凹陷新近系地层水化学场特征及油气意义*

为揭示中国东部新生代浅部地层水化学场响应及油气意义,在东营凹陷新近系试油资料统计分析的基础上,对东营凹陷新近系的水化学场特征进行了研究。结果表明,与古近系沙河街组三段与四段封闭性滞留型水化学场特征明显不同,新近系馆陶组和明化镇组总体以低矿化度的NaHCO₃型地层水为主体（矿化度小于5 g/L）;其水化学剖面宏观上具有一定的分带性,大致可以划分为3种水文环境：强开放性水文流畅带(0～0.7km)、弱开放性水文阻滞过渡带(0.7～1.1km)和相对封闭性水文迟缓带(＞1.1km);在不同的水化学作用带,水岩作用和地层水矿化度、离子和离子参数具有不同的响应;东营凹陷新近系Ca相对海水富集(Ca_excess)和Na相对海水亏损(Na_deficient)的定量关系Ca_excess≤0.2367Na_deficient-0.6261,显示出明显的钠亏损特征,钙富集量也远低于世界盆地流体线(Basin Fluid Line,BFL;Davisson,1996)所代表的富集量,与同凹陷古近系沙三、沙四段封闭性水文地质系统中钠相对富集特征也明显不同,反映了地层水蒸发浓缩作用弱及与地表水交替活动强烈的水文地质作用特征;地层水化学场的分布影响了原油密度和天然气的分布规律,使得东营凹陷新近系原油密度与天然气相对密度在剖面上的分布规律与地层水分有良好的一致性。     

Understanding of the Common Land Model performance for water and energy fluxes in a farmland during the growing season in Korea

The Common Land Model (CLM) is one of the most widely used land surface models (LSMs) due to the practicality of its simple parameterization scheme and its versatility in embracing a variety of field datasets. The improved assessment of land surface water and energy fluxes using CLM can be an alternative approach for understanding the complex land–atmosphere interactions in data‐limited regions. The understanding of water and energy cycles in a farmland is crucial because it is a dominant land feature in Korea and Asia. However, the applications of CLM to farmland in Korea are in paucity. The simulations of water and energy fluxes by CLM were conducted against those from the tower‐based measurements during the growing season of 2006 at the Haenam site (a farmland site) in Korea without optimization. According to the International Geosphere–Biosphere Programme (IGBP) land cover classification, a homogeneous cropland was selected initially for this study. Although the simulated soil moisture had a similar pattern to that of the observed, the former was relatively drier (at 0·1 m³ m^?3) than the latter. The simulated net radiation showed good agreement with the observed, with a root mean squared error (RMSE) of 41 W m^?2, whereas relatively large discrepancies between the simulation and observation were found in sensible (RMSE of 66 W m^?2) and latent (RMSE of 60 W m^?2) heat fluxes. On the basis of the sensitivity analysis, soil moisture was more receptive to land cover and soil texture parameterizations when compared to soil temperature and turbulent fluxes. Despite the uncertainty in the predictive capability of CLM employed without optimization, the initial performance of CLM suggests usefulness in a data‐limited heterogeneous farmland in Korea. Further studies are required to identify the controls on water and energy fluxes with an improved parameterization. Copyright © 2010 John Wiley & Sons, Ltd.     

反循环气动潜孔锤的研制及应用

针对目前正循环气动潜孔锤施工中存在的若干问题,开发研制了新型派生系列反循环气动潜孔锤,经过在水井、砂金勘探施工中的应用,取得了非常显著的效果,为我国采用此种工艺方法施工提供了一种新的产品,使得这项技术更加完善,更加成熟,应用领域更加广阔。     

三峡澎溪河水-气界面温室气体模型估算及其敏感性分析

模型估算法是水-气界面温室气体通量监测的主要方法,所得成果也不胜枚举.然而监测过程中诸多环境因素会对最终结果产生不确定的影响.结合三峡库区澎溪河背景条件,利用模型估算法进行水-气界面温室气体通量(以CO_2为例)估算,并且采用修正Morris筛选法尝试分析模型估算法中各个参数对温室气体扩散通量(以CO_2为例)的局部敏感性.研究结果表明:利用模型估算法计算三峡澎溪河流域水-气界面温室气体通量具有较高的可行性和可靠性;风速、水温以及pH值会对监测结果产生影响,且风速越强、水温越高、pH值越小,CO_2扩散通量就越大;pH值是高灵敏参数,风速和水温是灵敏参数.在三峡库区澎溪河监测过程中更应注意pH值的精确性,每次采样前需校正仪器.     

OBSERVATIONS ON THE HINTEREIS AND VERNAGTFERNER

Abstract

Adequate water resources management at the basin level needs quality downscaling of climate change scenarios for application to impact assessment and adaptation work. This study evaluates the ability of a regional climate model (RegCM3) to simulate the present-day climate and regional water balance over the Niger River Basin (NRB). RegCM3 gives a good simulation of the NRB hydroclimatic features. The mean bias error for monthly temperature is 1.5°C, 0.3 mm d^-1 for rainfall, and 0.4 mm d^-1 for runoff. Moderate to high correlations (0.66–0.95) were found between the modelled and the observed variables. RegCM3-based water cycling indices were not statistically different from the observation. Seasonal moistening efficiency (m) ranges between 19% and 37%; 66% of the available atmospheric moisture over NRB precipitates between June and September, of which 21% originates from local evaporation. The result suggests that the moisture sink period is July to October with very high precipitation efficiency over the basin. The model reproduces the hydroclimatology of the NRB and hence is a suitable tool for further studies relating to the assessment of climate change impacts on river basin water systems.

Editor Z. W. Kundzewicz; Associate editor D. Hughes     

River discharge,land use change,and surface water quality in the Xiangjiang River,China

To compare the impacts of river discharge on the surface water quality of the Xiangjiang River in China, 12 surface water quality parameters recorded at 31 sampling sites from January 1998 to December 2008 along the river and its main tributaries were analyzed. Significantly higher concentrations of total nitrogen, ammoniacal nitrogen, and total phosphorus, and biochemical oxygen demand were observed during low‐flow periods than during high‐flow periods, implying a higher risk to local residents drinking untreated water during low‐flow periods. Pollution indexes, including the inorganic pollution index and integrated pollution index (IPI), were negatively related to impervious surface area (ISA) and cropland area (CLA) when ISA (CLA) was less than 160 (3000) km². However, the relationship was positive when ISA (CLA) was larger than 160 (3000) km², which provided a reasonable explanation for the observed spatial patterns of water quality. Distinct increasing temporal trends for two kinds of pollution indexes were also found. The annual ISA was significantly related to the rapid degradation of water quality from 1998 to 2008, with correlation coefficient (r) values of 0.816 (p = 0.002) and 0.711 (p = 0.014) for the organic pollution index (OPI) and IPI, respectively. However, annual rainfall was negatively correlated with the two indexes with r values of 0.785 (p = 0.002) and 0.448 (p = 0.093) for OPI and IPI, respectively. Our study highlights that decision makers should be more aware of recent increases in the pollution of the Xiangjiang River, especially at downriver sites and during low‐flow periods. Copyright © 2013 John Wiley & Sons, Ltd.