含油气性水化学特征指标及评价模型研究

由灰色关联分析、模糊聚类结果，提取出反映四川盆地水化学主要特征的最有效特征指标：二叠系为三维荧光指纹图形、顶空气总烃与重烃、矿化度、Ｎａ＾＋含量、Ｃａ＾２＋／Ｃａ总、Ｍｇ＾２＋／Ｍｇ总；上三叠统为三维荧光指纹图形、顶空气Ｃ１－Ｃ３的Ｄ函数、Ｌｉ＾＋／Ｎａ＾＋、矿化度、Ｃａ＾２＋／Ｃａ总、Ｍｇ＾２＋／Ｍｇ总、Ｎａ＾＋含量。由上述特征指标及成因指标δ＾１８Ｏ、水溶甲烷δ＾１３Ｃ，构成了天然气保存的水化     

新疆巴里坤盐湖物质成分及湖体演化

新疆巴里坤盐湖是一个常年性固、液并存的硫酸盐型盐湖。盐湖卤水中含Ｎａ＋、Ｋ＋、Ｃａ２＋、Ｃｌ－、ＳＯ２－４、ＨＣＯ－３、ＣＯ２－３等主要成分，沉积物中有芒硝、无水芒硝、石膏、水钙芒硝、半水石膏、石盐等盐类矿物及碳酸盐和泥质矿物。盐湖中有大量卤虫及卤虫卵自湖中心向湖岸呈环带状分布，在成盐过程中起着重要作用。盐湖形成于第三纪，第四纪以来，曾经历２次成岩期，约自１７ｋａＢ．Ｐ．湖水多次蒸发浓缩，成岩作用加强，形成芒硝等矿产     

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。     

内蒙古合同察汁淖碱湖成碱过程中的生物地球化学作用

本文介绍了内蒙古合同察汁淖碱湖的自然环境，地质演变过程和碱湖卤水的形成演化机理。指出补给碱湖的初淡不中２（Ｃａ＾２＋Ｍｇ＾２＋）／ＨＣＯ＾－３的摩尔比值接近于１（０．９６），不利于向碱性卤水的演化。     

四川盆地西部发现罕见的富钾富硼气田卤水

四川盆地气田卤水分布广泛，品质优异［１］。近年来随着四川油气勘查开发工作的深入，于盆地西部又发现一处高品质富钾富硼气田卤水，Ｋ＋、Ｂ３＋含量分别高达５３２７ｇ／Ｌ和４９９４ｍｇ／Ｌ，远超过综合利用和单独开采品位，成为当今世界上罕见的液态钾硼资源。该气田卤水尚富含Ｉ－、Ｓｒ２＋、Ｌｉ＋、Ｂｒ－等其它有用组分，具有很高的综合开发利用价值。１富钾富硼气田卤水产出的地质背景四川盆地西部富钾富硼气田卤水矿位于四川龙门山山前带川西坳陷的一个多产层、多储盖组合之复合型气田构造上［２］，赋存于成都盐盆中三叠统雷…     

东川式铜矿地球化学研究

东川式铜矿赋矿围岩落雪组白云岩的常量元素投影点在Ａｌ２Ｏ３──ＳｉＯ２──（ＣａＯ＋ＭｇＯ）图解、ｌｇ（ＳｉＯ２／Ａｌ２Ｏ３）──ｌｇ［（ＣａＯ＋ＮａＯ）／Ｋ２Ｏ］图解和（ａｌ─ａｌｋ）──Ｃ图解上有一些非正常沉积的特点，并与红海现代热水化学沉积物有相似的特征。黄铜矿Ｃｏ／Ｎｉ值及落雪组白云岩微量元素在Ｃｏ＋Ｎｉ─Ａｓ＋Ｃｕ＋Ｍｏ＋ｐｂ＋Ｖ＋Ｚｎ图解上也反映出热水沉积特征。稀土元素研究成果表明落雪组是热水沉积与正常沉积相混合的产物。包裹体研究后认为成矿热水属Ｎａ＋（Ｃａ２＋、Ｍｇ２＋）─ＨＣＯ－３─Ｃｌ－型，并含ＣＯ、Ｈ２Ｏ（气）、ＣＯ２、ＣＨ４等气相组分，成矿温度１１０─２１４℃，成矿深度３─１５０ｍ。硫、碳、氧和氢的同位素反映了这四种组分多来自海水，成矿热水主要是下渗对流循环而受加热的海水及部分建造水。结合地质研究成果，本文提出“热水微裂隙喷溢沉积成矿”的新认识，即海水下渗，受裂谷高热流加热，萃取流经围岩中的硅质及矿质在还原环境中，沿落雪期尚未彻底固结沉积物中的微裂隙间断式喷溢沉积成矿。     

海水蒸发轨迹线及其应用

利用海水蒸发实验资料，在双对数图上，可以建立Ｃｌ＾－、Ｎ＾＋、Ｍｇ＾２＋、ＳＯ４＾２＋、Ｋ＾＋、Ｃａ＾２＋、ＨＣＯ３＾－、ｓＲ＾２＋、Ｂ＾３＋、Ｌｉ＾＋、Ｒｂ＾＋、Ｃｓ＾＋、Ｉ＾＋含量及矿化度与Ｂｒ＾－含量的关系曲线，称为海水蒸发轨迹线。它们可以和来帮助判断沉积盆地地下卤水的起源。分析沉积盆地蒸发岩卤水在后来的成岩环境中是否发生过成岩反应。     

富镉锌矿成矿流体地球化学研究:以贵州都匀牛角塘富镉锌矿为例

通过对贵州都匀牛角塘富镉锌矿包裹体的研究,发现有一定数量的有机包裹体。该矿床与密西西比河谷型（ＭＶＴ）矿床相似,均属于Ｎａ＾＋－Ｃａ＾２＋－Ｋ＾＋－Ｍｇ＾２＋－Ｃｌ＾－体系,同时,两者在成矿流体温度、盐度和密度方面也有一定差别。该矿床成矿流体组分与油田卤水相似,仅Ｃａ＾２＋和Ｍｇ＾２＋含量偏高,这可能与晚阶段的碳酸盐有关。笔者认为,成矿流体可能与麻江古油藏的油田卤水有关,正是由于油田卤水携带了Ｃｄ     

硫化物吸附金属离子的实验研究──Ⅰ类型

合成ＰｂＳ、ＺｎＳ对金属离子Ａｇ＋、Ｃｕ（２＋）、Ｃｄ（２＋）、Ｚｎ（２＋）、Ｆｅ（２＋）、Ｍｎ（２＋）、Ｍｇ（２＋）、Ｓｂ（３＋）和Ｂｉ（３＋）的吸附等温线（５０℃）研究表明，其可分为Ａ、Ｂ、Ｃ三类：Ａ类，线性型，即吸附量随吸附离子浓度增加而呈线性上升，并表现出百分之百吸附，属于此类的吸附有ＰｂＳ对Ａｇ＋、Ｃｕ（２＋）离子吸附和ＺｎＳ对Ａｇ＋、Ｃｕ（２＋）、Ｃｄ（２＋）离子的吸附；Ｂ类，朗谬尔型，即随吸附离子的浓度增加，吸附量逐趋向一饱和值，属于此类的有ＰｂＳ对Ｆｅ（２＋）、Ｓｂ（３＋）、Ｂｉ（３＋）等离子及ＺｎＳ对Ｆｅ（２＋）、Ｍｎ（２＋）、Ｍｇ（２＋）等离子的吸附；Ｃ类，反朗谬尔型，即吸附量随吸附离子浓度增加而呈非线性增加。属此类吸附的有ＰｂＳ对Ｚｎ（２＋）、Ｃｄ（２＋）等离子的吸附。合成ＰｂＳ、ＺｎＳ对金属离子的吸附量与天然方铅矿和闪锌矿中微量元素含量可类比，这意味着吸附作用可能在硫化物矿物微量元素形成过程中起着重要的作用。     

浙西石炭纪层状硅质岩地球化学特征及其意义

在浙西石炭纪地层中存在与地层整合产出的层状硅质岩。硅质岩中ＦｅＯ、ＭｎＯ、ＴｉＯ２、Ａｌ２Ｏ３、ＭｇＯ、ＣａＯ、Ｎａ２Ｏ、Ｋ２Ｏ等含量相对较高，富集Ａｓ、Ｓｂ、Ｂｉ、Ａｕ、Ａｇ、Ｇａ，Ｆｅ２Ｏ３／ＦｅＯ、ＳｉＯ２／Ａｌ２Ｏ３、ＳｉＯ２／（Ｎａ２Ｏ＋Ｋ２Ｏ）、ＳｉＯ２／ＭｇＯ比值较小，稀土元素总量低，Ｃｅ弱负异常，重稀土相对富集，包裹体富含气相组份ＣＨ４、ＣＯ２、Ｎ２、ＣＯ、Ｈ２，具热水沉积硅质岩的地球化学特征。在Ｆｅ—Ｍｎ—（Ｎｉ＋Ｃｏ＋Ｃｕ）三角图及ＳｉＯ２—Ａｌ２Ｏ３、ＳｉＯ２—Ｆｅ２Ｏ３图上均属于热水沉积硅质岩。硅质岩中硅、氧同位素也显示其热水成因之特点。硅质岩的硅同位素和稀土元素Ｃｅ／Ｃｅ※值表明本区层状硅质岩主要是在浅海环境下沉积的。硅质岩的形成温度较高，为９８℃～１５２℃     

西藏搭格架地热区天然水的水化学组成与稳定碳同位素特征

为探究青藏高原搭格架地热区地热水、湖水、河水、冰雪融水等天然水体的水化学组成及物质来源控制因子,于2014年8月对该地区进行了考察和取样。利用紫外-可见光分光光度计和ICP-OES测定了水样中各阴、阳离子含量,利用Gas Bench连接同位素质谱仪测定了水样中溶解无机碳（DIC）同位素比值。结果表明,地热水中总溶解固体（TDS）含量为977.13~1 279.50 mg/L,阳离子以K+和Na+为主,阴离子以HCO3-和Cl-为主,湖水的TDS含量为77.81~810.94 mg/L,阳离子以Na+和Ca2+为主,阴离子以HCO3-(CO32-)和SO42-为主,地热水和湖水的水化学类型为HCO3-Na型;河水和冰雪融水的各离子含量较低,水化学类型为HCO3-Ca型;地热水的DIC浓度范围为9.2~15.4 mmol/L,δ13CDIC值为-9.09‰~-0.95‰;湖水的DIC浓度为1.1~9.7 mmol/L,δ13CDIC值为-8.84‰~-0.27‰。根据水化学Gibbs分布模式图判断出区域水化学特征主要受硅酸盐岩风化控制,以钠长石和钾长石风化为主,但是地热水的水化学组分受到硅酸盐岩和蒸发盐岩共同控制。通过碳同位素比值分析对区域主要风化过程中CO2的来源示踪表明,湖区周围的硅酸盐风化其碳源主要为土壤CO2,热泉区硅酸盐水解其碳源为地球深部CO2输入。      

Major Elements in Lake Muhazi,Rwanda,East Africa

Abstract: The aim of this study undertaken at Lake Muhazi in Rwanda was to determine and analyze the major elements present in water. ?The presence of many major elements (Al, As, Ba, C, Ca, Cu, Fe, H+, K, Mg, Mn, N, P, S, Si, and Zn) was determined by spectroscopic technique. The concentrations of the elements were measured in water samples taken from three different locations of the lake from May to August 2008. The lake is polluted by water flow from mountain sides surrounding the lake. Other causes of pollution could be the use of agrochemicals in the sugar land, which surrounds the lake, and human activities near the lake. Finally, we proposed the strategies that can be applied in order to ensure good conservation of the environment and to prevent augmentation of heavy materials into the lake.     

西藏高原达则错湖泊铀富集特征

达则错位于班怒构造带的次级盆地中,湖水最深为36 m,平均深度为20.8 m。湖表水体矿化度17.27~20.27 g/L,平均为19.46 g/L,水化学类型为(CO₃+HCO₃)·SO₄-Na型,属弱度碳酸盐型咸水湖;在垂向上,由浅及深矿化度略有增加,水化学类型不变。湖表水体铀浓度264~324μg/L,平均铀浓度为286μg/L,8 m、18 m和28 m深度铀浓度平均值分别为288μg/L、290μg/L和300μg/L。湖底沉积物铀含量为2.31~4.08μg/g,平均铀含量为3.16μg/g,略高于我国东海大陆架海底沉积物的铀含量。达则错湖水的铀元素来自于周边岩体和地层,通过河水迁移到湖泊中。在河口混合带,铀酰离子部分吸附于悬浮物上,到湖区以碳酸铀酰的形式存在于水体中,沉淀于湖底的悬浮物铀含量没有明显增加。     

Effects of land-based sources on water quality in the Omerli reservoir (Istanbul,Turkey)

The Omerli reservoir is located on the northeastern side of the Istanbul City. It is one of the most important sources of drinking water with a surface area of 23.1 km² and a volume of 220 × 10⁶ m³ in the Marmara Region. Water quality characteristics of the lake investigated from May 2002 to April 2003 enabled us to identify the effect of waste loads on water quality of Omerli Lake. The following parameters were measured in the lake water: temperature (16.1°C), conductivity (250 μS/cm), secchi disk depth (1.9 m), dissolved oxygen (DO) (9.36 mg/L), nutrients [ortho-phosphate (78.9 μg/L), nitrate + nitrite (707.5 μg/L) and ammonia-nitrogen (264 μg/L)], chlorophyll a (9.43 μg/L), total organic carbon (3.33 mg/L), total suspended solids (4.54 mg/L), total poly aromatic hydrocarbon (t-PAH) (0.69 μg/L) and copper (24.5 μg/L). T-PAH (16.5 mg/g-dry-w), Cu (96.5 μg/g-dry-w), organic carbon (org-C) (2.0%) and N (0.44%) were determined in the surface sediment. The values of chlorophyll a and DO in the upper layer were relatively high and low secchi disk depths indicates eutrophic state. There are five channels discharging water, including waste water, into the lake. All channels were sampled during six occasions in order to cover variations between seasons. The following parameters were measured: total organic carbon, total phosphorus, total kjeldahl nitrogen, ammonia and total suspended solids with the flow rates. The Göçbeyli stream has the highest flow into the lake (1.5 × 10⁸ m³/year) but most of the nutrients were discharged from the Pa?aköy channel. It is accounting for 81% of ammonia and 80% of total phosphorus into the lake. Three scenarios were run using AQUATOX model: (1) all existing inflows are discharging into the lake (present situation); (2) none is discharging; (3) all are discharging except the Pa?aköy channel. The first scenario produced concentrations consistent with measurements in the lake. In all stations, a phytoplankton peak value was predicted during November and December 2002, and January 2003. In the second scenario, as expected, a significant decrease in the concentrations was predicted. In the third scenario, a small improvement in the water quality was obtained. To significantly improve the state of the lake, instead of entering Pa?aköy channel, wastewater should bypass the lake.     

腾格里沙漠地区水化学特征

水资源极为匮乏的腾格里沙漠区内所赋存的水主要有两种类型。一种是沙下潜水 ,主要是周边山区由高向低缓慢地向沙漠区运移所致 ,分布较为普遍 ;另一种是沙漠湖水 ,它是在沙漠区内之低洼地段 ,由于沙下潜水的长期溢出汇集于大小不等的长条状湖泊之中 ,以湖表水 (咸水和卤水 )的形式存在。沙下潜水矿化度在 0 .5～ 1 g/L之间 ,为本区的饮用水。湖表水咸苦 ,矿化度较高 ,就同一湖区而言 ,也有咸水和卤水之分 ,咸水矿化度为每升数十克 ,卤水则在 1 0 0～ 440 g/L之间 ,已达到了盐湖类沉积阶段     

Detailed geochemical studies of a He-U lake anomaly in permafrost, Baker Lake Area, N.W.T.

A strong He-U anomaly, discovered in the Thelon basin of the N.W.T. during a regional U exploration program in 1981, was studied in detail in 1982. The anomaly is confined to a 3-km² lake situated 160 km northwest of Baker Lake. Lake bottom water and sediment samples taken in June through the ice on a 50 m × 50 m grid, were analyzed for a number of trace and minor elements.In the lake sediments He and U were highly anomalous and parallel the strong anomaly patterns of He observed in the water. Median and maximum values in the sediments were 57 ppm and 396 ppm U, and 296 nL/L and 13870 nL/L He. Regional medians were 4.3 ppm U and 50 nL/L He. Se and V in sediments gave weak but similar anomaly patterns to those observed for U and He.The anomaly is somewhat of an enigma. The unusually high U content indicates an oxidizing, hence, near surface, water regime, and the highly anomalous He flux into the lake and a thick cover of permafrost in the region indicate a very deep source where conditions are normally reducing, rendering U immobile.Coincident anomaly patterns and increasing concentrations with depth of minor and trace elements and gases in the lake water prove that groundwater is the source of the anomalies. Contoured element maps indicate that this groundwater enters the lake in at least four places.The fact that up to 35 ppb U, 6 ppm dissolved O₂ and virtually no Fe and Mn, were detected in lake waters above groundwater entry points indicates that the groundwaters were oxidizing with respect to these elements. This is indeed surprising because permafrost is believed to be about 300 m thick in the region; at such depths groundwaters are usually rich in Fe and void of U.The highly anomalous He in this lake indicates deep fractures which serve as conduits for mineralized water entering the lake from depth and creating a frost-free window in the permafrost. The fractures probably penetrate well into the basement for only major deep fractures are known to produce such strong He anomalies. The additional presence of anomalous U suggests U mineralization at depth.     

博斯腾湖水体矿化度变化趋势及调控研究

博斯腾湖水体矿化度自从20世纪70年代以来基本在1.0g/L以上,80年代矿化度曾经高出1.8g/L,目前还维持在1.3g/L左右。以实测数据为基础,阐述博斯腾湖水体矿化度的变化趋势;并以建立的水量-水质-生态系统模型为基础,探讨博斯腾湖水体矿化度变化的影响因素,从本质上分析控制博斯腾湖水体矿化度变化的主要因子,改变了从表象上认识的缺陷,提出了水体矿化度调控的对策。     

Modeling spatial and temporal variations in temperature and salinity during stratification and overturn in Dexter Pit Lake,Tuscarora, Nevada,USA

This paper examines the seasonal cycling of temperature and salinity in Dexter pit lake in arid northern Nevada, and describes an approach for modeling the physical processes that operate in such systems. The pit lake contains about 596,200 m³ of dilute, near neutral (pHs 6.7–9) water. Profiles of temperature, conductivity, and selected element concentrations were measured almost monthly during 1999 and 2000. In winter (January–March), the pit lake was covered with ice and bottom water was warmer (5.3 °C) with higher total dissolved solids (0.298 g/L) than overlying water (3.96 °C and 0.241 g/L), suggesting inflow of warm (11.7 °C) groundwater with a higher conductivity than the lake (657 versus 126–383 μS/cm). Seasonal surface inflow due to spring snowmelt resulted in lower conductivity in the surface water (232–247 μS/cm) relative to deeper water (315–318 μS/cm). The pit lake was thermally stratified from late spring through early fall, and the water column turned over in late November (2000) or early December (1999). The pit lake is a mixture of inflowing surface water and groundwater that has subsequently been evapoconcentrated in the arid environment. Linear relationships between conductivity and major and some minor (B, Li, Sr, and U) ions indicate conservative mixing for these elements.Similar changes in the elevations of the pit lake surface and nearby groundwater wells during the year suggest that the pit lake is a flow-through system. This observation and geochemical information were used to configure an one-dimensional hydrodynamics model (Dynamic Reservoir Simulation Model or DYRESM) that predicts seasonal changes in temperature and salinity based on the interplay of physical processes, including heating and cooling (solar insolation, long and short wave radiation, latent, and sensible heat), hydrologic flow (inflow and outflow by surface and ground water, pumping, evaporation, and precipitation), and transfers of momentum (wind stirring, convective overturn, shear, and eddy diffusion). Inputs to the model include the size and shape of the lake, daily meteorological data (short wave radiation, long wave radiation or cloud cover, air temperature, vapor pressure, wind speed, and rainfall), rates for water inputs and outputs, the composition of inflowing water, and initial profiles of temperature and salinity. Predicted temperature profiles, which are influenced by seasonal changes in the magnitude of solar radiation, are in good agreement with observations and show the development of a strong thermocline in the summer, erosion of the thermocline during early fall, and turnover in late fall. Predicted salinity profiles are in reasonable agreement with observations and are affected by the hydrologic balance, particularly inflow of surface and groundwater and, to a lesser degree, evaporation. Defining the hydrodynamics model for Dexter pit lake is the first step in using a coupled physical – biogeochemical model (Dynamic Reservoir Simulation Model-Computational Aquatic Ecosystem Dynamics Model or DYRESM-CAEDYM) to predict the behavior of non-conservative elements (e.g., dissolved O₂, Mn, and Fe) and their effect on water quality in this system.     

西藏扎布耶盐湖钙华岛钙华的地质地球化学特征及意义

扎布耶盐湖属世界独一无二的天然产碳酸锂的盐湖,并富含Cs。该湖钙华岛的钙华自东而西呈高出湖面25～30m、15～25m和0～15m的3套产出。钙华的构造类型有层状构造、蜂窝状构造、鲕粒状构造、块状构造等,结构类型有粒状结构、针状结构、包裹状结构、溶蚀结构、生物结构等。钙华的矿物主要有文石和方解石2种。钙华的CaO为49.49%～51.16%。钙华的稀土元素配分模式均为重稀土元素富集型。3套钙华Cs的平均值为4.54μg/g→6.68μg/g→5.34μg/g,Li的平均值为109.9μg/g→116.5μg/g→136.9μg/g。扎布耶盐湖的Cs、Li等组分的源区是深部的重熔岩浆,泉水为携带成矿物质的载体。其中所含的Cs、Li等元素一部分保存在钙华中,另一部分随泉水汇入盐湖中,盐湖的持续蒸发使湖水中的稀碱金属元素含量增高。