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1.
Water resources are scarce in arid or semiarid areas,which not only limits economic development,but also threatens the survival of mankind.The local communities around the Hangjinqi gasfield depend on groundwater sources for water supply.A clear understanding of the groundwater hydrogeochemical characteristics and the groundwater quality and its seasonal cycle is invaluable and indispensable for groundwater protection and management.In this study,self-organizing maps were used in combination with the quantization and topographic errors and K-means clustering method to investigate groundwater chemistry datasets.The Piper and Gibbs diagrams and saturation index were systematically applied to investigate the hydrogeochemical characteristics of groundwater from both rainy and dry seasons.Further,the entropy-weighted theory was used to characterize groundwater quality and assess its seasonal variability and suitability for drinking purposes.Our hydrochemical groundwater dataset,consisting of 10 parameters measured during both dry and rainy seasons,was classified into 6 clusters,and the Piper diagram revealed three hydrochemical facies:Cl-Na type(clusters 1,2 and 3),mixed type(clusters 4 and 5),and HCO3-Ca type(cluster 6).The Gibbs diagram and saturation index suggested thatweathering of rock-forming mineralswere the primary process controlling groundwater chemical composition and validated the credibility and practicality of the clustering results.Two-thirds of 45 groundwater samples were categorized as excellent-or good-quality and were suitable as drinking water.Cluster changes within the same and different clusters from the dry season to the rainy season were detected in approximately 78%of the collected samples.The main factors affecting the groundwater quality were hydrogeochemical characteristics,and dry season groundwater quality was better than rainy season groundwater quality.Based on this work,such results can be used to investigate the seasonal variation of hydrogeochemical characteristics and assess water quality accurately in the others similar area. 相似文献
2.
苦水湖是近年来在青藏高原西昆仑山腹地新发现的富锂盐湖,查明其水化学组成特征对丰富青藏高原盐湖型锂矿床基础资料具有重要的现实意义.然而受区域自然地理条件限制,对包含该盐湖卤水及补给水系的基础性研究还很少.综合运用Piper三线图、Gibbs图解和离子比例关系分析方法探讨了湖表卤水及湖周补给水系水化学组成、演化及主要离子来源.结果表明,由"补给源"到"汇",各离子组成发生了显著变化,水化学类型由碳酸钙镁型向硫酸钠亚型过渡转变,水化学的演化由岩石风化控制向蒸发结晶控制演变.根据离子比例关系,识别出3个主要离子来源:东北径流补给以碳酸盐岩、硅酸岩风化溶质来源为主;南部甜水海水系以盐岩溶解补给为主;湖周冷泉中的溶质则可能主要来自于同生沉积卤水与浅层地下水混合,或长英质火山岩、碳酸盐岩等的深部水-岩作用淋滤. 相似文献
3.
Erum Bashir Shahid Naseem Salma Hamza 《中国地球化学学报》2007,26(3):259-266
Quantitative estimation of ground and stream waters draining through sedimentary rocks of the Pab and Mor ranges (Jurassic-Cretaceous) and the Bela ophiolite has been made. The degree of correspondence among cations and anions has been estimated in order to evaluate their mutual relationships. The abundance of major ions is interpreted to be related to bedrocks and climatic conditions, which may contribute to the genetic affiliation. The log TDS and Na/Na Ca ratio reflected supremacy of weathering of rocks with some influence of evaporation. Ionic relationship is exhibited in the form of Stiff diagrams. Patterns of ionic composition revealed high NaCl, medium Ca(HCO3)2 and low MgSO4. Piper diagram has been used to classify the hydrofacies. The important hydrogeochemical parameters have been estimated for assessment of groundwater quality for domestic purposes in accordance to WHO. Irrigation water qualities have been evaluated in terms of EC, SAR, RSC, ESP and pH. 相似文献
4.
Karstic aquifers are considered as the main sources of groundwater in the northeast of Rudbar, Iran. The present study was conducted to evaluate the hydrogeological properties of karstic springs in this region. For this purpose, saturation indices (SI values) were calculated using the geochemical PHREEQC model for a number of minerals in the groundwater in the karstic aquifer. Moreover, AqQA-RockWare software packages were used to prepare hydrogeochemical plots for the aquifer, using which the sources of the ions in the water were identified. The origin of bicarbonate, calcium, and magnesium ions in water was determined using chloro-alkaline indices. Moreover, through plotting a Piper diagram for spring water samples, it was discovered that water type of all springs is the Ca-HCO3 type, confirming the karstic characteristic of springs in the area. A Durov diagram also suggests that the water composition of the springs is of the bicarbonate type with the dominant Ca cation, suggesting the calcareous effects of the region on the quality of groundwater and exhibiting a single source for the springs. The calculated saturation indices show that most of the water samples are undersaturated with respect to calcite, dolomite, and CO2. The stable isotopes (δ18O and δ2H) and deuterium excess values were used to get information about transport pathways in groundwater, atmospheric moisture, and the degree of interaction between these reservoirs. The degree of karstification of the recharge area of the karst aquifer was determined to be 5.5 from an analysis of the hydrograph Sefidab Spring. 相似文献
5.
Boutheina Farhat Abdallah Ben Mammou Lamia Kouzana Ismail Chenini Francesca Podda Giovanni De Giudici 《Resource Geology》2010,60(4):377-388
The present paper investigates hydrochemical processes and water quality in the Mornag aquifer in NE Tunisia. Groundwater samples were collected during a field campaign, and were analysed for major and trace elements. The collected waters have a chemical facies rich in Ca2+, Na+ and Cl-. Piper diagram shows a progressive increase in chloride ions along with increasing salinity. Saturation indexes calculated by using PHREEQC (USGS) show that the Mornag waters are slightly saturated with respect to carbonates (calcite and dolomite), while undersaturated with respect to gypsum, halite and other evaporitic minerals. The current composition of waters takes place via dissolution of halite and Ca-sulfates, where the increase in calcium is partially balanced by possible calcite precipitation. The relevant recorded pollutant is nitrate, which was likely dispersed from agricultural soils, while heavy metals were generally far below values of pollution thresholds, indicating no influence by mining activity. 相似文献
6.
为探究兰州市浅层地下水水质演化过程,通过对兰州市浅层地下水所取的40组水样进行分析测试,运用描述性统计、相关性分析、Piper三线图、Gibbs模型、离子比例系数方法对该区地下水特征进行分析,并运用PHREEQC软件反向模拟地下水演化规律。结果表明:兰州市地下水pH平均值为7.59,地下水呈弱碱性,地下水TDS值相对较高,其平均值为2353.21 mg/L ;SO42-和Na+分别是研究区地下水中优势阴、阳离子;SO4·Cl-Na·Mg和SO4·HCO3-Na·Ca型为主要地下水化学类型。研究区地下水化学组分主要受蒸发-浓缩作用影响;在两路径模拟中,均为方解石发生溶解,Na+将Ca2+发生阳离子交替吸附作用,白云石、岩盐、石膏均发生沉淀。 相似文献
7.
针对黄土梁峁地区砂岩-泥岩互层覆岩突水水源难以准确判别以及不同水源所占比例无法定量化问题,在系统采集了陕北朱家峁煤矿地表水、地下水水样基础上,采用数理统计、Piper三线图、Gibbs图、常规水化学特征比值法,揭示了不同含水系统水化学演化规律和水源补给关系。通过分析水体稳定同位素组成演变特征,明确了不同环境背景下各类水源水质时空变异性。在此基础上,以常规、同位素特征比因子作为判别指标,构建了基于T-球型模糊聚集算子TOPSIS法(T-TOPSIS)、粗糙集理论(RST)、D-S证据理论(DSET)与单指标未知测度函数(SIUMF)的突水水源混合比例计算模型。结果表明,研究区地表水、地下水水化学类型虽均以Na-SO4·Cl为主,但两者受控因素有着明显差别,即地表水水化学成分受硅酸盐岩风化和蒸发结晶共同控制;地下水成分则主要受控于蒸发结晶作用。此外,经历了强烈蒸发作用的地表水对地下水存在一定程度的补给作用。T-TOPSISRST-DSET-SIUMF突水水源混合比例判别模型表明,陕北朱家峁煤矿50%以上的突水水源为顶板砂岩水和地表沙空沟水。三维高密度电法探测结果验证了该模型的准确性。 相似文献
8.
为了查明曹妃甸浅层地下水水化学及咸化成因,采集研究区河水、地下淡水、微咸水、咸水、卤水、雨水和海水等不同类型水样,对其水化学组成、离子比、Piper三线图、吉布斯图、氢氧同位素组成及14C测年结果进行了分析。结果表明:(1)曹妃甸浅层地下水包括全新世沉积层潜水和晚更新世沉积层微承压水,且非原始封存在地层中而是形成于全新世中晚期。(2)地下潜水向海方向分布有淡水、微咸水、咸水水质类型,微承压水以咸水和卤水为主要水质类型;近冲洪积扇前缘水化学特征主要受岩石风化作用控制,围填海区及河口处水化学特征受海水混合作用控制,滨海平原区水化学特征主要受蒸发/结晶作用控制。(3)曹妃甸浅层地下水咸化过程主要是晚更新世以来海侵海退时期形成海洋蒸发盐经大气降水和河水多期溶滤所致,其盐分来源于海水蒸发盐,河口及围填海区地下潜水盐分主要来源于现代海水入侵。 相似文献
9.
贵州省饮用天然矿泉水资源非常丰富,且水质优良,本文对贵州省岩溶地区饮用天然矿泉水进行了系统的水样采集、水质化验等工作。检测结果显示,贵州省岩溶区饮用天然矿泉水pH值7. 0~8. 1,为中性水;溶解性总固体(TDS)含量介于160. 64~925. 10 mg/L之间,平均含量为369. 70 mg/L,属淡水;总硬度(以CaCO_3计) 136. 8~740. 6 mg/L,平均硬度为293. 0 mg/L,属微硬-硬水;有益元素锶含量介于0. 11~6. 91 mg/L之间,平均含量为1. 28 mg/L,总体上,贵州省饮用天然矿泉水属中性微硬-硬富锶型淡水。Piper三线图显示其水化学类型以HCO~(3-)-Ca~(2+)(Mg~(2+))为主。基于前人研究成果,并结合多种地球化学图解分析,旨在剖析贵州省饮用天然矿泉水水化学特征,探讨其宏量组分来源。贵州省饮用天然矿泉水Gibbs图解显示,其水化学组分主要来源于岩石风化淋滤作用,部分受大气降雨影响较明显; Mg/Na-Ca/Na图解投点均落于碳酸盐岩和硅酸盐岩之间,且明显偏向于碳酸盐岩,指示其主要受控于碳酸盐岩的溶滤作用;HCO~(3-)-(Mg~(2+)/Ca~(2+))图解投点主要集中在方解石和白云石过渡区域,显示其主要来源于方解石的溶解,白云石溶解亦有一定贡献。通过宏量组分来源相关分析,对贵州省岩溶地区饮用天然矿泉水成因规律的认识有一定指导意义。 相似文献
10.
G. Machender Ratnakar Dhakate M. Narsimha Reddy I. Panduranga Reddy 《Environmental Earth Sciences》2014,71(6):2885-2910
Groundwater and surface water samples from 47 locations (28 groundwater, 10 tanks and 9 stream channel) were collected during the pre-monsoon (May–June) and post-monsoon season (November) from Chinnaeru River basin. Chinnaeru River basin is situated 30 km east of Hyderabad City and its area covers 250 km2 and falls in the Survey of India Toposheet No. 56 K/15. The extensive agricultural, industrial and urbanization activities resulted in the contamination of the aquifer. To study the contamination of groundwater, water samples were collected from an area and analyzed for major cations and anions. Various widely accepted methods such as salinity, sodium absorption ratio, Kelly’s ratio, residual sodium carbonate, soluble sodium percentage, permeability index and water quality index are used to classify groundwater and surface water (tank and stream) for drinking as well as irrigation purposes. Besides this, Piper trilinear diagram, Wilcox diagram, Doneen’s classification and Gibb’s plot were studied for geochemical controls, and hydrogeochemistry of groundwater and surface water samples were studied. 相似文献
11.
在放射性废物处置库的选址过程中,地下水水化学特征是最重要的因素之一。为了查明西北某放射性废物处置预选区地下水水化学特征及其演化机制,对该区地下水水样进行了水质测试,综合运用Piper三线图法、相关性分析、饱和指数模拟和质量平衡反应模拟,全面分析了该预选区地下水水化学类型的空间分布和地下水水演化的主要水文化学过程。结果表明:研究区地下水在北部山区接受补给,并向南运移,地下水类型随径流由SO4.Cl—Na型转变为Cl.SO4—Na型。地下水在径流过程中主要经历了溶滤作用、蒸发浓缩作用和阳离子交换作用等水文化学过程,它们是控制该区地下水水化学组分演化的关键。 相似文献
12.
针对山东巨野新巨龙煤矿区地下水高TDS的现状,基于历史水质资料和取样测试结果,运用Piper三线图、相关性分析、氢氧同位素、Gibbs图解、离子比值与饱和指数等方法,探究其高TDS地下水水化学特征及成因。结果表明:随着建井和煤矿开采,研究区水化学环境发生改变,水化学类型不再是单一的SO4-Na型,深层灰岩水的类型中出现SO4·HCO3-Na和SO4-Ca·Mg型;研究区高TDS地下水的形成主要是因为含水层水动力条件差,高温水岩作用强,溶滤、蒸发浓缩作用明显,同时存在一定程度的反向阳离子交换作用;地下水体中白云岩和方解石表现为沉淀状态,石膏和盐岩处于溶解状态,是地下水主要成分Na+和SO42-的主要来源。研究成果不但为研究矿井水的构成、揭示煤矿区地下水污染及多场耦合的地下水演化过程和成因机制提供依据,还可为煤炭开采水害防治和矿井水处理利用奠定基础。 相似文献
13.
A proposed new diagram for geochemical classification of natural waters and interpretation of chemical data 总被引:14,自引:1,他引:13
D. K. Chadha 《Hydrogeology Journal》1999,7(5):431-439
A new hydrochemical diagram is proposed for classification of natural waters and identification of hydrochemical processes.
The proposed diagram differs from the Piper and expanded Durov diagrams in that the two equilateral triangles are omitted,
and the shape of the main study field is different. In addition, the proposed diagram can be constructed on most spreadsheet
software packages. The proposed diagram is constructed by plotting the difference in milliequivalent percentage between alkaline
earths and alkali metals, expressed as percentage reacting values, on the X axis; and the difference in milliequivalent percentage
between weak acidic anions and strong acidic anions, also expressed as percentage reacting values, on the Y axis. The milliequivalent
percentage differences from the X and Y co-ordinates are extended further into the main study sub-fields of the proposed diagram,
which defines the overall character of water. Examples of hydrochemical analyses of groundwater are given from Karnataka,
India, for each of the three types of diagrams, illustrating the applicability of the proposed diagram in four case histories
having different hydrogeochemical aspects. A comparison indicates that the proposed new diagram satisfies the basic requirement
for a suitable classification of natural waters, and it also can be effectively used for studies of hydrochemical processes.
Received, April 1998 / Revised, February 1999 / Accepted, April 1999 相似文献
14.
Evaluation of graphical and multivariate statistical methods for classification of water chemistry data 总被引:12,自引:2,他引:12
Cüneyt Güler Geoffrey D. Thyne John E. McCray Keith A. Turner 《Hydrogeology Journal》2002,10(4):455-474
A robust classification scheme for partitioning water chemistry samples into homogeneous groups is an important tool for the
characterization of hydrologic systems. In this paper we test the performance of the many available graphical and statistical
methodologies used to classify water samples including: Collins bar diagram, pie diagram, Stiff pattern diagram, Schoeller
plot, Piper diagram, Q-mode hierarchical cluster analysis, K-means clustering, principal components analysis, and fuzzy k-means
clustering. All the methods are discussed and compared as to their ability to cluster, ease of use, and ease of interpretation.
In addition, several issues related to data preparation, database editing, data-gap filling, data screening, and data quality
assurance are discussed and a database construction methodology is presented.
The use of graphical techniques proved to have limitations compared with the multivariate methods for large data sets. Principal
components analysis is useful for data reduction and to assess the continuity/overlap of clusters or clustering/similarities
in the data. The most efficient grouping was achieved by statistical clustering techniques. However, these techniques do not
provide information on the chemistry of the statistical groups. The combination of graphical and statistical techniques provides
a consistent and objective means to classify large numbers of samples while retaining the ease of classic graphical presentations.
Electronic Publication 相似文献
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16.
黄河三角洲地下水咸化已成为区域最突出的生态环境问题之一。识别地下水补给及盐分来源是有效控制和改善地下水咸化问题的关键。本研究采集了研究区浅层地下水、地表水和海水等不同类型水样,利用离子比、Piper三线图、吉布斯图等方法对八大离子浓度、δD和δ18O 组成、Br和Sr 浓度等进行地下水补给研究与盐分来源辨析。结果表明:(1)黄河三角洲浅层地下水以总溶解性固体(TDS)为338 g/L的咸水为主,地下水水化学类型较为单一,主要为Cl-Na型。(2)三角洲区域地下水以大气降水补给为主,并且在补给过程中经历了不同程度的蒸发作用的影响,黄河现行流路区域地下水主要来源于河水侧渗补给,但浅层地下水含水层水平渗透性较差限制了黄河侧渗补给范围。(3)海洋是黄河三角洲浅层地下水盐分的主要来源,黄河现行流路区域及近岸地下水盐分来源于海水混合,三角洲北部刁口河等古河道区域地下水盐分主要来源于海相蒸发盐淋滤溶解。 相似文献
17.
Chandrashekhar Azad Vishwakarma Ratan Sen Neha Singh Priyadarshini Singh Vikas Rena Kumari Rina Saumitra Mukherjee 《Journal of the Geological Society of India》2018,92(6):753-763
This paper focuses on the suitability of spring water for drinking and irrigation purposes in a part of eastern Himalaya, south Sikkim. There are many anthropogenic and geogenic factors contributing as a source of major cations and anions in the spring water. The spring water chemistry show a variation in EC, pH, TDS, Temperature, Na+, K+, Mg2+, Ca2+, Fe2+, Pb, Mn, Cu, HCO3-, Cl-, PO43-, NO3-, F- and SO42-. Mainly two types of water quality indexing has been used, one for suitability of spring water for drinking purposes and the other for irrigation purposes. For drinking purposes, Piper diagram used for determination of water type, water quality index (WQI) for quality monitoring and saturation index for mineral dissolution in water. % Na, RSC (Residual Sodium Carbon) and SAR (sodium absorption ratio) have been used for irrigation suitability. Piper diagram shows that CaHCO3 type of water was dominant in the study area. The WQI depicted excellent category and SAR, percent sodium and RSC (Residual Sodium Carbon) depict excellent, good and permissible category for irrigation purposes. Principle component analysis (PCA) was used to determine the major influencing factor responsible for the variability in the parameters analysed of spring water. 相似文献
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19.
Groundwater is a crucial resource on the Manukan Island as it is the only source of freshwater available on the island. The aquifer has deteriorated to a high degree, during the last decade. Nine domestic wells were sam-pled from March 2006 to January 2007 to probe the hydrochemical components that influence the water quality. Geochemical data on dissolved major constituents in groundwater samples from the Manukan Island revealed the main processes responsible for their geochemical evolution. The results using statistical analyses, graphical method and numerical model output (PHREEQC) showed that the groundwater was chemically highly enriched in Na and Cl, indicative of seawater intrusion into the aquifer as also supported from the Na-Cl signature on the Piper diagram. From the PHREEQC simulation model, calcite, dolomite and aragonite solubility showed positive values of the saturation indices (SI), indicating supersaturation which led to mineral precipitation condition of water by these min-erals. 相似文献
20.
In the Red River Delta, situated in the northern part of Vietnam, nearly its entire population depends solely on groundwater for daily water consumptions. For this reason, groundwater quality assessments must be carefully carried out using hydrogeochemical properties, to ensure effective groundwater resource planning for the Delta’s present and future groundwater use. In this study, the spatial and seasonal changes in the hydrogeochemical characteristics of groundwater in the two main aquifers of the RRD were investigated by analyzing the physicochemical data obtained in 2011 from 31 conjunctive wells in the Delta’s Holocene unconfined aquifer (HUA) and Pleistocene confined aquifer (PCA) using the Piper diagram and the Gibbs diagram. Results of the data analysis show that the groundwater in both aquifers in the upstream area of the delta is dominated by the [Ca2+–HCO3−] water-type, while the [Na+–Cl−] dominates along the middle-stream and downstream areas. Seasonal changes in the hydrogeochemical facies in both aquifers, comparing the results for the dry and the rainy seasons, were detected in about one third of the sampling wells, which were mainly located at the upstream portion of the Delta. The hydrogeochemical facies of HUA were different from that of PCA by about 45% of the sampling wells in both the dry and the rainy seasons, which were found mostly in the upstream and middle-stream areas. 相似文献