共查询到18条相似文献,搜索用时 187 毫秒
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深层地下水的属性、深浅层地下水的水力联系(越流)是水文地质工作者一直研究和争论的问题。在对邯郸、邢台东部四县深、浅层地下水的氢、氧同位素样品的采集与测试中,发现该区地下水中氚同位素含量较高(15~30 TU,最高达51.1 TU)。本文利用区域大气降水中氚同位素衰减规律与特征,结合研究区地下水的水位和水质动态特征、含水层及隔水层的岩性特征,对特定水文地质条件下浅层地下水向深层地下水越流的可能性进行了分析研究,认为:本区存在浅层地下水越流至深层地下水的可能,在深层地下水中出现的高氚含量是其重要的证据。 相似文献
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氚作为一种理想的示踪剂和测年技术手段,在地下水研究中应用广泛。为了解决塔里木盆地东北部地下水氚测年研究中的大气降水氚浓度恢复问题,采用因子分析法,建立了塔里木盆地东北部大气降水氚浓度模型,并用实测数据进行了模型校正,校正后模型计算结果与实测数据吻合良好,表明所建立的大气降水氚浓度模型较合理;同时,考虑到研究区大气中氚含量受20世纪大气层核试验的影响,采纳了前人部分研究成果,最终恢复了该区域1960—2009年大气降水氚浓度值。据此,将所恢复的大气降水氚浓度数据作为输入值,代入到氚测年的活塞流模型和混合流模型,计算了研究区4个地下水样的年龄,并分析了氚年龄计算结果的合理性,认为所获得的年龄数据符合当地水文地质条件,这进一步证明了本文所恢复的大气降水氚浓度值较为可靠。 相似文献
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黑河流域水循环过程中地下水同位素特征及补给效应 总被引:26,自引:2,他引:24
通过环境同位素及其Tamers、IAEA模型应用研究表明,黑河流域水循环过程中地下水同位素特征与补给源属性和数量密切相关,具有非均一性;东部以山区降水通过出山地表径流补给为主,西部冰川雪融水和山区基岩裂隙水是主要补给源,下游区依赖中游区河水下泄状况,蒸发特征明显。东部同位素较新且地下水更新较快,西部同位素较老且地下水更新较慢;祁连山前戈壁带地下水同位素与山区河水相近,细土平原带地下水补给河水;高台一带受酒泉低氚值地下水补给影响而河水和地下水氚值都偏低;近河道带地下水年龄较新,远离河道则较老。因此,充分利用地下水与地表水之间转化规律,联合优化调控,有利于该区地下水资源可持续利用。 相似文献
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用环境同位素方法研究北京地区地下水及工业污染时空变化规律 总被引:1,自引:0,他引:1
本文利用环境同位素氚、碳-14示踪原理,研究了40年来北京地下水及水中工业污染物时空变化规律。推算出北京地区大气降水中氚的背景值,建立了适用于冲洪积扇地下水年龄计算的氚质点混合衰变数学模型。运用核爆~(14)C示踪近代水年龄获得成功,探明了污染水团运动轨迹,为水文地质和环境保护提供了新的技术方法。 相似文献
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重庆歌乐山隧址区地下水同位素组成特征及意义 总被引:2,自引:0,他引:2
同位素测试作为一种先进的技术手段在地质科学的各个研究领域得到越来越广泛地应用。运用同位素方法研究流体及矿床成因关系方面取得了较大的进展。目前,环境同位素方法被广泛用于识别地下水系统,研究自然界水循环过程和地下水运动规律。不同成因的地下水具有不同的同位素组成特征,而且氢、氧稳定同位素在低温条件下不与围岩发生同位素交换,放射性同位素变化遵循各自的衰变规律,水中HCO3碳、氧同位素组成与被溶解的碳酸盐岩同位素组成有关。在歌乐山隧道施工涌水对周边地下水系统的影响及环境效应评价过程中,取得许多同位素数据,对该区地下水的同位素特征有了新的认识。文章借助同位素方法探讨了隧址区地下水的补给源、年龄等基本特征。该区地下水主要补给来源为大气降水。碳、氧稳定同位素的研究结果也证实了这一点。对放射性同位素氚研究表明,该区地下水年龄基本都较小,属近期大气降水直接渗入补给。 相似文献
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Multiple geochemical tracers [ion chemistry, stable isotopes of water, chlorofluorocarbons (CFC), tritium] and a 25-year-long record of discharge were used to understand residence times and flow paths of groundwater seeps in the fractured rock aquifer surrounding the Mission Tunnel, Santa Barbara, California. Tritium data from individual seeps indicate that seep waters are a mixture of >45-year-old (recharged prior to the nuclear bomb tests) and young groundwater. CFC data support this interpretation, however, a two-end member mixing model cannot completely explain the age tracer data. Microbial degradation and partial re-equilibration complicate the CFC signal. Spectral analysis of precipitation and groundwater seepage records shows that seepage lags precipitation by 3 months. This delay is related to the advancement of the wetting front and increasing the number of active flow paths. Additionally, the amount of seepage produced by precipitation is less during extended periods of drought than during normal or wet periods, suggesting antecedent conditions strongly affect flow through this fractured rock aquifer. 相似文献
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Giorgio Pilla Elisa Sacchi Gianmaria Zuppi Giovanni Braga Gianfranco Ciancetti 《Hydrogeology Journal》2006,14(5):795-808
A multicriteria approach in studying hydrodynamics of a multilayer aquifer system has been used in the Lomellina region (Northern Italy). It involves the reconstruction of the hydrogeological framework coupled to the definition of the hydrochemical and isotopic features of the aquifers. A shallow phreatic aquifer, reaching depths of about 60–80 m from the surface, and deeper aquifers containing confined groundwater, were distinguished. Groundwater generally shows mineralisation decreasing with depth; dissolved ions depict calcium-bicarbonate hydrochemical facies and stable isotopes define the recharge mechanisms, the origin of groundwater, and the hydraulic confinement of deep aquifers. The phreatic aquifer is fed by local infiltration and by streams and irrigation channels. Tritium and Carbon-14 groundwater dating indicate long residence times (on the order of thousands of years) for confined aquifers. The confined aquifers show essentially passive hydrodynamic conditions and maintain a higher piezometric level than the phreatic aquifer. This inhibits the possibility of recent water penetrating far below the surface. The hydrogeological setting of the Lomellina region displays features which are common to other sectors of the Po plain. As a consequence, the results of this study, although conducted on a restricted area, are highly illustrative of groundwater hydrodynamics in large sedimentary aquifers. 相似文献
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水化学特征揭示的济北地热水与济南泉水关系 总被引:1,自引:1,他引:0
以济南北部地热田地热水及济南泉域岩溶地下水、泉水为研究对象,通过分析常规离子、微量元素及同位素,探讨了地热水的成因机理、补径排及地热水与上游泉域岩溶地下水、泉水的水力联系。研究认为,研究区地热水与岩溶地下水、泉水为同源补给,地热水属海相含盐沉积岩溶滤水。通过对氢氧稳定同位素和氚同位素法测年结果的分析,初步判定现代大气降水为地热水的主要补给来源。14C法测年结果分析表明,地热水接受更新世古降水补给,地热水为古降水和现代大气降水的混合水。 相似文献
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Understanding water exchange between groundwater and streams, or groundwater/surface-water relationships, is of primary importance for solving conflicts related to water use and for restoring water ecosystems. To this end, a combination of classic geochemical tools and isotopic tools were tested on the Bassée study site, located in the alluvial plain of the River Seine, to see whether they are relevant for tracing multiple and complex groundwater/surface-water relationships. The Ca/Sr ratio associated with Sr isotopes shows contrasted values and suggests that infiltration of surface water to groundwater increases when approaching the Seine. Furthermore, stable isotopes of the water molecule indicate that water from gravel-pit lakes may infiltrate into groundwater. Tritium and CFC tools confirmed surface-water influence on the Alluvial and Chalk aquifers. This geochemical approach, tested on the Bassée site, clearly demonstrates the need of using various geochemical tools for describing groundwater/surface-water relationships, and can be conclusively addressed to other case studies for helping decision makers in their management of natural water resources. 相似文献
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D. K. Das 《Environmental Geology》1987,10(2):103-104
During the course of groundwater exploration in the upper catchment of Betwa River basin in Madhya Pradesh, Central India,
marsh gas at a depth of 171.33 m below ground level (bgl) has been observed bubbling out of the flowing water. The results
of gas analysis reveal the presence of 88% methane and 2.08% helium. Water is of sodium chloride type and possesses a high
concentration of fluoride and low concentrations of nitrate and sulphate. Tritium analysis of deep groundwater indicates a
value of 2.8 T.U., indicating pre-1953 storage with possible traces of modern contamination, which may have been introduced
during well construction. It is believed that an occurrence of marsh gas in Deccan Traps has not been reported earlier. 相似文献
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Groundwater level and chemistry changes resulting from tunnel construction near Matsumoto City, Japan 总被引:3,自引:0,他引:3
Before tunnel construction began, the groundwater chemical compositions and levels around the tunnel were studied to determine
if water compositions could predict whether surface water will be influenced by tunnel construction. When the chemical composition
of the well and springwater was similar to that of the tunnel seepage water, and the altitude of the well and spring was above
the tunnel level, the groundwater level in the well and spring was influenced by draining tunnel seepage water. Therefore,
comparing the chemical compositions of surface water and groundwater may be used for predictive purposes. However, the results
of this study showed there was no noticeable chemical composition change in springwater prior to changes in groundwater level
at a particular site. The changes in the hydrology of the plateau caused by tunnel construction were also studied, using measurements
of the changes in groundwater chemistry as well as changes in groundwater levels. Prior to tunnel construction, river discharge
was greater. Following tunnel construction, some river discharge decreased because springwater was drained as tunnel seepage
water and the spring in the catchment dried up. Tritium concentration indicated that 3 years after tunnel construction, surface
water did not reach tunnel levels in spite of groundwater level lowering and remaining unconfined groundwater being drained.
Received: 17 January 1996 · Accepted: 10 July 1996 相似文献
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Combined simulation-optimization modeling is an essential tool for coastal groundwater management. However, determining the appropriate simulation-optimization approach for specific seawater intrusion problems remains a significant challenge, especially for the real-world conditions associated with management of complex groundwater systems, competing management objectives, and global concerns of future climate change. In this study, a linked multi-objective simulation-optimization framework, the MOSWTGA (multi-objective optimal code, coupling SEAWAT and an improved genetic algorithm), was applied to a coastal groundwater system in Zhoushuizi district of Dalian City in northern China. The system has fractured karst aquifers and is modelled for the next 20 years (from 2010) under the moderate greenhouse gas concentration scenario RCP4.5 (representative concentration pathways) in the CNRM (Centre National de Recherches Météorologiques) and MIROC (Model for Interdisciplinary Research on Climate) climate modes derived from the Coupled Model Intercomparison Project Phase 5 (CMIP5). The MOSWTGA was developed by integrating the density-dependent groundwater flow and solute transport code SEAWAT with a genetic algorithm improved by adding the Pareto-dominated ranking module, Pareto solution set filter, and fitness sharing procedure. A set of near Pareto-optimal solutions of the trade-off between the maximum of the total pumping rate and the minimum of the extent of seawater intrusion was obtained. The study tried to provide a theoretical basis for real-world groundwater management under the given conditions.
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