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北京平原区地下水水质监测网优化设计 总被引:9,自引:0,他引:9
文章分析了北京地下水水质监测和水质变化的历史和现状。应用DRASTIC评价方法对平原区进行了易污性评价并获得易污性分区图。叠加地下水易污性分区图、地下水价值分区图和地下水源保护区图生成地下水保护紧迫性分区图。编制了地下水污染源分布图。合并地下水保护紧迫性分区图和地下水污染源分布图获得地下水污染风险分区图。以地下水污染分区图指导地下水水质监测网的设计,调整地下水水质监测孔的密度。优化后的北京平原共有监测孔538眼(组),其中分层监测井136眼(组),新设计监测孔343眼。结合地区地下水水质年内变化规律调整监测频率。建议浅层极易污染区每年丰枯期各取1次样,其它地区每年枯水期取1次样。承压水每2年在枯水期取1次样。 相似文献
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济南岩溶泉域地下水水质监测 总被引:3,自引:0,他引:3
基于GIS手段,利用欧洲方法编制的济南泉域岩溶含水层易污性评价图显示,济南泉域岩溶含水层总体易污性强,地下水容易受到污染。结合泉域污染源调查结果以及地下水补给、径流、排泄系统与水质监测网的现状,设计了51个监测点组成的地下水水质监测网,其中地表水监测点6个,第四系孔隙水监测点8个,变质岩裂隙水监测点1个,泉水监测点4个,岩溶水水源地监测点6个,岩溶地下水监测点26个,并对其监测频率及监测内容进行了分析。 相似文献
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本文根据2005年北方某市地下水普查中28处监测点的数据资料,对浅层地下水环境质量作出评价。单指标评价的结果表明,本区总硬度、溶解性总固体、氯化物、硝酸盐氮及氨氮等单项指标超标严重,模糊综合评价结果显示,属于Ⅳ、Ⅴ类的监测点接近一半。垃圾填埋场、城市污废水的排放以及多年来地下水超采等是造成本区浅层地下水环境质量下降的主要原因。 相似文献
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以东北地区某石油烃污染场地为例,在充分掌握研究区内地质、水文地质条件以及相关污染监测数据的基础上,以最优化监测决策支持系统——MAROS为平台,对研究区内现有地下水污染监测网进行优化设计。在阐述数理统计方法、Delaunay方法以及修正的CES方法原理的基础上。分别对区内单井浓度变化趋势和监测网系统污染物质量的空间矩特征、监测井的冗余性以及单井监测频率的有效性进行了分析:基于MAROS平台优化结果,并结合现有地下水污染监测网中取样点的冗余性、空间分布以及监测频率的有效性的分析,提出了该研究区的地下水污染监测网的优化设计方案并分析了其相关影响因素及不确定性因素的影响。研究结果显示,在现有地下水污染监测网中可以去除5口监测井,并根据每口井中污染物浓度的变化趋势、空间分布及其冗余性调整为一年四次、一年一次、两年一次或不监测,进一步提高区内地下水污染监测网的监测效率、降低监测费用,并对地下水污染防治和修复工作具有重要的指导意义。 相似文献
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北京平原地下水水位监测网优化 总被引:10,自引:0,他引:10
文章在北京市地下水水位监测现状基础上,分潜水和承压水对北京平原地下水监测网的监测密度和监测频率进行了优化设计。主要采用编制地下水动态类型图的方法进行了地下水水位监测网的优化,克里金插值法能定量评价依据监测网观测值绘制的地下水水位等高线的精度,因而可以用来评价监测优化结果。并根据时间序列分析和统计检验提供的定量标准优化了地下水水位监测频率。优化后,北京平原共有监测孔400眼,其中利用原有监测孔300眼,新设计监测孔100眼,手工监测频率由原来的每月6次优化为每月1次,专项高频率监测可以由地下水自动监测仪实现。文中还对地下水自动监测仪(DIVER)的监测结果和手工监测结果进行了对比评价,提出了地下水水位监测网的维护、管理措施和信息发布方式。 相似文献
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以豫中平原某规范建设的城市生活垃圾填埋场为研究区,利用模糊综合评价法对其5个地下监控井进行水质评价,评价结果表明:该垃圾填埋场填埋区周围的1号本底监测井、5号污染扩散井评价结果均符合《地下水质量标准》(GB/T14818-2017)Ⅱ类水质标准,3号污染监视井评价结果符合Ⅲ类水质标准,4号污染监视井评价结果符合Ⅰ类,水质均较好,说明填埋场区的防渗系统使用完好;而2号污染扩散井的评价结果为Ⅴ类,水质极差,氨氮超标严重,与附近养殖场粪便排污、农田施肥、渗滤液调节池和处理站构筑物的渗漏均有关系,建议可用电学法对调节池的防渗系统进行检测。并加强渗滤液调节池的管理和定期监测地下水,防止对地下水造成污染。研究结果对于评价垃圾填埋场的运行对地下水的影响、有效实施跟踪评价具有重要意义。 相似文献
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北京西南城近郊浅层地下水盐污染特征及机理分析 总被引:27,自引:0,他引:27
北京市西南城近郊是本市高硬度水主要分布区,也是北京平原区地下水主要补给区,浅层地下水水质恶化已成为影响本区经济发展的主要因素。本文通过对区内14个长期观测孔11a来水质资料的统计分析,从统计学和水化学角度分析了本区浅层地下水盐污染特征和机理。结果说明,盐污染主要是硬度升高和硝酸盐污染,而在时间和空间分布上的不均匀性,显示出污染源、污染途径及污染机理的复杂性。最主要的污染原因有:独特的水文地质条件,污灌,砂石坑垃圾回填,及区域地下水位下降。 相似文献
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晋中市1998~2005年地下水质监测井330个,监测频率为每年每井1次(选择的水质监测水井,重点考虑经济发达、地下水利用程度高和污染较为严重的地区).随着晋中市用水量逐年增加而自然来水量逐年减少,由点污染源和面污染源引起的污染不仅污染了地表水,而且也污染了地下水环境.通过分析晋中市的地下水水质资料,采用单一指标法对晋中市地下水环境作了一个科学的现状评价,以便掌握晋中市地下水质现状和动态,并为晋中市地下水环境的综合治理提出了一些具体措施. 相似文献
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地下水水质监测与评价 总被引:16,自引:5,他引:11
地下水由于分布广、水质好且开发费用低而成为全世界重要的供水水源。中国北方生活供水的一半来自地下水,地下水也是干旱期重要的农业灌溉水源。然而,地下水水质日益面临来自农业、工业和城市污染源的威胁。地下水水质监测是评价水质状况最可靠的方法,并可作为供水水源保护的早期预警系统。它为水管理部门和水用户提供可靠的科学数据以便更好地管理和保护地下水资源。世界上正在执行两个巨大的地下水质监测和评价项目:一个是欧盟的水框架计划;另一个是美国的国家水质评价计划。文章评述了地下水水质监测的现状,介绍了地下水易污性评价、地下水污染源分级和地下水污染风险评价的方法。地下水易污性分区图是土地利用规划和供水水源保护的基础。地下水污染源分级结果为污染源治理提供了优先顺序。地下水污染风险分区图圈划出地下水污染的高风险区,为地下水资源保护和地下水污染监测提供重要的依据。 相似文献
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Groundwater-quality monitoring plays an important role in groundwater protection and quality conservation. National, regional, and site-specific monitoring programs operating in Czechoslovakia concern collection of back-ground data on groundwater quality and regional diffusion pollution problems. Site-specific monitoring is concerned with point sources of pollution. Pilot monitoring stations with automatic data acquisition systems optimize monitoring methods, design of monitoring networks, sampling techniques, and frequency and selection of the variables analyzed. Ground-water-quality monitoring in Czechoslovakia supports decision and policy making in areas of intensive farming. Time and spatial changes in shallow vulnerable aquifers are evaluated in several areas of national territory and support integrated land-use planning and groundwater protection management. 相似文献
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Improved knowledge of processes determining groundwater quality is an important precondition for the solution of various ecological and water management problems. In areas with highly fluctuating groundwater levels, time-limited access, local pollution sources or temporary interactions between surface water and groundwater, a temporary groundwater sampling technique could be of advantage. Furthermore, depth-specific sampling is of high value for investigating groundwater pollution related to seepage or surface water infiltration. A stainless steel core probe has been developed to obtain groundwater samples and to measure the hydraulic head distribution at various defined depths. The sampling technique is applicable only for non-volatile water constituents. An advantage of the core probe is that it can be driven into soil or sediments using ordinary low cost percussion equipment. The probe enables hydraulic head measurements and water sampling over vertical intervals of 0.3 m. Results from field experiments using the stainless steel core probe were in good correspondence with results from groundwater sampling at nearby observation wells. In the upper layer of the aquifer, the intrinsic spatial change in concentrations of sulphate, chloride and other water constituents is a function of distance between observation points and groundwater surface. Results indicate strong effects of a fluctuating groundwater level on groundwater quality at certain depths. 相似文献
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文章采用编制济南岩溶泉域地下水动态类型图的方法优化设计了地下水水位监测密度。通过对地下水水位多年变化趋势的分析确定了手测监测频率。选取质量好的观测孔安装了水位自计仪,提出了地下水水位监测维护措施。将对相关政府部门和每个水用户提供所需的地下水信息,以便达到水管理者与水用户共同参与泉水保护的目的。 相似文献
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Monitoring of regional groundwater levels provides important information for quantifying groundwater depletion and assessing impacts on the environment Historically,groundwater level monitoring wells in Beijing Plain,China,were installed for assessing groundwater resources and for monitoring the cone of depression.Monitoring wells are clustered around well fields and urban areas.There is urgent need to upgrade the existing monitoring wells to a regional groundwater level monitoring network to acquire information for integrated water resources management.A new method was proposed for designing a regional groundwater level monitoring network.The method is based on groundwater regime zone mapping.Groundwater regime zone map delineates distinct areas of possible different groundwater level variations and is useful for locating groundwater monitoring wells.This method was applied to Beijing Plain to upgrade a regional groundwater level monitoring network. 相似文献
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Data inadequacy is a common problem in designing or updating groundwater monitoring systems. The developed methodologies for the optimal design of groundwater monitoring systems usually assume that there is a complete set of data obtained from existing monitoring wells and provide a revised configuration for the system by analyzing the current data. These methodologies are not usually applicable when the current groundwater quantity and quality data are highly sparse. In this paper, a new simulation–optimization approach based on Bayesian maximum entropy theory (BME) is proposed for revising spatial and temporal monitoring frequencies in a sparsely monitored aquifer. The BME is used to simulate the spatial and spatiotemporal variations of groundwater indicators, incorporating the space/time uncertainties due to insufficient data. Comparing the obtained estimations with observations, the best BME model was selected to be linked with an optimization model. The main goal of optimization was to find out the spatial and temporal sampling characteristics of the monitoring stations using the concepts of Entropy theory and a groundwater vulnerability index. The results show the BME estimations are less biased and more accurate than Ordinary Kriging in both spatial and spatiotemporal analysis. The improvements in the BME estimates are mostly related to incorporating hard (accurate) and soft (uncertain) data in the estimation process. The applicability and efficiency of the proposed methodology have been evaluated by applying it to the Tehran aquifer in Iran which is suffering from high groundwater table fluctuations and nitrate pollution. Based on the results, in addition to the existing monitoring wells, seven new monitoring stations have been proposed. Few stations which potentially can be removed or combined with other stations have been identified and a monthly sampling frequency has been suggested. 相似文献
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以豫北山前冲洪积扇含水层为研究对象,探讨1:5万冲洪积扇含水层水质调查方法。该方法由工作量预部署、野外调查和取样点布设3个阶段组成。工作量预部署阶段,以前期调查资料为基础,编制工作区地形地貌、潜在污染源、地下水流场和水化学类型演变图,并赋值叠加形成不同调查点密度分区的野外工作图,宏观控制调查工作量; 野外调查阶段,重视pH值、溶解氧、电导率和氧化还原电位的测定与质量控制,根据调查区块环境状况调整调查点密度,布点兼顾地下水点与非地下水点及不同深度水点间的比例; 取样点布设阶段,以地质环境对含水层进行分区,以不同深度水井地下水功能对含水层进行分层。利用调查点现场水化学参数,识别并圈定水质变异区,分别采用判断法和均布法布设水质变异区和水质正常演化区取样点。该方法可为类似地区开展高精度地下水水质或污染调查提供参考。 相似文献
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A. A. Klimas 《Environmental Geology》1996,27(4):320-328
Cities have a negative impact on the quality of shallow groundwater. Many of Lithuania's urban residents drink water from dug wells. Moreover, polluted shallow groundwater contaminates deeper aquifers of fresh drinking water. Therefore, this situation should be controlled and managed, as far as possible. In order to evaluate the quality of shallow groundwater in an urban area and to create an optimal monitoring system, an original methodology for groundwater mapping has been proposed. It resembles the GIS (geographical information system) technologies. The set of maps, laid one over another, consists of the following: (1) urbanization map, (2) geological-hydrogeological map, (3) groundwater chemistry map, (4) resulting groundwater chemistry factorial analysis map, and (5) pollution and pollutant transport map. The data obtained from studies on dug and geotechnical wells have been used for compilation of the maps. The system for shallow groundwater monitoring in the city with an area of 70 sq km and a population of 140,000 is proposed to consist of about 30 monitoring wells and several dug wells. 相似文献