共查询到18条相似文献,搜索用时 125 毫秒
1.
2.
选择华北平原典型地区,利用多功能观测竖井,通过采集、测试包气带水溶液中的水化学组分,研究了包气带水在入渗过程中水化学组分的运移转化规律,利用氯质量平衡法分析了包气带水中化学组分变化机理。结果表明:(1)包气带水入渗过程可导致不同深度的包气带水化学组分浓度发生变化;(2)粘性土层对包气带水入渗有一定的阻碍作用,但在某些特定条件下,包气带水仍然可以穿过粘性土层,水中的化学组分亦随之下移;(3)包气带水向下运移过程发生了水化学组分的混合。 相似文献
3.
包气带岩土层具有保护地下水的功能。建设项目各污水池、沉淀池等在包气带中位置不同,可根据其基础最深的池体基础之下的包气带渗透系数、岩土层厚度和连续稳定性确定包气带防污性能分级。污染源强可按包气带垂向平均渗透系数、从各池体结构特点确定的污染部位形状及大小、池体有效水深、污水中污染因子浓度计算。在采取相关规范要求的防渗工程前提下进行的预测,如果结果不满足地下水环境功能要求,需采取提高设施本体防渗性能,并在设施基础与包气带之间设置工程防渗层以满足环境功能要求。 相似文献
4.
根据天津市宁河县的主要环境地质问题,选择包气带岩性、厚度等7个参数作为评价指标,建立该区地下水脆弱性评价体系,认为只有评价参数选择正确、适当,地下水脆弱性评价才能为地下水管理、保护和规划提供决策参考. 相似文献
5.
区域地下水系统防污性能评价,面临影响因子多又复杂、评价指标难以客观性选定和权重不易确定等难题,以至严重影响评价结果的可信性。本文以鲁北平原为例,在以往地下水脆弱性评价常用的DRASTIC模型基础上,采用创新的迭置指数方法,改进为"DRITCS法",选择地下水位埋深、包气带综合岩性、地表2 m内单层厚度大于0.5 m的粘土层厚、含水砂层厚度及其渗透系数、和地下水净补给量等因子,组成区域地下水系统防污性能评价模型。合理地确定了区域地下水系统防污性能评价中关键指标——包气带粘性土层变化影响,并在鲁北平原示范性应用和通过以面源污染为主的三氮污染现状验证的结果表明:本文提出的方法能够客观地反映流域性相变造成的地下水系统防污性能空间差异性和区位分布特征,具有较强的实用性。 相似文献
6.
包气带粘性土层防污性能研究 总被引:1,自引:0,他引:1
包气带粘性土的特性及其分布规律是影响污染物自然衰减的重要因素。在分析粘性土类型和粘性土防污机理的基础上,探讨了微生物等因素对粘性土防污效果的影响,指出目前包气带粘性土防污研究中存在的若干问题。3S技术、ADM非确定理论有助于解决研究尺度偏小、量化指标不足的问题,多学科交叉复合将是包气带粘性土层防污研究的必然发展趋势。 相似文献
7.
针对华北平原地域广阔,地貌和水文地质条件复杂、地下水开发利用程度高,地下水位埋深、包气带和含水层岩性差异性大等特点,基于大量钻孔和地下水位监测资料,厘定了包气带岩性和地下水位埋深变化对脆弱性评价影响,进而建立适宜华北平原的DRITC评价指标体系,并应用于华北平原地下水脆弱性评价。评价中,根据华北平原水文地质条件,划分4评价分区,剖分2 km×2 km单元34 253个,采用地下水位埋深、净补给量、包气带岩性、含水层累积厚度和渗透系数5个因子作为评价指标,求得地下水脆弱性综合指数及脆弱性分布图。结果表明,华北平原山前冲洪积扇和古黄河冲洪积平原的现代黄河影响带地下水脆弱性高或较高。野外采样7 472组地下水有机污染测试分析结果佐证,脆弱性高或较高区有机污染检出项数多,其他地区较少,由此验证评价结果的客观性。 相似文献
8.
地下水脆弱性评价是区域地下水资源管理和保护的重要手段之一,针对娘子关泉域岩溶水的特殊性,基于欧洲脆弱性评价方法,选择包气带厚度、入渗补给量、包气带岩性、岩溶含水层的导水性能(泉水响应)四个因子,采用模糊综合评价法评价地下水脆弱性,并且绘制地下水脆弱性分区图。评价结果表明,极易污染区主要分布在娘子关泉群出露的地区,即泉源处;极难污染区主要分布在盂县—阳泉—平定—昔阳—和顺一带以西地区,寿阳县大部分地区。评价结果在合理制定保护娘子关泉域方面具有一定的参考价值。 相似文献
9.
西安市地下水污染广义/狭义脆弱性对比研究 总被引:5,自引:1,他引:4
从"污染源排放→包气带输送→地下水污染"的系统出发,提出了地下水污染广义和狭义脆弱性的概念,并构建了相应的指标体系和评价方法;在广泛污染源调查和水文地质调查的基础上,在GIS支持下完成了地下水污染脆弱性分析试验.结果显示:纯水文地质条件的狭义脆弱性,各河道、漫滩阶地、一级阶地和老城人工填土区最为脆弱;考虑土地利用和污染源分布的广义脆弱性评价,西安市建城区和北郊污灌区敏感最高.从而得出,狭义脆弱性适合人类活动差异较小的较大区域,而广义脆弱性适合人类活动差异较大的城市区域,两者有其适用的条件和范围. 相似文献
10.
周亮 《水文地质工程地质》2012,39(6):103-107
为了研究陕北风沙滩地区包气带风积沙的抗污能力,在榆林煤化工厂厂区及其周边地区选择4个试验点,采用双环入渗法,选择渣场炉渣浸出液(Cd、Cr、Cu、Mn、Ni和Pb重金属污染物溶液)进行渣场污水入渗试验,采用人工配置污染物溶液(COD、氨氮、F、石油类和挥发酚)进行了配污试点试验。渣场污水入渗试验过程中,由于水流的冲刷作用,剖面上大部分污染物的含量都小于入渗前的含量;而渗后样的测定结果则表明包气带风积沙对污水中Cr、Cu、Mn、Ni和Pb的净化能力较强。配污试点试验表明包气带对无机污染物的阻滞作用会延缓其对地下水的污染,石油类在包气带中的运移速度缓慢,难以在水流的作用下到达含水层,而COD容易造成地下水污染,挥发酚对含水层的污染能力要小于COD。应考虑采取适当方式降低地下水位,增大包气带厚度,以加强包气带对地下水的保护能力。 相似文献
11.
西辽河平原(内蒙古部分)地下水固有脆弱性评价 总被引:3,自引:0,他引:3
在西辽河平原地下水资源评价的基础上,选取影响西辽河平原固有脆弱性的最主要的7个影响因子,利用GIS平台的空间分析功能,将研究区划分为14365个评价单元,运用基于DRASTIC的模糊综合评价方法对该区的地下水固有脆弱性进行了综合评价,并绘制了脆弱性分布图。评价结果表明西辽河平原(内蒙古部分)地下水脆弱性存在3个分区:大部分地区为地下水稍易污染区;南部的黄土地区为地下水稍难污染区;而西辽河和乌尔吉木伦河的中上游为地下水相对略易污染区。评价结果对该区地下水资源保护、防止地下水污染具有指导作用。 相似文献
12.
Jinlong Zhou Guomin Li Feng Liu Yiping Wang Xiaojing Guo 《Environmental Earth Sciences》2010,60(5):1055-1063
According to the characteristics of groundwater in arid area, this paper proposes DRAV model for groundwater vulnerability
assessment, where D is groundwater depth, R is the net recharge of aquifer, A is the aquifer characteristics, and V is the lithology of vadose zone. As a case study, the paper assesses the vulnerability of pore phreatic water in Tarim Basin
of Xinjiang, China by using the DRAV model. The results indicate that the areas of phreatic water with vulnerability index
ranges of 2–4, 4–6, 6–8 and >8 accounting for 10.1, 80.4, 9.2 and 0.2% of the total plain area of the Tarim Basin respectively,
and the areas with the latter two vulnerability ranges (6–8 and >8) are mainly located in the irrigation districts with thin
soil layer (20–30 cm thick surface soil of vadose zone, mainly with underlying sandy gravel) and with silty and fine sand
layer. Such vadose zone generally lacks sandy loam and clayey soil and has larger recharge by infiltration of irrigation water. 相似文献
13.
Khaled S. Gemail Mohamed El Alfy Mohamed F. Ghoneim Ahmed M. Shishtawy Moheb Abd El-Bary 《Environmental Earth Sciences》2017,76(9):350
DRASTIC indexing and integrated electrical conductivity (IEC) modeling are approaches for assessing aquifer vulnerability to surface pollution. DRASTIC indexing is more common, but IEC modeling is faster and more cost-effective because it requires less data and fewer processing steps. This study aimed to compare DRASTIC indexing with IEC modeling to determine whether the latter is sufficient on its own. Both approaches are utilized to determine zones vulnerable to groundwater pollution in the Nile Delta. Hence, assessing the nature and degree of risk are important for realizing effective measures toward damage minimization. For DRASTIC indexing, hydrogeological factors such as depth to aquifer, recharge rate, aquifer media, soil permeability, topography, impact of the vadose zone, and hydraulic conductivity were combined in a geographical information system environment for assessing the aquifer vulnerability. For IEC modeling, DC resistivity data were collected from 36 surface sounding points to cover the entire area and used to estimate the IEC index. Additionally, the vulnerable zones identified by both approaches were tested using a local-scale resistivity survey in the form of 1D and 2D resistivity imaging to determine the permeable pathways in the vadose zone. A correlation of 0.82 was obtained between the DRASTIC indexing and IEC modeling results. For additional benefit, the obtained DRASTIC and IEC models were used together to develop a vulnerability map. This map showed a very high vulnerability zone, a high-vulnerability zone, and moderate- and low-vulnerability zones constituting 19.89, 41, 27, and 12%, respectively, of the study area. Identifying where groundwater is more vulnerable to pollution enables more effective protection and management of groundwater resources in vulnerable areas. 相似文献
14.
Assessment of shallow groundwater vulnerability in Dahei River Plain based on AHP and DRASTIC 
下载免费PDF全文
下载免费PDF全文 Based on the special hydrogeological conditions of the Dahei River Plain in the Inner Mongolia area, assessment of shallow groundwater vulnerability is conducted based on DRASTIC model. Each evaluation indicator weight is determined by using analytic hierarchy process (AHP). The most important indicators are lithology in soil media and vadose zone. Assessment model of shallow groundwater vulnerability of the Dahei River plain is constructed. Distribution map of vulnerability index in this area is made with the spatial analysis function of ARCGIS. The results show that the particularly sensitive area is the piedmont of the Daqing Mountain, where the upstream place of the groundwater and the south-central place of the plain has the lowest vulnerability. The assessment results are more in accordance with the actual vulnerability conditions of this area by using analytic hierarchy process, and is helpful for groundwater protection. 相似文献
15.
同地表水体一样,地下水系统本身也具有一定的纳污能力,即地下水环境容量。目前,国内外真正意义上的地下水环境容量研究开展得非常少,主要是进行了与地下水环境容量相关的地下水溶质迁移理论和试验研究。以郑州市平原岗区为例,分析了污染物在土壤包气带中随下渗水体向下迁移的机理过程,借助数值模型计算了不同岩性和厚度包气带的水环境容量,成果可为地下水污染防治提供科学依据。 相似文献
16.
Groundwater is a very important natural resource in Khanyounis Governorate (the study area) for water supply and development.
Historically, the exploitation of aquifers in Khanyounis Governorate has been undertaken without proper concern for environmental
impact. In view of the importance of quality groundwater, it might be expected that aquifer protection to prevent groundwater
quality deterioration would have received due attention. In the long term, however, protection of groundwater resources is
of direct practical importance because, once pollution of groundwater has been allowed to occur, the scale and persistence
of such pollution makes restoration technically difficult and costly. In order to maintain basin aquifer as a source of water
for the area, it is necessary to find out, whether certain locations in this groundwater basin are susceptible to receive
and transmit contamination. This study aims to: (1) assess the vulnerability of the aquifer to contamination in Khanyounis
governorate, (2) find out the groundwater vulnerable zones to contamination in the aquifer of the study area, and (3) provide
a spatial analysis of the parameters and conditions under which groundwater may become contaminate. To achieve that, DRASTIC
model within geographic information system (GIS) environment was applied. The model uses seven environmental parameters: depth
of water table, net recharge, aquifer media, soil media, topography, impact of vadose zone, and hydraulic conductivity to
evaluate aquifer vulnerability. Based on this model and by using ArcGIS 9.3 software, an attempt was made to create vulnerability
maps for the study area. According to the DRASTIC model index, the study has shown that in the western part of the study area
the vulnerability to contamination ranges between high and very high due to the relatively shallow water table with moderate
to high recharge potential, and permeable soils. To the east of the previous part and in the south-eastern part, vulnerability
to contamination is moderate. In the central and the eastern part, vulnerability to contamination is low due to depth of water
table. Vulnerability analysis of the DRASTIC Model indicates that the highest risk of contamination of groundwater in the
study area originates from the soil media. The impact of vadose zone, depth to water level, and hydraulic conductivity imply
moderate risks of contamination, while net recharge, aquifer media, and topography impose a low risk of aquifer contamination.
The coefficient of variation indicates that a high contribution to the variation of vulnerability index is made by the topography.
Moderate contribution is made by the depth to water level, and net recharge, while impact of vadose zone, hydraulic conductivity,
soil media, and Aquifer media are the least variable parameters. The low variability of the parameters implies a smaller contribution
to the variation of the vulnerability index across the study area. Moreover, the “effective” weights of the DRASTIC parameters
obtained in this study exhibited some deviation from that of the “theoretical” weights. Soil media and the impact of vadose
zone were the most effective parameters in the vulnerability assessment because their mean “effective” weights were higher
than their respective “theoretical” weights. The depth of water table showed that both “effective” and “theoretical” weights
were equal. The rest of the parameters exhibit lower “effective” weights compared with the “theoretical” weights. This explains
the importance of soil media and vadose layers in the DRASTIC model. Therefore, it is important to get the accurate and detailed
information of these two specific parameters. The GIS technique has provided an efficient environment for analysis and high
capabilities of handling large spatial data. Considering these results, DRASTIC model highlights as a useful tool that can
be used by national authorities and decision makers especially in the agricultural areas applying chemicals and pesticides
which are most likely to contaminate groundwater resources. 相似文献
17.
The present research aims to derive the intrinsic vulnerability of groundwater against contamination using the GIS platform. The study applies DRASTIC model for Ahmedabad district in Gujarat, India. The model uses parameters like depth, recharge, aquifer, soil, topography, vadose zone and hydraulic conductivity, which depict the hydrogeology of the area. The research demonstrates that northern part of district with 46.4% of area is under low vulnerability, the central and southern parts with 48.4% of the area are under moderate vulnerability, while 5.2% of area in the south-east of district is under high vulnerability. It is observed from the study that lower vulnerability in northern part may be mostly due to the greater depth of vadose zone, deeper water tables and alluvial aquifer system with minor clay lenses. The moderate and high vulnerability in central and southern parts of study area may be due to lesser depth to water tables, smaller vadose zone depths, unconfined to semi-confined alluvial aquifer system and greater amount of recharge due to irrigation practices. Further, the map removal and single-parameter sensitivity analysis indicate that groundwater vulnerability index has higher influence of vadose zone, recharge, depth and aquifer parameters for the given study area. The research also contributes to validating the existence of higher concentrations of contaminants/indicators like electrical conductivity, chloride, total dissolved solids, sulphate, nitrate, calcium, sodium and magnesium with respect to groundwater vulnerability status in the study area. The contaminants/indicators exceeding the prescribed limits for drinking water as per Indian Standard 10500 (1991) were mostly found in areas under moderate and high vulnerability. Finally, the research successfully delineates the groundwater vulnerability in the region which can aid land-use policies and norms for activities related to recharge and seepage with respect to existing status of groundwater vulnerability and its quality. 相似文献
18.
包气带是地下水补给和地下水污染的主要通道,包气带的性质直接控制了地下水的污染化速度和程度。文章以洛阳市区洛河河床岩性(以砂砾石为主)以及由亚粘土、亚砂土、中细砂等介质构成的包气带为研究对象,分析河床和包气带对污染物的自净能力,并对其天然的自净机制进行了简要分析,结论如下:洛河河床岩性对各种污染物(NO3-除外)的净化能力均达到90%以上;亚粘土、亚砂土、中细砂等包气带介质层对重金属(Cu2+等)有很强的净化能力,而对Cl-、Cr6+的净化能力则较弱,在短时间内介质中就达到饱和而失去净化能力;在环境条件相近及水文地质条件基本相同的条件下,包气带厚度与地下水的污染程度呈负相关关系;污水经过包气带,能有效地去除污水中的有害物质,防止地下水污染。 更多还原 相似文献