河北省地下咸水对地下淡水资源入侵影响分析

河北省中东部区域分布为地下咸水分布区。自大量开采地下淡水以来,出现了地下咸水入侵地下淡水资源问题,第四系地下淡水水质呈不断变差趋势,对宝贵的地下淡水资源构成威胁,其主要原因是地下淡水资源的超量开采和成井工艺不严格。本文分析了地下咸水入侵地下淡水机制及影响现状。     

边坡防渗增加灰沙岛地下淡水的试验与数值模拟研究

地下淡水是支撑海岛居民生活用水保障和生态岛屿建设的重要战略资源。目前海岛淡水资源十分匮乏,鉴于我国灰沙岛的现实复杂性,亟需实施低成本、易操作且对岛礁稳定性及生态系统影响较小的增加地下淡水的措施。本研究提出了采用在海陆边坡处铺设防渗材料人为干预地下淡水体形成、增加淡水储量的措施,并通过砂箱试验和数值模拟相结合的方法在实验室尺度下分析了边坡防渗对灰沙岛淡水透镜体形成的影响,评估了不同因素在边坡防渗条件下增加地下淡水储量的效果,并以永兴岛为例定量评估了边坡防渗对地下淡水储量的影响。研究表明,边坡防渗通过改变地下水流场、增加淡水水头的方式增加了淡水储量。淡水体所需的稳定时间随之增加。在长、宽、高分别为50,5,35 cm的砂箱中,在35°的边坡处铺设14 cm长的隔水材料,淡水透镜体达到稳定后最大厚度由原有的13.7 cm增加至24.9 cm,淡水储量由561.8 cm3增加至1 592.3 cm3,所需稳定时间由120 min增加至150 min。增加的淡水储量随降雨强度增加、砂体渗透系数减小、边坡防渗深度增加、防渗材料渗透系数减小而增加。若在永兴岛海陆边坡铺设2 m深的隔水材料,在未来30...     

中国沿海地区海水入侵现状与分析

首先介绍了我国存在着严重海水入侵灾害的三大河三角洲——长江三角洲、珠江三角洲、老黄河三角洲(莱州湾地区)海水入侵现状。长江口和珠江口海水入侵主要受河流入海径流量和河口潮汐影响,莱州湾地区海水入侵的产生则主要是人类过量开采地下淡水所致。地下淡水和咸水之间存在着一个动态平衡的混合界面,淡水储存一旦减少,平衡状态被打破,该界面便会向陆移动。最终产生海水入侵。海水入侵的发生受着诸多因素制约,在中国沿海地区。地下淡水的储备与人类的用水需求之间存在着矛盾,人类过量开采地下淡水是产生海水入侵的主导因素。因而开源节流、人工回灌地下淡水、阻隔水流等措施在防治海水入侵方面是行之有效的。     

开发利用咸水是缓解河北平原水资源危机的有效措施

河北平原是严重缺水地区，由于长期超采地下淡水，致使河北平原产生一系列的环境地质问题。河北平原在严重缺乏淡水的同时，也蕴藏着大量的地下咸水，如何合理开发利用地下咸水已成为缓解河北平原水资源危机的关键问题。作者通过对河北平原地下咸水分布、用途、开发利用现状的分析，提出了合理开发利用地下咸水的建议和措施。     

浅谈滨州市城区段黄河滩地地下淡水资源的开发

对滨州市城区段黄河滩地及河床浅层地下淡水资源的分布规律及现状进行了分析,针对滨州市用水现状。论述了合理开发利用地下淡水资源的必要性,同时分析计算了地下水资源量并进行水质评价。并就其对城市饮用水安全的保障进行了探讨,提出了黄河滩地地下淡水资源合理开发利用的效益和建议。     

一种可增加海岛地下淡水资源储量的方法研究

淡水透镜体作为海岛上珍贵的地下淡水资源，对于满足居民生活用水与维护生态系统具有重要作用,增加海岛地下淡水资源储量可有效缓解海岛地区普遍存在的水资源短缺问题。本研究提出通过在海岛外部区域采用低渗透性介质材料增加海岛地下淡水资源储量的方法，采用室内物理模型实验与基于变密度地下水流溶质运移模型的数值模拟相结合的方法对提出方法的有效性进行了验证，并通过野外尺度的数学模型分析工程实施可能性。实验与数值模拟结果较吻合,表明该方法具有抵御海水入侵、增加海岛地下淡水资源储量的巨大潜力。通过基于野外尺度的数值模拟分析工程实施的可能性，发现对于降雨入渗补给强度为0.005 7 m/d、长度为200 m，孔隙度为0.3的狭长形均质海岛，地下淡水储量为66.5 m3/m，在海岛外部区域采用渗透系数为1 m/d、厚度为5 m的低渗透性介质材料后，淡水透镜体经过约8 a时间可再次达到稳态，地下淡水储量为343.8 m3/m，增加约4倍，工程实施具备一定可能性。本研究为缓解海岛地区缺水问题、实现淡水资源可持续利用提供了一种新方法。     

电法在濒海及岛屿地区寻找地下淡水中的应用

采用电法的基本原理，研究各种不同岩性和成淡水的电性差畀，划分地下成淡水分界面。在严重缺水的濒海及岛屿地区找到了较好的地下淡水，解决了守岛部队吃水难的问题。     

合理选用封井粘土提高隔水效果

在上部覆存有咸水含水层的地质结构条件下凿井开采下部地下淡水 ,选用适宜的粘土 ,利用其水一岩之间 Na - Ca2 阳离子交换反应以提高井外封闭止水效果 ;防止地下淡水咸化污染。合理利用有限的地下淡水资源     

地下淡水演变与水致疾病

地下淡水是地球水圈中罕见的自然资源和敏感脆弱的环境要素,地下淡水演变与人类生存息息相关。地下淡水最严重的演变是其中Ｎ－浓度的持续增高,浅层地下水成为大陆氮的贮存库。许多环境是水致疾病。水致疾病的分布受水文地球化学分带控制。在氧化带易发生碘缺乏病,在还原带易发生氟中毒病,在富有机质和Ｈ２Ｓ的潮湿地带易发生克山病。     

滨州市黄河滩地地下淡水开发与辐射井技术

本文对滨州市城区饮用水源现状进行了分析,针对滨州市用水现状论述了合理开发利用地下淡水资源的必要性。详细地分析、计算了地下淡水资源合理开发利用的取水方式、产水量,并对黄河滩地地下水开发利用方式可行性及效益进行了分析。     

Natural salinity sources in the groundwaters of Jordan—Importance of sustainable aquifer management

In recent years, voices in Jordan became lauder to exploit the fresh to brackish deep groundwater overlain by fresh groundwater bodies. In this article the implications of such a policy on the existing fresh water bodies are worked out through studying the sources of salinity in the different aquifer systems and the potentials of salinity mobilization by artificial changes in the hydrodynamic regimes. It is concluded that extracting the groundwater of deep aquifers overlain by fresh water bodies, whether the deep groundwater is fresh to brackish, brackish or salty, is equivalent to extracting groundwater from the overlying fresh groundwater bodies because of the hydraulic connections of the deep and the shallow aquifers’ groundwaters. The consequences are even more complicated and severe because exploiting the deep groundwater containing brackish or salty water will lead to refilling by fresh groundwater leaking from the overlying aquifers. The leaking water becomes salinized as soon as it enters the pore spaces of the emptied deep aquifer matrix and by mixing with the deep aquifer brackish or saline groundwater. Therefore, the move to exploit the deep groundwater is misleading and damaging the aquifers and is unjust to future generation's rights in the natural wealth of Jordan or any other country with similar aquifers’ set-up. In addition, desalination produces brines with high salinity which cannot easily be discharged in the highlands of Jordan (with only very limited access to the open sea) because they will on the long term percolate down into fresh water aquifers.     

Distribution,characteristics and influencing factors of fresh groundwater resources in the Loess Plateau,China

The fresh groundwater in the Loess Plateau serves as a major source of water required for the production and livelihood of local residents and is greatly significant for regional economic and social development and ecological protection. This paper analyzes the hydrogeological conditions and groundwater characteristics in the Loess Plateau, expatiates on the types and distribution characteristics of the fresh groundwater in the plateau, and analyzes the influencing factors and mechanisms in the formation of the fresh groundwater in the plateau as a priority. Based on this, it summarizes the impacts of human activities and climatic change on the regional fresh groundwater. The groundwater in Loess Plateau features uneven temporal-spatial distribution, with the distribution space of the fresh groundwater closely relating to precipitation. The groundwater shows a distinct zoning pattern of hydrochemical types. It is fresh water in shallow parts and is salt water in deep parts overall, while the fresh water of exploration value is distributed only in a small range. The storage space and migration pathways of fresh groundwater in the loess area feature dual voids, vertical multilayers, variable structure, poor renewability, complex recharge processes, and distinct spatial differences. In general, the total dissolved solids (TDS) of the same type of groundwater tends to gradually increase from recharge areas to discharge areas. Conditions favorable for the formation of fresh groundwater in loess tablelands include the low content of soluble salts in strata, weak evaporation, and special hydrodynamic conditions. Owing to climate change and human activities, the resource quantity of regional fresh water tends to decrease overall, and the groundwater dynamic field and the recharge-discharge relationships between groundwater and surface water have changed in local areas. Human activities have a small impact on the water quality but slightly affect the water quantity of the groundwater in loess.© 2021 China Geology Editorial Office.     

An approximate projection of availability of the fresh groundwater resources in the South West district of NCT Delhi, India: a case study

The future availability and sustainability of fresh groundwater resources in the South West district of the national capital territory (NCT) Delhi, India, have been projected. Due to a rapid decline in groundwater level and quality, the district has been required by the Government of India to regulate development of groundwater resources. Shallow groundwater is mostly saline and water resources in the area are limited. The methodology applied here involves microzonation of the district in terms of thickness of fresh groundwater and then quantification of present and future availability of freshwater in different freshwater zones, including tentative timescales. The calculation method has been aided by data on historic trends in water level at representative groundwater monitoring stations, located either in fresh groundwater zones or near to them. It is estimated that the presently available 481 million m³ of resources will be reduced to 374 million m³ by year 2007 and to 303 million m³ by the year 2012, and by the year 2022 the district will have only 176 million m³ of available fresh groundwater resources.     

On the spreading mechanism of shallow groundwater in the Hinterland of the Dutch Dune hill area

The low lying Western part of the Netherlands is protected from the sea by a 5 km wide stretch of dunes rising to some 50 m of height. The fresh water pocket in the dunes overlies saline groundwater and a brackish transition zone. There was during a century an extraction of fresh groundwater for drinking water, supported by artificial infiltration. This has been stopped some 30 years ago. The consequent wetting of the valuable farm area (flower cultures) behind the dunes is stronger and more extensive than could be expected from mere replenishment of the fresh water zones in the dunes. It is shown in this paper that the lateral shear flows in the brackish and saline groundwater area have displaced (and are displacing) the interfaces vertically downward. The effect of more fresh and less saline groundwater in an arbitrary groundwater column is an (extra) rise of the groundwater head of the upper fresh water part. The described slow process will continue for decades until a new equilibrium has been established. In the mean time the inner dune farm area will have to cope with a surprisingly strong and extensive water level rise.     

平凉南部山区岩溶裂隙水分析

运用构造控水、水化学同位素、地下水动态等方法,对平凉南部岩溶裂隙水进行了深入的分析与讨论。该区储水空间以岩溶裂隙为主,岩溶水的空间分布明显断裂构造控制。裸露岩溶地下水以大气降水起源为主,浅埋型岩溶水多表现为混合水的特征。地下水动态呈现气候型,水岩相互作用形式溶滤-混合型,呈低矿化淡水。根据以上特征,划分了3个相对独立的岩溶水系统。     

河北平原深层碱性淡水形成的水文地球化学模拟——以保定、沧州地区为例

以揭示河北平原深层碱性淡水化学形成机制为主要研究目的, 选择河北平原深层碱性淡水发育的保定、沧州地区为典型研究区, 应用水文地球综合分析方法和地下水地球化学模拟技术, 探讨了深层碱性淡水水化学性质、分布规律及形成的自然环境; 依据质量守恒原理建立深层地下水质量平衡反应模型, 研究了从山前至滨海整个水流路径上所发生的水文地球化学作用及水、岩间的质量交换, 从而揭示了深层地下水化学演化规律的内涵及深层碱性淡水水化学形成机制.主要结论是深碱性淡水是由山前补给区HCO₃-Ca·Mg水逐步演化而来, 从山前至中部平原, 在地下水环境由开放转为封闭的过程中, 方解石、白云石溶解和沉淀, 钠长石、石膏、岩盐和菱铁矿的溶解, Ca-Na阳离子交换是控制其形成和演化的主要水文地球化学作用.      

Control of sea-water intrusion by salt-water pumping: Coast of Oman

A shallow alluvial coastal aquifer in the Batinah area of Oman, with sea-water intrusion that extends several kilometres inland, has been studied experimentally, analytically and numerically. The water table is proved to have a trough caused by intensive pumping from a fresh groundwater zone and evaporation from the saline phreatic surface. Resistivity traverses perpendicular to the shoreline indicated no fresh groundwater recharge into the sea. Using an analytical Dupuit-Forchheimer model, developed for the plain part of the catchment, explicit expressions for the water table, sharp interface location and stored volume of fresh water are obtained. It is shown that by the pumping of salt water from the intruded part of the aquifer, this intrusion can be mitigated. Different catchment sizes, intensities of fresh groundwater pumping, evaporation rates, water densities, sea level, incident fresh water level in the mountains and hydraulic conductivity are considered. SUTRA code is applied to a hypothetical case of a leaky aquifer with line sinks modeling fresh water withdrawal and evaporation. The numerical code also shows that pumping of saline water can pull the dispersion zone back to the shoreline.     

Determination of the distance of the fresh water–salt water interface extending into coastal confined aquifers

In a coastal zone an understanding of the distance of the fresh water–salt water interface and its extension inland is important for prevention of sea water intrusion. In this article estimating methods are described for calculating the distance of a fresh water–salt water interface in a coastal confined aquifer based on the submarine fresh groundwater discharge. This groundwater discharge is controlled not only by the aquifer properties and hydraulic head difference, but also by the position of the fresh water–salt water interface in the coastal zone. A homogeneous and isotropic coastal confined aquifer is considered and fresh groundwater flow in the confined aquifer is thought to be at a steady state. Two observation wells at different distances in a profile perpendicular to the coastline are required in calculation of the distance of the interface toe in the coastal zone. Four coastal confined aquifers with horizontal and sloping confining beds and with varying thickness are also considered. Reasonable results are obtained when examples are used to illustrate the application of the methods. The methods require hydraulic head data at the two wells and thickness of the confined aquifers, but the hydraulic conductivity and fresh groundwater flow rate of the confined aquifers are not needed.     

Evaluation of sea water ingress into an Indian atoll

Groundwater is the prime source of fresh water in most part of world. The groundwater floats in the form of thin lens which is vulnerable to various stresses such as tide, cyclone, draught, abstraction, etc. The problem of getting this meager resource of fresh groundwater sustained for longer time, becomes more difficult task on tiny atoll with large population depending on it. In order to develop sustainable management scheme and identify vulnerable part of aquifer, systematic assessment of groundwater quality on such island have become imperative. Detailed hydrochemical study has been carried out to identify potential fresh groundwater resources on Andrott Island, UT of Lakshadweep, India. The analysis has given an early signal of deterioration in groundwater quality in some parts of the island during non-monsoon period, whereas the quality becomes slightly better during monsoon period. The study suggests immediate measures for arresting the deterioration in groundwater quality as well as augmentation for restoration of aquifer in some parts of the island.