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1.
汪民 《水文地质工程地质》2010,37(5):1-7
乌鲁木齐河流域北部平原局部地区出现了地下水水位下降和生态环境退化等问题。为了实现地下水可持续开发利用,结合《乌鲁木齐市水资源综合规划报告》和《米东新区水资源规划报告》设计了现状开采方案、增加补给量方案、减少开采量方案和增加补给量与减少开采量联合方案。运用北部平原地下水非稳定流模型对这四个地下水开发情景模拟方案进行了模拟,模拟的时间段为2007~2050年。对预测期间地下水水位的动态变化、地下水水位降深及水均衡进行了分析,确定了增加补给量与减少开采量联合方案是乌鲁木齐河流域北部平原地下水的可持续开采方案。实施该方案应从北水南调引0.7×108m3/a地表水用于北部倾斜平原的农业灌溉,同时要减少地下水超采地区的地下水开采量0.50×108 m3/a。 相似文献
2.
乌鲁木齐河流域北部平原局部地区出现了地下水水位下降和生态环境退化等问题。为了实现地下水可持续开发利用,结合《乌鲁木齐市水资源综合规划报告》和《米东新区水资源规划报告》设计了现状开采方案、增加补给量方案、减少开采量方案和增加补给量与减少开采量联合方案。运用北部平原地下水非稳定流模型对这四个地下水开发情景模拟方案进行了模拟,模拟的时间段为2007~2050年。对预测期间地下水水位的动态变化、地下水水位降深及水均衡进行了分析,确定了增加补给量与减少开采量联合方案是乌鲁木齐河流域北部平原地下水的可持续开采方案。实施该方案应从北水南调引0.7×108m3/a地表水用于北部倾斜平原的农业灌溉,同时要减少地下水超采地区的地下水开采量0.50×108 m3/a。 相似文献
3.
地下水过量开采已经引起北京平原地下水位持续下降,降落漏斗逐年扩大以及一系列环境问题。控制地下水开采,增加地下水补给以达到地下水可持续开采应当成为北京市水资源管理的重要任务。本文根据北京市中长期供水规划、水资源特点和地下水开采现状设计了4种地下水开发利用开采方案:即维持现状开采、增加补给量、减少开采量以及联合方案。运用已建北京平原地下水数值模拟模型对4个方案进行了模拟,分析了地下水系统水均衡量变化,地下水流场变化以及地下水动态变化,以此确定可能的可持续开发方案。结果表明,维持现状开采必将使含水层地下水疏干;增补和减开单独实施虽能改善现状,但难以实现。只有应用增补和减开的联合方案,才有可能实现地下水可持续开发。其为北京平原地下水资源的合理开发提供重要的依据。 相似文献
4.
济南岩溶泉域是济南市重要饮用水源地,泉水又是济南市市民消闲和吸引游客的亮丽景观。但是多年来开采地下水已引起泉水出现间歇性断流。本文在对水资源规划分析基础上,设计了4个地下水资源开采方案:现状方案、增加补给量方案、减少开采量方案和增补减开联合方案。运用地下水流数值模型模拟了4个方案对泉群地下水水位及泉水流量动态变化的影响,最终确定了泉域地下水可持续开采方案,为泉水持续喷涌和地下水开发利用提供了科学依据。 相似文献
5.
乌鲁木齐河流域北部平原地下水流模拟 总被引:2,自引:2,他引:0
本文运用数字水文地质概念模型的方法建立了乌鲁木齐河流域北部平原的地下水流模型,并用流量边界与柴窝堡盆地和河谷区的地下水流模型相接,构成一个统一的流域地下水模型,为乌鲁木齐河流域水资源整体规划利用提供了模拟分析工具。北部平原的南部倾斜平原为砂卵砾石组成的大厚度潜水含水层,北部细土平原为多层结构。地下水总体上由南向北径流,天然状态下在交界地带溢出成泉或流入沙漠。目前,地下水循环基本上由人为控制。农田灌溉回归补给量与河流和山前侧向补给量持平;而开采量已是绝对的排泄量。季节性开采造成地下水位季节性大幅度变化。水位的下降使蒸发蒸腾量减少,减轻了由于灌溉造成的土壤盐碱化问题。 相似文献
6.
为科学研究北方典型地下水超采城市水资源开发利用模式对地下水系统的时空影响,设计了集中开采方案、逐步减采方案和广义地表水(地表水和中水等)-地下水联合调度方案3种不同的地下水开采、限采方案;结合济宁市,利用数值模型,对不同设计方案下地下水水位的时空变化规律及区域水均衡变化规律进行了研究.与基准方案对比结果显示:集中开采方案使地下水位在局部出现了缓慢回升,而水源地附近水位下降明显,最大中心降幅达到9 m,地表水补给的增加势必提高了污染的风险;逐步减产方案使局部地下水位恢复程度较前一方案偏小,而城北水源地漏斗中心水位下降超过12 m,城南水源地亦下降达8 m,诱发的地表水体和侧向补给量变化的减少使研究区含水层存量反而减少;联合调度方案使区域地下水位普遍回升,最大地下水位恢复幅度超过4 m;而水源地地下水降落漏斗最大的仅增加4 m,区域地下水系统得到了一定程度的涵养. 相似文献
7.
水均衡是众所周知的原理,但是它的应用却常常引发很多争议.争议之一就是应用水均衡方程确定地下水的安全开采量和可持续开采量.对于地下水的天然补给量存在两种截然不同的误解:一种认为,如果地下水的开采量没有超过天然补给量,那么开采地下水就是安全的;另一种则认为,地下水的可持续开采量仅仅取决于地下水的捕获量,而与天然补给量无关.事实上,地下水的天然补给量和捕获量共同决定了地下水的安全开采量或可持续开采量.本文阐明了围绕水均衡的争议,并用水均衡方程剖析了安全开采量和可持续开采量的概念.文中对可持续开采量的定义进行了详细的解释,对实现地下水可持续开发的方法进行了总结.其中,地下水数值模拟模型和模拟-优化模型是确定地下水可持续开发方案的最有效的工具,文中也对这两个模型进行了简单的回顾. 相似文献
8.
大兴迭隆起隐伏岩溶水资源评价及开采方案预测 总被引:2,自引:2,他引:0
大兴迭隆起地区隐伏岩溶地下水是北京市的重要水源,为保障水源地能持续为大兴、通州地区提供优质的城镇生活用水,需对研究区岩溶地下水进行水资源评价和开采规划预测分析。利用数值模拟法,应用GMS模拟软件对研究区岩溶水系统进行地下水流数值模拟及水位变化预测。建立的岩溶水系统模型分为5层,模拟验证期为12年9个月。由模型评价的岩溶水系统补给资源量为14 425.74×10^4m3/a,可开采资源量为14 310.52×10^4m3/a,其中岩溶含水层可开采量为2 309.36×10^4m3/a。在模型识别验证后,分4种开采方案对水源地进行开采预测,通过对典型观测孔水位过程线拟合和研究区水均衡分析可知,按2020年之前维持现状开采,2020年后停采念坛水源地,2025年后全区按可开采量进行开采的开采方案最为合理,可分批逐次实现水源地的采补平衡。 相似文献
9.
新疆柴窝堡盆地地下水化学及稳定同位素研究 总被引:3,自引:0,他引:3
地下水是维持乌鲁木齐河流域社会经济发展和生态系统的最重要的水源,尤其是柴窝堡盆地因大量开采使得地下水水位下降、湖面萎缩,地下水系统动态特征发生了变化,所以研究区内地下水水流系统及其补径排关系对于深入研究盆地地下水流系统特征和合理开发利用地下水水资源能够提供重要的基础资料,尤其是对调整地下水资源的开采布局具有现实意义。本次研究主要以地质、水文地质背景资料为基础,结合地下水补给环境的差异,利用水化学和水的稳定同位素进行示踪研究,确定了柴窝堡盆地地下水的补给来源和排泄途径,区分出盆地排泄带不同点的补给区,包括东山、南山和西山补给区,对同一补给区又细分出不同的水流系统。 相似文献
10.
山东淄博沣水泉域岩溶水系统模拟及水源地优化开采预测 总被引:3,自引:2,他引:1
沣水泉域岩溶水系统是淄博市及周边地区最主要的供水水源,因原有大武水源地水质严重污染,急需开辟新的水源地,故须重新开展泉域岩溶水资源评价和开采规划工作。文章在充分概化研究区水文地质概念模型的基础上,借助FeFlow软件,建立了基于等效连续介质的三维非均质各向异性岩溶水模型,并利用2016年水位动态数据对模型进行识别和验证。经模型计算可知,在2000-2015年,研究区岩溶地下水日均补给量为104.47万m3/d,排泄量为80.27万m3/d,正均衡24.20万m3/d。对原大武水源地与新增刘征水源地优化开采方案预测的结果表明,最优开采方案为:(1)保持大武水源地现状35.91万m3/d开采条件下,刘征水源地最大开采量为5.5万m3/d,刘征 -大武富水地段最大可开采量为41.41万m3/d;(2)满足刘征 -大武富水地段最大开采条件,大武水源地最大可减采至33.41万m3/d,刘征最大开采量为8万m3/d。 相似文献
11.
Addai Obeng Millicent Fynn Obed Fiifi Loh Yvonne Sena Akosua Chegbeleh Larry-Pax Alo Clement Yidana Sandow Mark 《Hydrogeology Journal》2023,31(4):1101-1119
A groundwater resource characterisation and assessment model was developed for Nasia river sub-basin in the White Volta Basin, Ghana. The model is useful to policymakers for planning and sustainable management of groundwater resources in the basin for domestic and irrigation purposes. A conceptual model was constructed that characterized boundary conditions and hydrostratigraphy, and estimated recharge rates and hydraulic and storage parameters. From current understanding of the hydrogeological dynamics, three hydrostratigraphic layers were delineated. The conceptual model was converted to a three-dimensional steady-state groundwater flow model using MODFLOW. Recharge rates estimated from the base model indicate a minimum of 1.1% and maximum of 6.2% of the total rainfall. The hydraulic conductivity ranged between 0.20 and 15 m/day. Four possible scenarios were simulated: (1) increased population, (2) climate variations (reduced recharge), (3) increased abstraction for irrigation, and (4) worst-case scenario which is a combination of the first three scenarios. Results from scenarios 1 and 2 indicated that, under such conditions, the groundwater resources could be sustained and no significant effect on any of the water budget indicators was observed. For scenario 3, there was significant drop in hydraulic head in the central portions of the study area. The scenario 4 simulation indicated that there was significant reduction in groundwater levels and groundwater discharge into streams under these stressors. Such reduction can affect stream levels in the basin and, subsequently, the ecosystem. These findings are valid within the limits of uncertainty in the hydrogeological data that were used in this study.
相似文献12.
Sustainable management of groundwater resources is vital for development of areas at risk from water-resource over-exploitation. In northeast Thailand, the Phu Thok aquifer is an important water source, particularly in the Thaphra area, where increased groundwater withdrawals may result in water-level decline and saline-water upconing. Three-dimensional finite-difference flow models were developed with MODFLOW to predict the impacts of future pumping on hydraulic heads. Four scenarios of pumping and recharge were defined to evaluate the system response to future usage and climate conditions. Primary model simulations show that groundwater heads will continue to decrease by 4–12?m by the year 2040 at the center of the highly exploited area, under conditions of both increasing pumping and drought. To quantify predictive uncertainty in these estimates, in addition to the primary conceptual model, three alternative conceptual models were used in the simulation of sustainable yields. These alternative models show that, for this case study, a reasonable degree of uncertainty in hydrostratigraphic interpretation is more impactful than uncertainty in recharge distribution or boundary conditions. The uncertainty-analysis results strongly support addressing conceptual-model uncertainty in the practice of groundwater-management modeling. Doing so will better assist decision makers in selecting and implementing robust sustainable strategies. 相似文献
13.
Nassir S. Alamri 《Arabian Journal of Geosciences》2013,6(7):2619-2631
Shallow renewable groundwater sources have been used to satisfy the domestic needs and the irrigation in many parts of Saudi Arabia. Increased demand for water resulting from accelerated development activities has placed excess stress on the renewable sources especially in coastal aquifers of the western region of Saudi Arabia. It is expected that the current and future development activities will increase the rate of groundwater mining of the coastal aquifer near the major city Jeddah and surrounding communities unless management measures are implemented. The current groundwater development of Dahaban coastal aquifer located at alluvial fan at the confluence of three major Wadis is depleting the shallow renewable groundwater sources and causes deterioration of its quality. Numerical models are known tools to evaluate groundwater management scenarios under a variety of development options under different hydrogeological regimes. In this study, two models are applied—the MODFLOW for evaluating the hydrodynamic behaviors of the aquifer and MT3D salinity distribution to the costal aquifer near Dahaban town. The models’ simulation evaluates two development scenarios—the impact of excessive abstraction and the water salinity variation keeping abstraction at its current or increases in levels with or without groundwater recharge taking place. The simulation evaluated two scenarios covering a 25-year period—keeping the current abstraction at its current and the other scenario is increasing the well abstraction by 50% for dry condition (no recharge) and wet condition (with recharge). The analysis reveals that, under the first scenario, the continuation of the current pumping rates will result in depletion of the aquifer resulting in drying of many wells and quality deterioration at the level of 2,500 ppm. The results are associated with the corresponding salinity distribution in the region. Simulation of salinity in the region is a density-independent problem as salt concentration does not exceed 2,000 ppm, which is little value compared with sea salinity that amounts to 40,000 ppm. It is not recommended to increase the pumping rate than the current values. However, for the purpose of increasing water resources in the region, it is recommended to install new wells in virgin zones west of Dahaban main road. Maps of high/low potential groundwater and maps of salinity zones (more or less than 1,000 ppm) are provided and could be used to identify zones of high groundwater potential for the four studied scenarios. The implemented numerical simulation of Dahaban aquifer was undertaken to assess the water resources potential in order to reduce the depletion of sources in the future. 相似文献
14.
根据某火电厂建设项目自身性质及其对地下水环境影响的特点,采用数值模拟法进行预测与评价,建立能够正确刻画评价区地下水流动特征的地下水数值模型,并预测评价项目厂区在建设阶段、运行阶段及服务期满后等3个情景下地下水环境的影响和危害情况。认为本项目废水设计为零排放,不会对场址所在的地下水系统造成新的影响。在正常工况下,建设项目不会对当地地下水产生明显影响。在考虑发生风险事故且防渗措施失效情况下,建设项目对场区及下游地下水环境造成轻微影响,不会引起地下水质量标准降低,在及时采取防渗堵漏措施后,对场区及下游地区地下水不会产生影响。旨在为有效预防和控制电厂区域的地下水环境恶化,保护地下水资源,为电厂工程设计和环境管理提供科学依据。 相似文献
15.
Groundwater optimization model for sustainable management of the Valley of Puebla aquifer, Mexico 总被引:1,自引:1,他引:0
Edith R. Salcedo-Sánchez Ma. Vicenta Esteller Sofía E. Garrido Hoyos Manuel Martínez-Morales 《Environmental Earth Sciences》2013,70(1):337-351
The Valley of Puebla aquifer (VPA), at the central region of Mexico, is subject to intensive exploitation to satisfy the urban and industrial demand in the region. As a result of this increased exploitation, a number of state and federal agencies in charge of water management are concerned about the problems associated with the aquifer (decline of groundwater table, deterioration in water quality, poor well productivity and increased pumping and water treatment costs). This study presents a groundwater management model that combines “MODFLOW” simulation with optimization tools “MODRSP”. This simulation–optimization model for groundwater evaluates a complex range of management options to identify the strategies that best fit the objectives for allocating resources in the VPA. Four hypothetical scenarios were defined to analyze the response of the hydrogeological system for future pumping schemes. Based on the simulation of flow with the MODFLOW program, promising results for the implementation of the optimization of water quantity were found in scenarios 3 and 4. However, upon comparison and analysis of the feasibility of recovery of the piezometric level (considering the policy of gradual reductions of pumping), scenario 4 was selected for optimization purposes. The response functions of scenario 4 were then obtained and optimized, establishing an extraction rate of 204.92 millions of m3/year (Mm3/year). The reduction in groundwater extraction will be possible by substituting the volume removed by 35 wells (that should be discontinued) by the same volume of water from another source. 相似文献
16.
西北黑河额济纳盆地水资源管理研究——三维地下水流数值模拟 总被引:13,自引:0,他引:13
在大量实测资料的基础上, 建立了额济纳盆地地下水流系统饱和-非饱和三维数值模型, 对4种不同输水量情况下盆地内区域地下水位的变化趋势进行了预测, 进而提出了合理的输水方案, 黑河上中游向额济纳盆地合理的输水总量应为7.5亿m3/a, 其中通过狼心山水文站的水量不应小于5.5亿m3/a.这一方案为流域水资源的合理调配及额济纳绿洲生态环境保护和建设提供了依据. 相似文献
17.
The Zhangye basin is in the middle reaches of the Heihe River, northwestern China. Heavy abstraction of groundwater since
the 1970s in the area is for agricultural, industrial and drinking water supplies and has led to a substantial decline in
the potentiometric surface. A three-dimensional regional numerical groundwater flow model, calibrated under transient conditions,
has been developed and used to predict the drawdown for the period from 2000 to 2030 under two different groundwater management
scenarios. 相似文献
18.
Modelling climate-change impacts on groundwater recharge in the Murray-Darling Basin, Australia 总被引:4,自引:1,他引:3
Russell S. Crosbie James L. McCallum Glen R. Walker Francis H. S. Chiew 《Hydrogeology Journal》2010,18(7):1639-1656
A methodology is presented for assessing the average changes in groundwater recharge under a future climate. The method is applied to the 1,060,000 km2 Murray-Darling Basin (MDB) in Australia. Climate sequences were developed based upon three scenarios for a 2030 climate relative to a 1990 climate from the outputs of 15 global climate models. Dryland diffuse groundwater recharge was modelled in WAVES using these 45 climate scenarios and fitted to a Pearson Type III probability distribution to condense the 45 scenarios down to three: a wet future, a median future and a dry future. The use of a probability distribution allowed the significance of any change in recharge to be assessed. This study found that for the median future, climate recharge is projected to increase on average by 5% across the MDB but this is not spatially uniform. In the wet and dry future scenarios the recharge is projected to increase by 32% and decrease by 12% on average across the MDB, respectively. The differences between the climate sequences generated by the 15 different global climate models makes it difficult to project the direction of the change in recharge for a 2030 climate, let alone the magnitude. 相似文献