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1.
A. El Ouali J. Mudry J. Mania P. Chauve N. Elyamine M. Marzouk 《Environmental Geology》1999,38(2):171-176
The Errachidia basin is composed of three superposed aquifers (Senonian, Turonian limestones and Infracenomanian). The Liassic
limestone of the upper Atlas borders the northern part of the basin. The piezometric map of the Turonian aquifer displays
a north-south flow, with an inflow area from the Atlas. This recharge hypothesis is demontrated by a discriminant analysis
performed on chemical data: the majority of the spots are of sodium choride and hydrogenocarbonate types, while several boreholes
are assigned to a calcium hydrogenocarbonate type Jurassic component.
18O measurements, using the Atlasic gradient δ18O=–4.18–0.0027 x elevation to estimate the recharge areas, confirm that the recharge area is the basin itself (<1100 m) on
the Turonian outcrops, while in the confined part, the Turonian is recharged higher than 1400 m (corresponding to the Atlas).
This contribution ranges from 56 to 85%, according to the situation versus the piezometric inflow area. The remainder represents
infiltration and vertical leakage from the Senonian layers. 相似文献
2.
张掖盆地地处甘肃省河西走廊黑河流域中游地区,地势南东高北西低。已有勘探资料显示,张掖盆地赋存丰富的水热型地热资源。通过研究该区域地球物理勘探、钻探、地温测量及水文地球化学等成果资料,分析了张掖盆地地热资源赋存特征,探讨了其成因模式。张掖盆地地热田属沉积盆地型中低温地热田,热储为呈层状分布的新近系白杨河组砂岩、砂砾岩,选择钾镁地球化学温标计算热储温度为47~82°C,盖层为新近系上新统疏勒河组泥岩及第四系松散地层;地热水类型主要为碎屑岩类孔隙水,根据氢氧同位素特征推断其主要补给来源为南部祁连山区大气降水;祁连山北缘深大断裂和盆地内NNW向基底断裂是地热流体深循环良好的导水通道,地下水接受补给后沿导水断裂带或岩层孔隙裂隙运移,在深部热传导的增温作用下,赋存于碎屑岩类孔隙之中形成了本区的地热资源。水质分析结果表明:本区地热水属于溶滤型的陆相沉积水,水化学类型为Cl·SO4—Na型,F-、SiO2、溶解性总固体、总硬度含量随水温的升高而增大;区内地热水3H值普遍小于2.0 TU,说明形成年代较早;14C分析结果进一步证实,区域地... 相似文献
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4.
地热田成因机制的研究是地热田资源量精细评价与有效开发的依据.在综合前人研究成果与最新地热钻井资料的基础上,通过对太原盆地岩溶热储地热系统的"源、储、通、盖"主要因素分析,建立了西温庄地热田形成的概念模型,并精细评价了地热资源量.西温庄地热田是一个在非对称性裂谷盆地的高大地热流值背景下,来自东、西山奥陶系岩溶储层裸露区的大气降水,沿着岩溶不整合面和断裂这个运移通道,从东山和西山双向补给,经盆地边界断裂进入盆地深部热储,吸热、增温后逐步在盆地中部西温庄隆起的碳酸盐岩岩溶储集层中富集、承压而形成的中低温传导型地热系统.西温庄地热田的岩溶地热系统具有封盖性能好、主力储集层段多、补给速度较快、盖层地温梯度较高等特征.表现为奥陶系岩溶热储上覆盖层包括石炭系、二叠系、三叠系与第四系,顶面埋深800~1 700 m;从上至下依次发育了峰峰组下段-上马家沟组上段、上马家沟组下段、下马家沟组上段和亮甲山组4套主力含水层段,热储层平均有效厚度累计184.6 m;地热水从补给区至盆地承压区的运移时间约2 000 a;奥陶系热储上覆岩层的平均地温梯度为3.0~4.0℃/100 m,地热水温度范围为55~75℃.西温庄地热田奥陶系岩溶热储的地热资源量精细评价结果表明,热储总量合计33.53×108 GJ,折合标煤1.14×108 t.年开采地热资源量可满足607×104m2的供暖面积,开发潜力巨大. 相似文献
5.
The karst Tabular Middle Atlas Causses reservoir is the main drinking-water supply of Fez-Meknes region (Saïs Basin) in Morocco. Recent analyses showed a decline in associated groundwater chemical quality and increased turbidity. To understand this hydrosystem, four surveys were undertaken during fall and spring, 2009–2011. Hydrogeochemical studies coupled with isotopic analyses (δ18O, δD and 222Rn) showed that the aquifers between the causses (mountains) and the Saïs Basin are of Liassic origin and at the southern extremities are of Triassic origin. Five recharge zones of different altitudes have been defined, including two main mixing zones in the south. Deuterium excess results suggest local recharge, while a plot of δ18O versus δD characterizes a confined aquifer in the eastern sector. 222Rn results reveal areas of rapid exchanges with an upwelling time of less than 2 weeks. A schematic conceptual model is presented to explain the groundwater circulation system and the behavior of this karst system. 相似文献
6.
Characterization of surface water and groundwater in the Damascus Ghotta basin: hydrochemical and environmental isotopes approaches 总被引:1,自引:0,他引:1
Zuhair Kattan 《Environmental Geology》2006,51(2):173-201
The hydrochemistry of major ions and environmental isotope compositions (18O, 2H and tritium) of water samples have been used to investigate the characteristics of rainfalls, surface water and groundwater in the Damascus Ghotta basin. The groundwater salinity in the Damascus Ghotta basin gradually increases, as the groundwater moves from western to south-eastern and north-eastern parts of the basin. A strong relationship exists between the Barada river and the surrounded groundwaters, mainly in terms of recharge by infiltration of surface waters. The groundwater quality in the Adra region has clearly become less saline as a result of establishment of the sewage-water-treatment station in this area since 1997. The uncommon depleted stable isotope concentrations in the vicinity of Al-Ateibeh Lake and Adra valley could be interpreted as a result of sub-flow recharge from the Cenomanian–Turonian aquifer, mostly prolonged along the Damascus Fault, which forms direct contact between this complex and the Quaternary alluvium aquifers. The extensive exploitation of water from the Cenomanian–Turonian aquifer for drinking water supply would shortly be reflected by a gradual decline of the groundwater table in the Damascus Ghotta basin. Amelioration of water quality in the Damascus basin still requires further management strategies and efforts to be taken within the forthcoming years. 相似文献
7.
Aquifer vulnerability and groundwater quality in mega cities: case of the Mexico Basin 总被引:1,自引:0,他引:1
Jose Alfredo Ramos Leal C. Noyola Medrano F. O. Tapia Silva 《Environmental Earth Sciences》2010,61(6):1309-1320
The aquifer system in the Metropolitan Zone of the Mexican Basin is comprised by a higher, middle, and a lower aquifer, separated
by less permeable elements. This study integrated a geographical database from which aquifer vulnerability values were obtained
using the SINTACS method. The results show the lowest vulnerability values in the lacustrine zone of the basin, where most
of the urban area is settled. The medium vulnerability indices are at the edges of the basin and are associated with tuffs,
pyroclasts and alluvial deposits. The highest vulnerability values are in the ranges bordering the basin. High water quality
values are toward the limits of the basin and in the recharge zones while lower quality water is in the Tlahuac and Iztapalapa
zones. The results of this study enable a cause–effect relationship to be established between potential sources of contamination
and groundwater quality indices only for Tlahuac and Iztapalapa, a notable finding since most of the urban area is settled
over low and very low vulnerability zones. 相似文献
8.
The regional geothermal pattern of the Western Canadian Sedimentary Basin has been studied using available temperature data from wells. Average heat conductivity for various geological formations has been estimated on the basis of net rock studies by Canadian Stratigraphie Services. These data and observations of temperature made in “shut-in holes” in some of the oil pools have been used in heat flow estimations by the Bullard method.The geothermal gradient and heat flow within the basin are exceptionally high in comparison with the other world wide Precambrian platform areas. Especially high geothermal gradient areas are found in the northwestern part of the Prairies Basin in Alberta and British Columbia and most of southeastern and southwestern Saskatchewan. Areas of low gradient are found mainly in the Disturbed Belt of the Foothills, southern and southeastern Alberta, and the Peace River area in British Columbia. Neither the analysis of regional heat conductivity distribution nor the heat generation distribution of the basement rock of the Prairies Basin evaluated on the basis of U, Th and K data after Burwash (1979), explain the observed heat flow patterns of the Prairies Basin. Comparison of heat flow patterns with some of the hydrogeological phenomena suggests the significant influence of fluid flow in the basin formations on geothermal features. Low geothermal gradient areas coincide with water recharge areas and high hydraulic head distribution regions.The phenomenon of upward water movement in the deep strata and downward flow through much of the Cenozoic and Mesozoic strata seems to control the regional heat flow distribution in the basin. The analyses of coal metamorphism in the upper and middle Mesozoic formations of the Foothills Belt and in the central Prairies Basin suggest that the pre-Laramide paleogeothermal heat flow distribution was different from the present one. It is very probable that the Foothills Belt area was characterized by a higher geothermal gradient than the central part of the Prairies Basin, i.e. opposite to the present picture. 相似文献
9.
Incidences of water-rock interaction on natural resources characters,Oum Er-Rabia Basin (Morocco) 总被引:1,自引:1,他引:0
The Oum Er-Rabia Basin provides important water resources from a multi-layer aquifer system of which the Turonian limestone aquifer constitutes the main potential resource. The same basin is also known by its wealth in phosphates and comprises the Ouled Abdoun Series, the largest Moroccan phosphate occurrence. The present work attempts to characterize the interaction of natural resources with their impacts on water and phosphates quality. Hydrogeochemical data on waters of the Turonian and the Eocene aquifers, as well as their petrographical analyses, by optical and electronic microscopes and by the X-ray diffraction method on weathered and non-weathered rocks of relative aquifers, have shown that water-rock interaction has a large influence on the quality of water and phosphate resources in the Oum Er-Rabia Basin. 相似文献
10.
Oliver Schilling Heather A. Sheldon Lynn B. Reid Soazig Corbel 《Hydrogeology Journal》2013,21(3):605-621
Hydrothermal simulations are used to provide insight into the subsurface thermal regime of the Perth metropolitan area (PMA) in Western Australia. High average permeabilities and estimated fluid flow rates in shallow aquifers of the PMA suggest that advection and convection may occur in these aquifers. These processes are simulated, using a new geological model of the PMA to constrain the geometry of aquifers, aquitards and faults. The results show that advection has a strong influence on subsurface temperature, especially in the north of the PMA, where aquifer recharge creates an area of anomalously low temperature. Convection may be important, depending on the permeability of the Yarragadee Aquifer. If convection occurs, it creates thermal highs and lows with a spacing of approximately 5 km. Some of these thermal anomalies migrate over geological time due to coupling between advection and convection, but they are stationary on human timescales. Fault permeability influences the pattern of convection. Advection and convection cause variations in the geothermal gradient which cannot be predicted by conductive models; therefore, these processes should be considered in any model that is used for assessment of geothermal resources in the PMA. 相似文献
11.
SADIKI Moulay Lhassan EL MANSOURI Bouabid BENSEDDIK Badr CHAO Jamal KILI Malika EL MEZOUARY Lhoussaine 《地下水科学与工程》2019,(3):224-236
In arid and semi-arid zones,water is the most vulnerable resource to climate change.In fact,various techniques such as artificial recharge are adopted to restore aquifers and to ensure aquifer sustainability in relation to the accelerated pace of exploitation.Morocco is a Mediterranean country highly vulnerable to climate change,many of its main aquifers are subjected to excessive drawdowns.This technique is practiced to increase potentiality of these aquifers.In the Northwestern area of Morocco,the significant development experienced by Tangier City in the industrial,tourism,and commercial sectors will lead to increased water requirements-up to 5 067 L/s(159.8 mm^3)by 2030.However,the Charf El Akab aquifer system,subject to artificial recharge,is the only groundwater resource of Tangier region;hence,a rational management context is needed to ensure aquifer sustainability,and optimized exploitation under the background of differing constraints,such as increased water requirements,and climate change impacts.This work aims to respond,for the first time,to the Charf El Akab aquifer overexploitation problem,and to evaluate the future scenarios of its exploitation in the event of failure of one of the superficial resources.This work also presents a synthesized hydrodynamic modeling based on the results of the numerical simulations carried out using Feflow software for 2004(date of cessation of injections)and 2011(date of resumption of these facilities),making it possible to evaluate the impact of the artificial recharge on the piezometric level of the aquifer on a spatiotemporal scale.Finally,the exploitation scenarios have shown that the aquifer of Charf El Akab will not adequatly provide for the region's water requirements on the future horizon,entailing an optimal management of water resources in the region and an intentionally increased recharge rate. 相似文献
12.
SADIKI Moulay Lhassan EL MANSOURI Bouabid BENSEDDIK Badr CHAO Jamal KILI Malika EL MEZOUARY Lhoussaine 《地下水科学与工程》2014,7(3):224-236
In arid and semi-arid zones, water is the most vulnerable resource to climate change. In fact, various techniques such as artificial recharge are adopted to restore aquifers and to ensure aquifer sustainability in relation to the accelerated pace of exploitation. Morocco is a Mediterranean country highly vulnerable to climate change, many of its main aquifers are subjected to excessive drawdowns. This technique is practiced to increase potentiality of these aquifers. In the Northwestern area of Morocco, the significant development experienced by Tangier City in the industrial, tourism, and commercial sectors will lead to increased water requirements-up to 5 067 L/s (159.8 mm3) by 2030. However, the Charf El Akab aquifer system, subject to artificial recharge, is the only groundwater resource of Tangier region; hence, a rational management context is needed to ensure aquifer sustainability, and optimized exploitation under the background of differing constraints, such as increased water requirements, and climate change impacts. This work aims to respond, for the first time, to the Charf El Akab aquifer overexploitation problem, and to evaluate the future scenarios of its exploitation in the event of failure of one of the superficial resources. This work also presents a synthesized hydrodynamic modeling based on the results of the numerical simulations carried out using Feflow software for 2004 (date of cessation of injections) and 2011 (date of resumption of these facilities), making it possible to evaluate the impact of the artificial recharge on the piezometric level of the aquifer on a spatiotemporal scale. Finally, the exploitation scenarios have shown that the aquifer of Charf El Akab will not adequatly provide for the region's water requirements on the future horizon, entailing an optimal management of water resources in the region and an intentionally increased recharge rate. 相似文献
13.
江苏地温水温场特征及地热异常分布规律与控制条件探讨 总被引:1,自引:0,他引:1
江苏地温分布的一般规律是:坳陷区地温高于隆起区,坳陷区中次级正向构造高于负向构造,隆起区中则相反,此外,地温随深度加大而增高,全省的第Ⅱ、Ⅲ、Ⅳ含水层中,共划盼出热水异常35个,按平面分布的重叠性归并为21个地热异常,其中大部分可归纳为个异常带,扬子准地台区是本省地热异常的主要分布区。 相似文献
14.
Managing transboundary groundwater resources requires accurate and detailed knowledge of aquifers and groundwater bodies. The Pannonian Basin is the largest intracontinental basin in Europe with a continuous succession of more than 7 km of Miocene to Quaternary sediments and with an average geothermal gradient of about 5 °C/100 m. Geographically the Pannonian basin overlaps eight countries (Hungary, Romania, Serbia, Croatia, Slovenia, Austria, Slovakia and Ukraine), so the issue of transboundary cold and thermal water resources is regionally very important. The T-JAM bilateral Hungarian–Slovenian (HU–SLO) project is the first to apply modern isotopic and chemical analyses in the characterization and correlation of a number of shared groundwater resources in the Mura-Zala Sub-basin of the Pannonian. The aims of this work were the identification of groundwater flow paths, the delineation of transboundary aquifers based on thermal and cold groundwater geochemical and isotope properties in the Mura-Zala Basin, and providing input to calibrate a hydraulic numerical model. Following a common groundwater sampling campaign, 24 cold and thermal groundwater samples from seven aquifers were collected for chemical, isotope, gas and noble gas analyses. Chemical analyses, and D, O and C isotopes were used to correlate cross border aquifers. A regional groundwater flow is hydrogeologically possible in some aquifers in the Mura-Zala Basin, and has been confirmed by hydrogeochemistry. The Újfalu (HU) and Mura (SLO) Formations are a part of the active regional thermal groundwater flow system, probably hydraulically separated from the shallower flow system of the Ptuj-Grad (SLO), Zagyva and Somló-Tihany (HU) Formations. The thermal water is of meteoric origin, reductive and alkaline. The predominant water type in the Quaternary and Pliocene aquifers is Ca–Mg–HCO3, changing to Na–HCO3 in the main Pannonian geothermal aquifer, and Na–Cl brine in deeper and older Miocene aquifers. Total dissolved solids and Na content generally increase with depth. Deuterium is in the range −87‰ to −75‰, 18O from −11.9‰ to −10.4‰, while 14C values are less than 6.1 pmC in the samples of the active regional thermal groundwater flow system. These and results of noble gas analyses indicate recharge during the Pleistocene interglacial period with temperatures around 6–7 °C. Regional thermal water resources are limited and environmental isotopes can be used as an early warning in the management of thermal water. 相似文献
15.
Research on the fault controlling mechanism of geothermal water in Zhangzhou Basin 总被引:1,自引:0,他引:1 
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下载免费PDF全文 Fault has an important influence on the storage and movement of geothermal water. The Zhangzhou Basin is wholly located in a granodiorite rock mass. Due to the low permeability of granodiorite, faulted structure has an evident control action on the hydrothermal activity of geothermal fields. Hot springs in Zhangzhou Basin crack along Pingtan-Dongshan Fault to the northeastern direction and emerge along Fu’an-Nanjing Fault. Through measurement of the temperature of several hot springs in the Basin, we found the temperature along the northwestern direction of Zhangzhou-Tianbao Fault is high and the temperature gap between the two sides of Yangxi-Yuanshan Fault is huge; the estimation of geothermal reservoir temperature of geothermal water through quartz geothermometer indicates that the geothermal reservoir temperature of the northern area of Nanjing-Xiamen Fault is obviously higher than that of southern area. Such result indicates that Fault obviously obstructs underground heat source. Under the condition that the average geothermal gradient of the Zhangzhou Basin is set, the circulation depth of the geothermal water of the Zhangzhou Basin measured by geothermal reservoir temperature is 3 550-5 200 m and the circulation depth of the geothermal water of the north of Nanjing-Xiamen Fault is deeper than that of the South. 相似文献
16.
雷州半岛地热场主要受基底构造格局的控制和地下水活动的影响,隐伏花岗岩体放射性元素生热对盖层地温的贡献不可忽视,第四纪更新世火山喷发活动的岩浆余热已几乎完全散失,岩浆体和围岩温度已趋于平衡。由火山喷发而形成的雷北螺岗岭和雷南石峁岭两个玄武岩台地,为半岛地下水的主要补给区,由于冷水流下渗的地温效应,新生界盖层浅部地温梯度<3℃/100m,呈现地热负异常。在以传导传热为主的区域,地热场特点与华北盆地相似,新生界盖层地温梯度与基底岩面的埋深密切相关。由于地壳深部较均一的热流在地壳表部再分配的结果,若干凸起区盖层地温梯度为4—5℃/100m,呈现地热正异常。某些控制凸起区的边界断裂,当深层热水沿其上涌,造成附加热源,和传导传热相叠加,盖层地温梯度可高达5—8℃/100m,形成更鲜明的地热正异常。 相似文献
17.
Spatial and temporal constraints on regional-scale groundwater flow in the Pampa del Tamarugal Basin,Atacama Desert,Chile 总被引:1,自引:0,他引:1
Richard S. Jayne Ryan M. Pollyea Justin P. Dodd Elizabeth J. Olson Susan K. Swanson 《Hydrogeology Journal》2016,24(8):1921-1937
Aquifers within the Pampa del Tamarugal Basin (Atacama Desert, northern Chile) are the sole source of water for the coastal city of Iquique and the economically important mining industry. Despite this, the regional groundwater system remains poorly understood. Although it is widely accepted that aquifer recharge originates as precipitation in the Altiplano and Andean Cordillera to the east, there remains debate on whether recharge is driven primarily by near-surface groundwater flow in response to periodic flood events or by basal groundwater flux through deep-seated basin fractures. In addressing this debate, the present study quantifies spatial and temporal variability in regional-scale groundwater flow paths at 20.5°S latitude by combining a two-dimensional model of groundwater and heat flow with field observations and δ18O isotope values in surface water and groundwater. Results suggest that both previously proposed aquifer recharge mechanisms are likely influencing aquifers within the Pampa del Tamarugal Basin; however, each mechanism is operating on different spatial and temporal scales. Storm-driven flood events in the Altiplano readily transmit groundwater to the eastern Pampa del Tamarugal Basin through near-surface groundwater flow on short time scales, e.g., 100–101 years, but these effects are likely isolated to aquifers in the eastern third of the basin. In addition, this study illustrates a physical mechanism for groundwater originating in the eastern highlands to recharge aquifers and salars in the western Pampa del Tamarugal Basin over timescales of 104–105 years. 相似文献
18.
Increased groundwater withdrawals for the growing population in the Rio Grande Valley and likely alteration of recharge to local aquifers with climate change necessitates an understanding of the groundwater connection between the Jornada del Muerto Basin and the adjoining and more heavily used aquifer in the Mesilla Basin. Separating the Jornada and Mesilla aquifers is a buried bedrock high from Tertiary intrusions. This bedrock high or divide restricts and/or retards interbasin flow from the Jornada aquifer into the Mesilla aquifer. The potentiometric surface of the southern Jornada aquifer near part of the bedrock high indicates a flow direction away from the divide because of a previously identified damming effect, but a groundwater outlet from the southern Jornada aquifer is necessary to balance inputs from the overall Jornada aquifer. Differences in geochemical constituents (major ions, δD, δ18O, δ34S, and 87Sr/86Sr) indicate a deeper connection between the two aquifers through the Tertiary intrusions where Jornada water is geochemically altered because of a geothermal influence. Jornada groundwater likely is migrating through the bedrock high in deeper pathways formed by faults of the Jornada Fault Zone, in addition to Jornada water that overtops the bedrock high as previously identified as the only connection between the two aquifers. Increased groundwater withdrawals and lowering of the potentiometric surface of the Jornada aquifer may alter this contribution ratio with less overtopping of the bedrock high and a continued deeper flowpath contribution that could potentially increase salinity values in the Mesilla Basin near the divide. 相似文献
19.
叶闻文 《水文地质工程地质》2000,27(3):16-18
广东三坑地热田位于吴川-四会深大断裂带的东北侧,三坑向斜岩溶盆地内。地下热水主要赋存于NE与NW向断裂构造及其交汇部位的岩溶裂隙发育带中。根据地热地质条件及水热对流系统分析,地下热水是在水热对流系统中由深循环高温构造裂隙水与浅循环8常温岩溶水混合而成。三坑地热田热水资源具有水温适中、水量丰富、水质良好、动态稳定等特点。开发潜力很大。 相似文献
20.
Hydrogeological and mixing process of waters in deep aquifers in arid regions: south east Tunisia 总被引:1,自引:0,他引:1
Jalila Makni Fatma Ben Brahim Saoussan Hassine Salem Bouri Hamed Ben Dhia 《Arabian Journal of Geosciences》2014,7(2):799-809
This study addresses the hydrogeochemistry of thermal and cold waters from south east Tunisia. Temperature intervals are 38.5–68 °C and 22–27.8 °C for thermal water and cold water, respectively. Three distinct hydrogeological systems supply water either for irrigation or for drinking; they are: (1) the Continental Intercalaire geothermal aquifer (CI), (2) the Turonian aquifer and (3) the Senonian aquifer. A synthetic study including hydrochemical, hydrogeological and geothermal approaches have been applied in order to evaluate the inter-aquifers water transfer in south east of Tunisia. By using silica geothermometers and saturation indices for different solid phases, estimated thermal reservoir temperature varies between 52 and 87 °C and between 75 and 110 °C, respectively. Based on chemical and thermal data, mixing, which occurs between the ascending deep geothermal water and shallow cold water, is about 57 % cold water. 相似文献