共查询到20条相似文献,搜索用时 687 毫秒
1.
Sardinia is one of the Italian regions with the greatest number of dams per inhabitants, almost 60 for a population of only 1.5 million people. Many of these dam sites are located on non-carbonate rocks along the main rivers of the Island and their waters are used for irrigation, industrial, energy supply, drinking and flood regulation purposes.The Pedra 'e Othoni dam on the Cedrino river (Dorgali, Central-East Sardinia) is located along the threshold of the Palaeozoic basement on the Northern border of the Supramonte karst area, where water is forced to flow out of the system through several resurgences, the most famous of which is the Su Gologone vauclusian spring, used for drinking water supply. The other main outflows of the system, Su Tippari and San Pantaleo springs, are at present almost permanently submerged by the high water level of the Pedra 'e Othoni dam. In the near future water will be supplied also to other communities with a possible increase of water taken from the spring.The dam, originally meant to regulate the flooding of Cedrino river but actually used for all sorts of purposes (electricity supply, drinking water, irrigation of farmlands, industrial uses), has a maximum regulation altitude of 103 m a.s.l., only slightly less than a meter below the Su Gologone spring level (103.7 m), and 4 and 9 m respectively above the submerged Su Tippari and San Pantaleo springs.During floods of the Cedrino river, occurring on average twice a year, also the Su Gologone spring becomes submerged by the muddy waters of the lake for a time ranging between a couple of hours up to several days, making water supply impossible.The analysis of the available meteorological and hydrogeological data relative to the December 2004 flood, one of the severest of the past 100 years, suggests that the reservoir is filled in a few days time. Several flooding scenarios have been reconstructed using digital terrain models, showing that backflooding submerges most of the discharge area of the aquifer, having important repercussions also on the inland underground drainage system. The upstream flood prone areas prevalently comprise agricultural lands with some sparse houses, but also highly frequented tourist facilities. Fortunately flooding occurs outside the tourist season, thus limiting risk to a limited number of local inhabitants. Massive discharge at the dam site, instead, determines a more hazardous situation in the Cedrino coastal plain, where population density in low lying areas is much higher. To avoid flooding hazard upstream the water level in the lake should be regulated, keeping it low in the flood prone seasons, and having it filled from the end of the winter in order to have enough water stocked before the beginning of the summer. Discharge at the dam site, instead, should be done cautiously, preventing severe flooding of the coastal Cedrino plain. 相似文献
2.
陡坡水库存在大坝质量差、坝体发育大量裂缝、背水坡出现散浸现象、坝后沼泽化并形成一上升泉以及排水渠和鱼池有絮状析出物、渗漏量增大等问题,这些异常现象都是由坝体及坝基渗流引起的。在阐述坝体和坝基地质、水文地质条件情况下,分析了大坝渗漏成因及大坝的渗透稳定性,指出坝体实际浸润线及坝体渗漏量是不正常的,特别是1987年后当库水位高于194 m,同一库水位呈上升趋势,这是反常的。坝基实际渗漏量异常,存在管涌和接触冲刷问题,尤其库水位低至 193.84 m,坝后上升泉仍有沙沸现象。上述现象表明大坝渗流是危险的,并分析了散浸、析出物、上升泉及沼泽化、坝肩及绕坝渗漏等现象的成因。 相似文献
3.
为精确定位堤坝渗漏点位置,介绍了一种能直接定量探测水的地球物理方法--磁共振法。通过阐述磁共振方法的基本原理和反演算法,确定适用于堤坝渗漏探测的线圈类型和测量方式。采用吉林大学自主研制的JLMRS型磁共振探水仪,在辽宁桓仁崔家街堤坝坝顶铺设4匝边长为12.5 m的正方形线圈,连续测量15个点,测量深度达35 m。经过数据处理和反演解释,得到坝体二维含水量剖面图,为消除上游水体对实验结果的影响提出了修正方法,进而得到坝体二维相对含水量剖面。实验结果表明:崔家街大坝存在3个渗漏点(距溢洪道140、180和240 m处)和2个渗透区(距溢洪道100~150 m和170~250 m处);深度为-20~-10 m,为砾卵石层渗漏,与工程地质资料和下游渗水情况相符。 相似文献
4.
It is assumed that the groundwater dam under consideration is located in the lower Oshipcheon River along Yeongdeok-gun County, Gyeongsangbuk-do Province, eastern Korea. In this study, changes in groundwater level and construction effects of the groundwater dam were analyzed using a SWAT–MODFLOW model designed for integration of surface water and groundwater, and validity analysis before and after construction of the groundwater dam was evaluated. There are an average increase of 0.46 m and a maximum increase of 1.16 m, respectively, at the upstream region due to the groundwater dam. Groundwater levels at the upstream region show an average increase of 0.42 m by the groundwater dam when the water quantity of demand (10,080 m3/day) is pumped. The groundwater dam has potential as an alternative for the surface water dam to secure water resources in the study area. 相似文献
5.
The main objective of this paper is to estimate the water seepage from Lar dam reservoir based on a combination of the geological structure study results and identification of the flow conduits in the right bank of the reservoir. From the beginning of impounding the dam in 1980, heavy seepage was observed at two karstic springs, Haraz and Galugah, located about 9 km downstream of the dam. During the first impounding, the discharge of the Haraz spring abruptly increased from 0.5 m3/s to around 5 m3/s. The results of piezometers and dye tests indicate that seepage occurs mainly through the right abutment of the dam where there is a structural wedge between the north dipping North Tiz Kuh and the south dipping Lar Valley faults. F1, F2, and F3 faults are the most important faults in vicinity of the structural wedge. Based on the dye test results, the North Tiz Kuh and F3 faults along which caves No. 1 and 2 are formed are regarded as two isolated conduits for seepage and conveyance into Lar Valley Fault at downstream of Lar dam. After identifying the conduits, water seepage from the Lar dam reservoir has been calculated using finite element method. According to the results of numerical method, when the reservoir water level is at 2485 m a.s.l, the average of water seepage is around 8.51 m3/s (this amount of water is related to the seepage along the Lar Valley Fault). The average discharge of springs downstream of the dam has been used to verify the numerical method. The results show a very close relation between estimated and observed discharge. 相似文献
6.
Ikhlas Alhejoj Klaus Bandel Elias Salameh Khitam Alzughoul 《Environmental Earth Sciences》2018,77(7):281
A Pleistocene travertine quarrying on a hill in Siwaqa area, central Jordan, excavated solid, well-stratified travertine beds of about 12 m in thickness. The fabric and composition of the travertine indicate original deposition from hot spring water. At present, the area and its surrounding are devoid of any perennial water, except for periodic flood flows that collect at Siwaqa dam 4–5 km to the west of the quarry area, joining the catchment of the River Mujib. The travertine overlies combusted oil shale. The exposed hot spring travertine consists predominantly of well-bedded limestone, interrupted by horizons of chaotic angular debris, indicating ejection from below such as those produced by geysers. The article discusses the origins of the mottled and angular rock fragments, their transportation due to explosive geyser, the conditions and possible causes that produced the pressures leading to steam outbreaks and are responsible for the observed redistribution of travertine layers. 相似文献
7.
为解决岩溶高原山区缺水的问题,合理开发利用表层岩溶水,开展了水文地质详细调查。查明区内表层岩溶泉出露13个,流量0~67.53 L·s?1,动态变化与降水关系密切。文章总结了表层岩溶水“泉-池(窖)-库”优化调控、绿能高效开发利用模式:①在有砂泥岩夹层分布的凹部山岩溶洼地,采用防渗帷幕灌浆,建设悬挂式凹部山水库,积蓄地表水、表层岩溶水形成自流供水;②在湾半孔表层泉处建设蓄水池直接引流利用;③在湾半孔表层泉附近建设水泵站、光伏电站,平水期时通过光伏电站发电,由泵站自动控制抽取表层岩溶水补给凹部山水库,形成地表、地下水优化调控,联合调度调蓄利用25.3万m3·a?1,解决了区内13 000余人的生活生产用水困难问题。 相似文献
8.
渭北中部筛珠洞泉补给来源的再认识 总被引:1,自引:0,他引:1
筛珠洞泉位于中低山区与渭北黄土台塬区衔接地带。筛珠洞泉区地势整体趋势为西北高东南低,北部以中低山为主,海拔在1 200-1 600 m之间,多由裸露和隐伏碳酸盐岩组成;西南地势逐渐降低,海拔在800-1 000 m之间,为以唐王陵向斜为主的一系列褶皱构造,由奥陶系碎屑岩和碳酸盐岩组成;东南部地势呈阶梯状下降,山前地带海拔多在400-500 m之间,为裸露碳酸盐岩区与山前冲洪积扇区的接触地带。筛珠洞泉作为渭北中部最大的岩溶泉,对于其补给来源前人已做了大量的研究,较为一致的认识是泾河渗漏是筛珠洞泉最主要补给来源,且筛珠洞泉是渭北中部筛珠洞泉域隐伏岩溶系统的集中排泄点。本文根据氢、氧和锶同位素的研究成果,结合水文地球化学及岩溶水文地质条件,对筛珠洞泉的补给来源提出了与前人研究不同的认识,即筛珠洞泉的补给以筛珠洞泉域外西南部岩溶地下水为主;在所有的补给来源中,大气降水、河水及岩溶水所占比例分别为11%、37%和52%;在岩溶水补给中,西南部、西北部及坝址区岩溶水所占比例分别为77.9%、19.7%和2.4%。在此基础上,本文还根据氚同位素资料估算筛珠洞主泉岩溶水的平均滞留时间为62-64年。 相似文献
9.
A hydrometric, hydrochemical and environmental isotopic study was conducted to identify the source and origin of observed springs on the foot of the hillock abutting the left flank of the Gollaleru earthen dam, Nandyal, Andhra Pradesh, India. Water samples (springs, reservoir water and groundwater) in and around the dam area were collected and analyzed for environmental isotopes (\(\updelta ^{18}\!\hbox {O}\), \(\updelta ^{2}\hbox {H}\) and \(^{3}\hbox {H}\)) and hydrochemistry. Reservoir level, spring discharges and physico-chemical parameters (temperature, electrical conductivity, pH, etc.) were monitored in-situ. Isotopic results indicated that the source of springs is from the Owk reservoir and groundwater contribution to the springs is insignificant. Based on hydrometric observations, it is inferred that the springs might be originated from the reservoir level of 209 m amsl. It is found that the lower spring discharges were derived from diffuse sources (seepage) which could be a mixture of reservoir water and the groundwater, while the relatively higher spring discharges were resulted from concentrated sources (leakage) from the reservoir. Thus, the study portraits the usefulness of isotope techniques in understanding the dam seepage/leakage related problems. 相似文献
10.
清华洞暗河堵洞成库与防渗技术 总被引:1,自引:1,他引:0
为解决富宁县城供水及其附近乡村农业灌溉问题,对清华洞暗河进行堵洞成库。水库设计总库容9934万m3,堵洞体高87.5m,最大蓄水深约116m。地质调查发现,库盆及四周均分布有较完整的相对隔水层、隔水层,山体雄厚,泉点出露均高于水库设计蓄水高程,但是,枢纽区地质构造较为复杂,岩溶发育,暗河进口左岸有溶洞和断层溶塌体分布,引起绕坝渗漏的可能性很大。根据枢纽区工程地质条件,选择附近有D3g隔水层分布并能避开溶洞影响,同时距暗河进口较近而利于施工的0+085坝址段对清华洞暗河进行封堵,并采用上下两层悬挂式半封闭帷幕灌浆对溶塌体和其他岩溶裂隙通道进行防渗处理。经多年实践表明,本防渗技术可行,坝址、防渗帷幕灌浆线路以及灌浆设计合理,水库造价低,有效地解决了县城供水和下游2.26万亩农田及21.5万亩热区作物灌溉问题。 相似文献
11.
12.
Kenneth S. Johnson 《Environmental Geology》2008,53(5):945-950
Gypsum is a highly soluble rock and is dissolved readily to form caves, sinkholes, disappearing streams, and other karst features
that typically are also present in limestones and dolomites. Gypsum karst is widespread in the USA and has caused problems
at several sites where dams were built, or where dam construction was considered. Gypsum karst is present (at least locally)
in most areas where gypsum crops out, or is less than 30–60 m below the land surface. These karst features can compromise
on the ability of a dam to hold water in a reservoir, and can even cause collapse of a dam. Gypsum karst in the abutments
or foundation of a dam can allow water to pass through, around, or under a dam, and solution channels can enlarge quickly,
once water starts flowing through such a karst system. The common procedure for controlling gypsum karst beneath the dam is
a deep cut-off trench, backfilled with impermeable material, or a close-spaced grout curtain that hopefully will fill all
cavities. In Oklahoma, the proposed Upper Mangum Dam was abandoned before construction, because of extensive gypsum karst
in the abutments and impoundment area. Catastrophic failure of the Quail Creek Dike in southwest Utah in 1989 was due to flow
of water through an undetected karstified gypsum unit beneath the earth-fill embankment. The dike was rebuilt, at a cost of
US $12 million, with construction of a cut-off trench 600 m long and 25 m deep. Other dams in the USA with severe gypsum-karst
leakage problems in recent years are Horsetooth and Carter Lake Dams, in Colorado, and Anchor Dam, in Wyoming. 相似文献
13.
《Geodinamica Acta》2013,26(1-3):15-28
Submarine karstic springs are frequent on the Mediterranean shore but most of them are brackish which prohibits their use. The numerous attempts to catch these springs ended in failure. Recent studies on the development of karst systems and the paleogeography of the Mediterranean sea explain these failures. Studies on the shores of south-eastern France have enabled us to propose an operating model that explains the mechanism of salt contamination. The Port Miou system (Cassis, France) is a two kilometers long submarine gallery developped in the limestone series of Calanques (Marseille, France). The average discharge is between 2 to 5 m3/s but the water is brackish. In the 70's a dam was built to prevent sea intrusion in the cave but the water remained brackish upstream of the dam. The use of helium, and then rebreathers by cave divers, made it possible to explore a vertical pit down to -179 m below the sea level at the end of the cave. At that depth, the water is still brackish. Important quantity of titanium was observed at the surface of the cave sediment upstream of the dam and at the end of the cave. The titanium comes from the residual product of a factory of alumina that is discharged in the Cassidaigne submarine canyon, at a depth of 300 m b.s.l., a few kilometers south to the spring. This residual product locally called «red mud» is very rich in titanium. This supports the model of a sea water aspiration in a deep gallery connected to the canyon. The Cassidaigne canyon that cuts a limestone plateau with dolines and caves is probably a pocket valley. Its presence is related to the several stages of lowering of the Mediterranean sea at the Messinian Deep Stage that allowed the existence of cave networks up to several hundreds of meters below the present sea level. The sea water is now sucked into the system. A similar example exists in Kefalonia island (Greece) where a sea intrusion is observed in coastal sinkholes. This model explains why the different attempts to diminish the salinity of these brackish springs, by construction of dams close to the outlets, have failed. 相似文献
14.
目前在尾矿坝稳定性和溃坝模拟分析方面,对溃口位置及水砂的流动状态难以做出准确判断。将尾矿坝稳定性和溃坝模拟有机结合,采用FLAC3D计算正常水位、洪水位、漫顶水位三种工况下尾矿坝稳定性,并利用Rhino与Fluent建立尾矿库及下游精细地形,开展尾矿库溃坝水砂在不同时刻及不同地形下的流动状态研究分析。结果表明:(1)浸润线的埋深随尾矿库水位的升高而变小,由正常水位升高至洪水位时浸润线埋深下降5~8 m,漫顶水位时坝顶浸润线沿坡面向下运移约8 m;(2)库水位对剪切带及尾矿坝稳定性有显著影响,从正常水位到洪水位时,剪切带纵向上不断向坝体内部延伸,横向上不断向坝脚延伸,剪切应变率增大为5.78×10?5,尾矿坝稳定系数由1.80下降至1.32;(3)达到坝顶时剪切带急剧缩短,而剪切应变率进一步增大为3.32×10?4,尾矿坝稳定系数由1.32下降到1.18。溃坝水砂的流动状态受地形影响明显,在山谷中表现为范围减小、流速增大的汇聚流动,在平坦农田处表现为范围增大、流速减小的发散流动特点。 相似文献
15.
Treatment of the seepage problems at the Kalecik Dam (Turkey) 总被引:10,自引:0,他引:10
This paper describes the seepage prevention measures at Kalecik Dam. Water leaked from the foundation of the dam after the impoundment. The dam, 77 m in height, was constructed for irrigation purposes.
The foundation consists of Mesozoic ophiolite, Paleocene allochthonous units composed of different lithologies and Miocene conglomerate. Karstified and fractured Paleocene limestone outcrops on the right bank of the dam foundation. This unit extends into, and its thickness increases within, the right abutment. The leakage occurs towards the downstream springs through the right bank limestone.
The main grout curtain is 200 m long and 60 m deep and was constructed on the right bank. After reservoir impounding, new springs were observed in the downstream area. Therefore, after the construction of the dam, remedial curtain grouting was required and carried out in three stages. Firstly, the main grout curtain was supplemented by additional grouting to seal the fractures and infill karstic cavities. The diversion tunnel was also repaired. The curtain depth was the same as the depth of the previous curtain. The second stage of additional treatment consisted of new deep grouting. Some investigation holes were also drilled along the same alignment as the main curtain to locate the seepage in the region. These holes were extended to an elevation of 442 m. The final stage of grouting measures was between the spillway and the dam body and underneath the spillway.
As a result of the additional grouting measures, the spring discharges observed downstream of the dam embankment decreased. However, the seepage paths were extended and were moved with time so that the seepage problems are still continuing. 相似文献
16.
黄河上游戈龙布滑坡高速下滑成因机制及堵江分析 总被引:1,自引:0,他引:1
黄河上游戈龙布滑坡位于积石峡水电站库区内,经过现场调查可知,戈龙布滑坡为一大型滑坡,整个滑坡体积达到5040万m3,一共分为4个区。研究表明,戈龙布滑坡成因机制为滑移-拉裂型,滑坡在黄河右岸经过高速远程下滑过后撞击上游山体,部分滑体越过黄河堆积于左岸并堵塞黄河达数百年,堰塞湖内有厚度达30余米的纹泥沉积,初步分析滑坡坝的高度在100m左右,库水深在70m左右,滑坡堵江时代在Q4时期。滑坡坝溃决后导致黄河改道,残留的滑体分别位移黄河的左岸和右岸。 相似文献
17.
应用地下水模拟软件GMS建立山东济南明水泉域的三维地下水流数值模拟模型,对泉域内岩溶地下水进行数值模拟和水平衡分析,评价了泉域岩溶地下水资源总量和在保持泉水常年喷涌条件下的岩溶地下水可采资源量。在此基础上,应用时间序列分析法对泉水水位动态进行了预测。结果表明:明水泉域多年(2003-2014年)地下水补给量为1.23×108 m3·a-1,排泄量为1.36×108 m3·a-1,均衡差为-1.30×108 m3·a-1;模型预测未来20年泉水最低水位为55.65 m,最高水位为68.72 m,平均泉流量为34.6×104 m3·d-1。 相似文献
18.
S. García-López J. Benavente J. J. Cruz-Sanjulián M. Olías 《Hydrogeology Journal》2009,17(7):1779-1790
Regulatory actions taken in the Adra River basin (746 km2), located south of the Sierra Nevada Mountains (SE Spain), are analyzed. The Benínar Reservoir (60 hm3), which entered into service in 1983, has suffered from severe leakage from the outset, preventing it from performing the water management functions originally foreseen for it; however, it has also made it possible to determine the response of the underlying carbonate aquifer into which the reservoir water is draining. This response has been studied based on historical data as well as the occurrence of an extraordinary recharge produced by a period of exceptionally heavy rainfall. A conceptual model of the system’s functioning has been established by analyzing leakage rates, piezometric variations, the discharge through the only spring in the area (the Fuentes de Marbella spring) and the physical-chemical characteristics of the aquifer water. Geological and structural aspects of the carbonate formation were also included. An alternative solution for water regulation in the river basin is proposed: the construction of a smaller dam downstream from the spring. This dam would induce recharge through the permeable base of the reservoir, raise the piezometric level and thus increase its storage capacity, as well as control and regulate the water discharged from the spring. 相似文献
19.
陆浑水库坝基断层破碎带渗透稳定性评价 总被引:1,自引:5,他引:1
陆浑水库位于河南省洛阳市嵩县境内。为了论证大坝在水库投入正常高水位(319.5m,327.5m,331.8m)运行时的安全,经过对30余年的水位观测资料的整理和分析,在厘定水文地质模型的定性分析基础上,运用现代数理统计原理,成功地解决了困扰水库正常运行的坝基渗流问题,获得了善于坝基渗透稳定状况及其变化趋势的认识。结果表明:目前大坝的运行状况是正常的;水库在缓慢蓄水过程中,截水槽的薄弱部位可以得到渗透中固,截水槽中的填土与岩石结合面的抗渗比降可达45以上;上游铺盖与截水槽结合下游排水的防渗体系有效地控制了坝基渗流。同时,预测了高水位时坝基渗流是稳定的,水库完全可以投入高水位运行。这为病险水库的论证提供了一个案例。 相似文献
20.
F. W. L. Kho B.Sc. M.Eng. P. L. Law M.Sc. Sc.D. S. H. Lai B.Eng. M.Sc. Ph.D. Y. W. Oon B.Eng. M.Eng. L. H. Ngu B.Eng. M.Eng. H. S. Ting B.Eng. 《International Journal of Environmental Science and Technology》2009,6(2):203-210
Mathematical simulations on dam break or failure using BOSS DAMBRK hydrodynamic flood routing dam break model were carried out to determine the extent of flooding downstream, flood travel times, flood water velocities and impacts on downstream affected residences, properties and environmental sensitive areas due to floodwaters released by failure of the dam structure. Computer simulations for one of the worse case scenarios on dam failure using BOSS DAMBRK software accounted for dam failure, storage effects, floodplains, over bank flow and flood wave attenuation. The simulated results reviewed a maximum flow velocity of 2.40 m/s with a discharge of approximately 242 mз /s occurred at 1.00 km downstream. The maximum discharge increased from 244 m3/s (flow velocity = 1.74 m/s occurred at 8th. km) to 263 m3/s (flow velocity = 1.37 m/s occurred at 12th. km); about a 39% drop in flow velocity over a distance of 4.00 km downstream. If the entire dam gives way instantly, some spots stretching from 0.00 km (at dam site) to approximately 3.40 km downstream of the dam may be categorized as “danger zone”, while downstream hazard and economic loss beyond 3.40 km downstream can be classified as “low” or “minimal” zones. 相似文献