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海潮波动可以引起海岸带地下水位发生波动。建立了基于有限差分法的滨海地区一维承压含水层地下水运动数值模型。将潮汐波动概化为正弦波,模拟了滨海地区地下水位随潮汐波动的变化。通过与初始水位水平的承压含水层水位变化的比较表明,受海潮影响的滨海承压含水层地下水位与海潮有相似的波动特征,但变幅减小,受海潮的影响程度与离海岸的距离有关,随着离海岸距离的增加,地下水位的变幅及潮汐效率呈负指数函数衰减,但比前者变化程度稍缓,地下水位对海潮的滞后时间随距离呈线性增加。 相似文献
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海潮波动可以引起海岸带有越流的承压含水层地下水头发生波动。建立了基于有限差分法的滨海地区一维承压含水层地下水运动数值模型。通过将潮汐波动概化为正弦波,分别对初始水头水平及线性倾斜的承压含水层模拟了滨海地区有越流的承压含水层地下水头随潮汐波动的变化。通过对两种情形下的变化比较,结果表明,受海潮影响的滨海承压含水层地下水头与海潮有相似的波动特征,但变幅减小,受海潮的影响程度与离海岸的距离有关,随着离海岸距离的增加,地下水头的变幅及潮汐效率呈负指数函数衰减,水头倾斜情形下变幅更小,潮汐效率更小,滞后时间更短,地下水头对海潮的滞后时间随距离呈线性增加。 相似文献
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海潮及其影响下海岸带地下水位时间序列的周期性和滞后性 总被引:2,自引:0,他引:2
运用谱分析原理,对广西北海市海潮及受海潮影响的滨海含水层地下水位时间序列进行分析,求出海潮和观测孔水位变化的周期及地下水位滞后于海潮的时间,分析水位滞后时间与离海岸的垂直距离之间的关系。结果表明,北海市海潮和海岸带地下水位有约344.82h(14.37d)的长周期变化和约24.7h、12.5h的短周期波动,距海岸2175、2350、2375m的3个观测孔地下水位对海潮的滞后时间分别为5.5、6.25和7h,滞后时间随离海岸的距离增大大体上呈线性增加。 相似文献
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地下水位动态变化是外界影响因素的反映,微观动态也受到外界长期周期性影响。根据在华北平原设置的自动监测设备监测的高频率水位资料,利用频谱分析方法分析了地下水位微观动态,确定了周期变化特征。与天体潮汐所体现出的周期特征对比,说明华北平原(北京除外)大多数观测孔都受到天体潮汐作用的周期影响:其中沿海的部分浅层含水层地下水与海潮潮汐作用有关,个别观测孔受蒸散发作用影响体现出日变化;内陆大多数深层观测孔和个别浅层观测孔微动态受固体潮汐作用影响,反映了不同地区的含水层以及岩性特征。 相似文献
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《水文地质工程地质》2014,(3)
地下水位动态变化是外界影响因素的反映,微观动态也受到外界长期周期性影响。根据在华北平原设置的自动监测设备监测的高频率水位资料,利用频谱分析方法分析了地下水位微观动态,确定了周期变化特征。与天体潮汐所体现出的周期特征对比,说明华北平原(北京除外)大多数观测孔都受到天体潮汐作用的周期影响:其中沿海的部分浅层含水层地下水与海潮潮汐作用有关,个别观测孔受蒸散发作用影响体现出日变化;内陆大多数深层观测孔和个别浅层观测孔微动态受固体潮汐作用影响,反映了不同地区的含水层以及岩性特征。 相似文献
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滨海含水层地下水位动态特征 总被引:8,自引:0,他引:8
广西北海市滨海含水层具有多层结构,承压含水层及其项、底板弱透水层向海域延伸。承压地下水位接受降雨入修补给而抬升,呈季节性变化;海岸带地下水位受海潮涨落影响,具有周期大约为15天和1天的波动;在地下水集中开采地段,地下水位在近几年里呈现持续下降趋势。 相似文献
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在沿海地区,尤其是围海造陆工程形成的陆域地区地下水水位受潮汐影响较大,使传统水文地质试验求取含水层参数存在较大误差。因此通过合理概化地下水在潮汐作用下运动规律,建立数学模型,推导解析公式求取沿海含水层参数具有重要意义。分析天津滨海新区两处观测孔地下水位及潮汐波动特征,在滞后时间不明显的情况下,利用观测孔水位变幅数据计算了含水层水头扩散系数,并根据承压含水层储水系数经验值进一步获得含水层渗透系数。通过两个观测孔分别计算,对比计算结果互相验证发现,该方法取得了令人满意的结果。利用地下水潮汐效应计算含水层参数可以广泛应用于沿海地区水文地质工作中。 相似文献
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黄河三角洲滨海湿地浅层地下水位受潮汐波动影响明显,海洋潮汐和受其影响的海岸带湿地浅层地下水具有复杂的周期性变化和趋势性变化。本文通过现场水文监测,设定时间自动采集地下水监测数据,连续监测地下水动态变化,分析地下水位与海洋潮汐波动关系,为湿地水文变化和预测分析提供科学依据。 相似文献
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在滨海地区,地下水水位受潮汐波动影响较大,使得传统的抽水试验、水位回复试验等方法确定含水层参数存在困难且花费较大。通过对广西北海市滨海含水层地下水位动态资料进行分析,发现其上升段和下降段是不对称的。基于海岸带承压含水层正弦潮汐波的传播理论,提出了确定含水层参数的分段法,并与振幅衰减法和滞后时间法进行对比,各种方法求出的储水系数与导水系数之比(S/T)很接近,说明分段法是有效的。对于北海市滨海含水层,上升段求出的S/T值比下降段要大,其成因机理还有待进一步分析。 相似文献
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Using time series analysis to assess tidal effect on coastal groundwater level in Southern Laizhou Bay,China 
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下载免费PDF全文 Chen She-ming Liu Hong-wei Liu Fu-tian Miao Jin-jie Guo Xu Zhang Zhou Jiang Wan-jun 《地下水科学与工程》2022,10(3):292-301
Sea water intrusion is an environmental problem cause by the irrational exploitation of coastal groundwater resources and has attracted the attention of many coastal countries. In this study, we used time series monitoring data of groundwater levels and tidal waves to analyze the influence of tide flow on groundwater dynamics in the southern Laizhou Bay. The auto-correlation and cross-correlation coefficients between groundwater level and tidal wave level were calculated specifically to measure the boundary conditions along the coastline. In addition, spectrum analysis was employed to assess the periodicity and hysteresis of various tide and groundwater level fluctuations. The results of time series analysis show that groundwater level fluctuation is noticeably influenced by tides, but the influence is limited to a certain distance and cannot reach the saltwater-freshwater interface in the southern Laizhou Bay. There are three main periodic components of groundwater level in tidal effect range (i.e. 23.804 h, 12.500 h and 12.046 h), the pattern of which is the same as the tides. The affected groundwater level fluctuations lag behind the tides. The dynamic analysis of groundwater indicates that the coastal aquifer has a hydraulic connection with seawater but not in a direct way. Owing to the existence of the groundwater mound between the salty groundwater (brine) and fresh groundwater, the maximum influencing distance of the tide on the groundwater is 8.85 km. Considering that the fresh-saline groundwater interface is about 30 km away from the coastline, modern seawater has a limited contribution to sea-salt water intrusion in Laizhou Bay. The results of this study are expected to provide a reference for the study on sea water intrusion. 相似文献
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Four times of observation of the ocean tide and groundwater levels in the coastal aquifers near Beihai, China show that fluctuation in the tide-induced groundwater levels follows the tide, with the highest and lowest water levels corresponding to the high water level syzygy tide and the low water level neap tide. The tidal coefficient is less than 0.5, decreasing approximately exponentially with the distance from the coast. The tide can affect the groundwater levels at observation wells as far as about 4,200 and 3,300 m in the southern and northern coasts in Beihai. Observations and spectrum analyses of the time series of the tide and water levels suggest that the tide and water levels have similar changes with complex fluctuations of a long period of 14.37 days and two short periods of 24.7 and 12.5 h. Time lags of water levels to the tide at observation wells last several hours and increases roughly linearly with the distance from the coast. Mathematic models consisting of a periodic term plus a linear term are established to describe the changes in the tide and the groundwater levels. The periodic terms for the tide and water levels are constructed using finite Fourier’s series consisting of 7 to 11 terms other than a single term of a sine function in earlier work. Computed water levels with the models can fit the observed water levels with reasonable accuracy and satisfactory prediction of the changes in the water levels is also obtained. 相似文献
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H. Carey M. K. Lenkopane A. D. Werner L. Li D. A. Lockington 《Australian Journal of Earth Sciences》2013,60(8):1165-1179
Previous studies of coastal groundwater resources have not properly explored the hydraulic conditions at coastal and estuarine boundaries, despite recognised influences of oceanic and estuarine water-level fluctuations (e.g. tides and waves) on groundwater near these boundaries. Such influences may have important implications for determining submarine groundwater discharge and seawater intrusion. In this paper, oceanic and estuarine controls on the hydrology of coastal aquifers are characterised for a macrotidal system—the Pioneer Valley coastal plain, northeastern Australia. The tidal water-table over-height (tide-induced increase in average water-table height at the coastline) is quantified at three locations and compared with theoretical estimates, which assume simplified physiographical conditions compared with those encountered at the field sites. The results indicate that local geological conditions, beach morphology and characteristics of tidal forcing control the behaviour of nearshore groundwater within the system. Existing analytical and numerical solutions that are commonly applied as first-pass estimates are found to be insufficient for predicting observed tidal water-table over-height in the Pioneer Valley, due to the sediment heterogeneities, non-uniform beach slopes and large tidal ranges of the system. The study reveals the spatial and temporal variability in tidally influenced hydraulic heads at the estuarine and coastal boundaries of the aquifer, and provides estimates of tidal water-table over-height up to 2.41 m during spring tides. These findings highlight the complexity of coastal groundwater systems, and the need to incorporate appropriate nearshore and near-estuary boundary conditions in models of regional groundwater flow in coastal aquifers. 相似文献
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Tidal effects on groundwater dynamics in shallow coastal aquifers—southeast coast of Tamilnadu,India
Tides play a significant role in the coastal environment; the mangroves, back waters, creeks, and the coastal groundwater interface. Tidal range has been calculated by using TIDECAL software. This study attempts to find the relation between water table condition and tides in the shallow coastal aquifers. The study was conducted by selecting 12 open wells along the coast of the southern part of Cuddalore to the northern part of Nagapattinam district of Tamilnadu. Observations were made in situ for water table fluctuation, dissolved oxygen (DO), and electrical conductivity (EC) for 24 h during full moon (FM) and new moon (NM) of every 2 h. The present study shows the relationship between tidal variations with respect to water table fluctuations and helps to understand the behavior of DO and EC. An interpolation technique, inverse distance weighted (IDW) method was used to obtain the spatial distribution map. The temporal and the spatial relationships between water table fluctuation, EC, and DO were also used in order to understand the coastal ecosystem in the natural environment. 相似文献
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The influences of tides on a coastal environment with a sloping shore are investigated by means of field observations and groundwater flow modelling. The Belgian western coastal plain consists of a wide shore, dunes and polders where diurnal tides with large amplitude occur. The effects of tides on the groundwater flow are studied using the MOCDENS3D code. First, MOCDENS3D is validated to accurately simulate the propagation, attenuation and lag of a tidal wave in an aquifer. Then groundwater flow and influences of tides are modelled for a cross-section along the French–Belgian border. This gives an exhaustive insight into the spatial and temporal varying groundwater flow and propagation of the tidal wave in the aquifer. Simulation shows that there are two interfering flow cycles. The first is a shallow tidally fluctuating flow cycle on the shore due to the interaction of the gently sloping shore and the tidally oscillating sea level. The second is a deeper flow cycle from the dunes towards the sea. Further, it is indicated that the propagation and attenuation of the tidal wave follows a complex pattern with lateral as well as vertical components. The interaction between tides and shore topography also influences the salinity distribution. 相似文献