Analysis of evaporation of high-salinity phreatic water at a burial depth of 0 m in an arid area

High-salinity phreatic water refers to which with total dissolved solids（TDS）>30 g/L. Previous studies have shown that high salinity phreatic water evaporation is different at different depths. High salinity phreatic water evaporation under 0 m depth is the basis of the high salinity phreatic water evaporation studies. In this study, evaporation of high-salinity phreatic water at a burial depth of 0 m in arid area was investigated. New insights were gained on evaporation mechanisms via experiments conducted on high-salinity phreatic water with TDS of 100 g/L at 0 m at the study site at Changji Groundwater Balance Experiment Site, Xinjiang Uygur Autonomous Region in China, where the lithology of the vadose（unsaturated zone） was silty clay. Comparison was made on the data of high-salinity phreatic water evaporation, water surface evaporation(EΦ20) and meteorological data obtained in two complete hydrological years from April 1, 2012 to March 31, 2014. The experiments demonstrated that when the lithology of the vadose zone is silty clay, the burial depth is 0 m and the TDS is 100 g/L, intra-annual variation of phreatic water evaporation is the opposite to the variation of atmospheric evaporation EΦ20 and air temperature. The salt crust formed by the evaporation of high-salinity phreatic water has a strong inhibitory effect on phreatic water evaporation. Large volumes of precipitation can reduce such an inhibitory effect. During freezing periods, surface snow cover can promote the evaporation of high-salinity phreatic water at 0 m; the thicker the snow cover, the more apparent this effect is.

Effect of climate change on the trends of evaporation of phreatic water from bare soil in Huaibei Plain, China

When the soil condition and depth to water table stay constant, climate condition will then be the only determinant of evaporation intensity of phreatic water from bare soil. Based on a series of long-term quality-controlled data collected at the Wudaogou Hydrological Experiment Station in the Huaibei Plain, Anhui, China, the variation trends of the evaporation rate of phreatic water from bare soil were studied through the Mann-Kendall trend test and the linear regression trend test, followed by the study on the responses of evaporation to climate change. Results indicated that in the Huaibei Plain during 1991-2008, evaporation of phreatic water from bare soil tended to increase at a rate of 5% on monthly scale in March, June and July while in other months the increase was minor. On the seasonal basis, the evaporation saw significant increase in spring and summer. In addition, annual evaporation tended to grow evidently over time. When air temperature rises by 1 °C, the annual evaporation rate increases by 7.24–14.21%, while when the vapor pressure deficit rises by 10%, it changes from-0.09 to 5.40%. The study also provides references for further understanding of the trends and responses of regional evapotranspiration to climate change.

Stable Isotopes and Chloride Applied as Soil Water Tracers for Phreatic Evaporation Experiment

A phreatic water evaporation experiment,without rainfall influence,was designed to study the mechanisms of soil water movement through groundwater recharge to the unsaturated zone. Soil moisture content,chloride concentration,and δD and δ~18 O values of soil water were measured. Results showthat with decreasing soil moisture content,the chloride concentration of leachate( ρ_f(Cl)) in the capillary water layer decreases,whereas the ρ_f(Cl) value of the hanging and film water layers above the capillary water layer increases. With the combined δD and δ~18 O values,the soil water in the hanging and film water layers is influenced by evaporation,although a dry sand layer of 39 cm exists above the wet sand layer. The highest evaporation rate and the largest salt accumulation occur at a depth of about 39 cm in columns d,e,and f(Six polyvinyl chloride columns were assigned as column a,b,c,d,e,and f). We deduce that soil water migrates in the form of liquid water above the capillary water layer. In the experiment,a part of phreatic water consumed is used for the movement of soil water,whereas the other part is lost to evaporation. Soil water could continue migrating upward with prolonged experiment duration.

Comparing phreatic evaporation at zero water table depth with water surface evaporation

Salt-affected soils are mostly found in irrigated areas within arid and semi-arid regions where the groundwater table is shallow.Soils of this type have become an increasingly severe problem because they threaten both the environment and the sustainable development of irrigated agriculture.A tool to estimate phreatic evaporation is therefore urgently required to minimize the salinization potential of salt-affected areas.In this context,phreatic evaporation at zero water table depth(E0)is a key parameter for establishing a model for calculating phreatic evaporation.The aim of this study was to explore the law of phreatic evaporation and to develop structurally rational empirical models for calculating phreatic evaporation,based on E0data of six types of soil(i.e.,gravel,fine sand,sandy loam,light loam,medium loam,and heavy loam)observed using the non-weighing lysimeter and water surface evaporation(E601)data observed using a E601 evaporator of same evaporation area with a lysimeter-tube at the groundwater balance station of the Weigan River Management Office in Xinjiang Uygur Autonomous Region,China,during the non-freezing period(April to October)between 1990 and 1994.The relationship between E0and E601was analyzed,the relationship between the ratio of E0to E601and the mechanical compositions of different soils was presented,and the factors influencing E0were discussed.The results of this study reveal that E0is not equal to E601.In fact,only values of the former for fine sand are close to those of the latter.Data also show that E0values are related to soil texture as well as to potential atmospheric evaporation,the ratio of E0to E601and the silt-clay particle content(grain diameter less than 0.02 mm)is negatively exponentially correlated,and that soil thermal capacity plays a key role in phreatic evaporation at E0.The results of this analysis therefore imply that the treatment of zero phreatic depth is an essential requirement when constructing groundwater balance stations to study the law of phreatic evaporation.

降水和地下水开采对通辽市科尔沁区潜水位的影响

变化环境下(气候变化和人类活动)潜水位动态演化过程识别是当前我国乃至全球水资源领域面临的主要科学问题。为了分析多影响因素下的潜水位时空动态变化,以降水和地下水开采为例,基于通辽市科尔沁区2016年1月—2019年12月实测地下水位动态数据,采用Mann-Kendall(MK)趋势检验和栅格代数法分析了区域潜水位的时空变化规律,并利用交叉小波分析、斯皮尔曼相关系数和多元线性回归法进一步量化分析了不同区域降水和地下水开采对潜水位的影响。结果表明:研究时段内科尔沁区潜水位总体呈下降趋势,年均降幅为0.36 m,中部和西部地区潜水位下降较为严重;根据潜水位差值空间分布特征,将研究区划分为潜水位基本平衡区、下降区和严重下降区,其分别占研究区总面积的9.88%、49.65%和40.47%;基本平衡区的潜水位受降水因素影响显著,受地下水开采变化影响极小,下降区和严重下降区潜水位受地下水开采的影响相较于降水影响更大。

塔里木盆地塔河油田逆冲背斜区奥陶系古暗河系统发育特征

塔里木盆地塔河油田古暗河系统研究尚处于初始阶段,主要从暗河的深浅分布、结构样式等特征开展暗河洞穴的划分,较少从构造、断裂、古地貌、地下水位等地质方面综合分析复杂暗河系统的空间发育规律,致使暗河的主次从属关系、空间叠置样式、原始连通关系难以厘清,从而制约了塔河油田开发后期的综合治理研究。为了明确塔河油田主体区逆冲背斜区奥陶系古暗河系统发育特征,利用构造断裂解析、古地貌恢复、地震属性刻画、纵断剖面解读等方法进行了S67井区古暗河的类型识别、系统划分和地质成因研究,尤其首次识别并剖析了潜流回流暗河。结果表明,S67井区处于塔河主体区岩溶台原南缘的低地势区,发育幅差较小的峰丛洼地、溶丘洼地,地表水系下切深度较浅;逆冲背斜为低角度逆冲推覆构造样式,逆冲背斜之上的网格状断裂为多层状暗河系统提供有利溶蚀通道。研究区奥陶系发育相对独立的、树枝状结构的地下水位暗河系统和潜流带暗河系统,地下水位型暗河可分为主干型、支流型和废弃型,潜流回流暗河可分为上升型、对称型。控制逆冲背斜区古暗河发育的主要因素有古地貌、地下水位、逆冲背斜构造和次级断裂网络等。

采煤沉陷松散层变形研究现状与分析

开采沉陷是煤炭资源井工开采所面临的主要环境地质问题,其中松散层变形是东部高潜水位矿区生态修复和西部生态脆弱区保护所关注的重点,获得沉陷变形参数对推动开采减损、生态环境保护与修复有着重要的指导意义。借助CiteSpace文献计量软件,基于中国知网(China National Knowledge Infrastructure,CNKI)数据库进行可视化分析,通过对该研究方向近30年主要研究力量、研究热点和现状趋势量化统计与分析,详细地阐述了该方向的研究现状,简要概述了沉陷成因、理论分析、室内试验、数值模拟及原位实测等方面开展的研究内容。从多学科交叉促进理论研究发展、多方法联合建立高精度动态监测、发展与创新测试装备和技术等方面对其未来趋势进行了展望,提出“空-天-地-孔”一体化监测平台的建设与运营,以期通过多维度、网格化立体数据的获取,进一步掌握松散层内部变形特征与传递机理,为实施“源头控制”和“过程治理”理念和评价废弃矿井CO_(2)封存地质条件提供基础数据与科学支撑。

水文地质单元交界区潜水水化学特征及演化分析:以泰州市区为例

泰州市区位于长江北部三角洲平原水文地质亚区与里下河低洼湖荡平原水文地质亚区的交界带。为对比研究两亚区潜水层的水化学特征,通过电荷平衡、统计分析、Piper图、Gibbs图、离子比例、相关分析等方法,分析了水化学主要指标空间分布、水化学类型、相关联系、离子来源,探讨了水化学演化的成因及两亚区的差异来源。结果表明:区内潜水阳离子含量Ca^(2+)>Na^(+)>Mg^(2+)>K^(+),阴离子含量HCO_(3)^(-)>SO_(4)^(2-)>Cl^(-),北部多为微咸水,中南部以淡水为主,主要指标含量从北到南逐渐降低,水化学特征以硅酸盐风化类水岩作用为主,全新世海侵的遗留成分仅对北部潜水有少量影响,人类活动影响均以农业灌溉为主,阳离子交换作用以正向阳离子交换的方式发生。亚区间水化学成分和水化学类型差异明显,两亚区水化学特征差异的主要成因是全新世海退后迥异的沉积环境以及地貌的影响。

珠江口潜水镭同位素时空特征及其对海底地下水排泄通量测算的影响研究

准确选取具有代表性的地下水端元是采用镭同位素示踪法量化海底地下水排泄(SGD)通量的关键。本研究分析了珠江三角洲潜水^(224)Ra与^(223)Ra的时空分布特征,评估了其对SGD通量计算的影响。结果表明,从潮间带近端至远端,潮间带潜水盐度和镭活度总体上表现为先下降后升高;相近盐度下,不同潮滩潮间带潜水镭活度无量级差别,仅随盐度上升的变化趋势略有差异;河口内外潮间带潜水的^(224)Ra活度最大相差(1986.8±94.5)dpm/100L,导致测算的SGD差异可达(25.2±9.6)×10^(8)m^(3)/d;以砂质潮滩为例,测算的旱、雨季SGD通量差异可达(2.3±1.6)×10^(8)m^(3)/d。SGD通量对潜水端元取值的敏感性分析显示,盐度影响最大,季节影响次之,潮滩性质影响最小。因此选择镭同位素趋近解吸平衡的高盐度潮间带潜水作为代表性潜水端元进行SGD通量测算较为合理。

Water in the Mogao Grottoes,China:where it comes from and how it is driven

The Dunhuang Mogao Grottoes in China was designated as a world heritage site by UNESCO in 1987 and is famous for its cultural relics. Water is the most active factor that harms the relics in the caves as it damages the grotto murals and painted sculptures. Thus, determining the water sources and driving forces of water movement is a key issue for protecting these cultural relics. These issues have troubled relics protectors for a long time. In this study, the authors chose a representative cave in the Mogao Grottoes and, by completely sealing the cave to make a closed system, measured the water vapor from the surrounding rock. This was accomplished by installing a condensation-dehumidification temperature-humidity control system for the collection of water vapor. The results show that there is continuous evaporation from the deep surrounding rock into the cave. The daily evaporation capacity is determined to be 1.02 g/（d·m2）. The water sources and driving forces of water movement were further analyzed according to the character of the water evaporation and by monitoring the temperature and humidity of the surrounding rock. It was found that the water vapor in the cave derives from phreatic water. Moreover, the yearly fluctuation of temperature in the surrounding rock and geothermal forces are the basic powers responsible for driving phreatic evaporation. Under the action of the yearly temperature fluctuations, decomposition and combination of bound water acts as a ＂pump＂ that drives phreatic water migration and evaporation. When the temperature rises, bound water decomposes and evaporates; and when it falls, the rock absorbs moisture. This causes the phreatic water to move from deep regions to shallow ones. Determining the source and dynamic foundation of the water provides a firm scientific basis for protecting the valuable cultural relics in the caves.

Analysis of phreatic evaporation law and influence factors of typical lithology in Hebei Plain

Based on three typical mediums(sandy loam, loam and sandy clay loam) in Hebei Plain, this paper designs phreatic evaporation experiments under different lithology and phreatic depth. Based on the analysis of experimental data, the phreatic evaporation law and influencing factors of three mediums were studied. The results showed that:(1) The shallower the phreatic depth, the larger the phreatic evaporation.(2) Sandy clay loam has the biggest response to the increase of the phreatic depth, sandy loam is the second and loam is the smallest.(3) The limit depth of phreatic evaporation of sandy clay loam is about 3 m and that of loam and sandy loam is about 2 m and 3 m, seperately.(4) By fitting the daily evaporation of phreatic water and phreatic depth, the results showed that sandy loam and sandy clay loam are exponential functions and loam is power functions.

黄河下游(河南段)潜水水文地球化学特征及补给来源识别

黄河流域下游地区潜水含水层与地表水体联系密切,其水文地球化学特征及补给来源识别研究对黄河流域地下水合理利用与科学保护有重要意义。本文通过对黄河下游(河南段)潜水样品(共计170组)以及氢氧稳定同位素样品(共计55组)进行数据分析,综合运用数理统计、Piper三线图、离子比值分析、Gibbs图等方法,系统性地分析了研究区潜水的水文地球化学特征及补给来源。研究结果表明:潜水的总溶解固体(TDS)波动性大,其范围为191~8169 mg/L,其中濮阳市、安阳市地区潜水为Ⅴ类水,已无法作为饮用水使用;研究区的主要水化学类型表现为HCO_(3)-Ca·Mg·Na、HCO_(3)^(-)Mg·Ca型;研究区阳离子主要以Mg^(2+)和Ca^(2+)为主、阴离子以HCO_(3)^(-)为主;研究区内潜水发生了强烈的阳离子交替吸附作用,溶液中的Ca^(2+)交换含水介质中的Na^(+);研究区潜水中主要以文石、方解石、白云石等碳酸盐矿物处于过饱和状态至沉淀,石膏发生溶解;黄河下游(河南段)地区的潜水补给来源属于现代大气降水补给;沿潜水含水层的水流动路径上,潜水中的氢氧稳定同位素由于混合效应更为均匀。本研究利用多因素、多方法的手段揭示了黄河下游(河南段)水文地球化学演变过程,为区域内水资源综合利用和管理提供了参考。

Investigation on the relation between the gravity anomaly，crustal deformation and underground water

Trough the practice of earthquake prediction we have found that sometimes an earthquake doesn' t occur in the gravity anomaly region or the magnitude of earthquake that has occurred does not corrrespond to the value of gravity anomaly. The main reason of this is related to crust deformation or behavior of undergroud water.In this paper, based on the theory of elasticity and dynamics, the gravity effect associated with the elevation variation, density change and mass migration under the observation point as well as the relationshipe between gravity of feet and crustal activity are studied. The relationship between the variation of gravity and crust vertical deformation, underground water, precipitation are researched; besides the order of magnitude, time and pattern of the influence are studied in order to obtain the gravitational precursors directly related to earthquakes.Theory and practice have proved that crust deformation caused by pumping underground water or extracting petroleum and gravity changes are linearly related. This paper shows that the effect and influence produced by different aquifers to the gravity changes are also different. Phreatic water is the main factor which causes the gravity changes. The second factor is precipitation which influences the humidity of soil, as a result the gravity changes. The confined water, when there is no pumping, whatsoever the rise or fall of its level almost has no influence on the gravity changes.Observation data of Northern China and areas of South-western China verified the consistency of practice with theory.

河渠附近潜水一维非稳定流模型Fourier快解求解

对垂向交换量影响下的河渠附近潜水一维非稳定流模型,采用Boussinesq方程的第一线性化方法,在利用Fourier变换求解时,随河渠水位f(t)的变化,需要复杂繁琐的积分变换过程。在f(t)不直接参与变换的前提下,将f(t)用运算符代替并运行于变换过程中,依据Fourier变换的微分性质和卷积定理等性质,建立这类模型普遍适用的含f(t)的理论通用解;依据理论通用解,给出f(t)为几个常用函数时的模型解析解;利用理论通用解的求解方法,可避免大部分繁杂的积分变换运算过程。针对不同的河渠水位变动与垂向补给组合条件,建立利用潜水位动态监测数据计算模型参数的拐点法和配线法;实例演示,模型参数的求算过程。

Solution and its application of transient stream/groundwater model subjected to time-dependent vertical seepage

Based on the first linearized Boussincsq equation, the analytical solution of the transient groundwater model, which is used for describing phreatic flow in a semiinfinite aquifer bounded by a linear stream and subjected to time-dependent vertical seepage, is derived out by Laplace transform and the convolution integral. According to the mathematical characteristics of the solution, different methods for estimating aquifer parameters are constructed to satisfy different hydrological conditions. Then, tile equation for estimating water exchange between stream and aquifer is proposed, and a recursion equation or estimating the intensity of phreatic evaporation is also proposed. A phreatic aquifer stream system located in Huaibei Plain, Anhui Province, China, is taken as an example to demonstrate tile estimation process of the methods stated herein.

淮北平原潜水动态变化对降雨入渗影响研究进展

针对淮北平原区潜水埋深较浅和动态变化较显著的特点,分析和总结了降雨入渗影响因素、入渗机理与入渗过程数值模拟等主要内容的研究进展,提出下一步需要开展不同潜水控制埋深的降雨入渗实验模拟和监测。从理论层面剖析并阐明淮北平原区潜水动态变化影响降雨入渗机理,并提出了关键科学问题及研究展望,以期为进一步丰富和完善平原区水文循环理论和模拟方法提供基础支撑。

采煤沉陷区动态预复垦理论分析及工程实践

在我国东部高潜水位矿区,由于单一厚煤层和多煤层的长时间无序开采,形成了大面积的非稳沉区及积水区,致使耕地面积急剧减少,若不及时治理则会导致治理成本增加、复垦效率降低等一系列问题。本着从“末端治理”向“源头控制”、“过程管理”与“防治结合”的理念,在现有研究成果的基础上,对动态预复垦从原理、优势、关键技术等多个方面进行综合分析,并结合工程实例对动态预复垦的整体技术体系与实施方法进行深入剖析。结果表明:动态预复垦能够将采矿与复垦有效结合,通过合理分区、科学确定标高、表土有效剥覆等手段,可有效保护和利用浅部耕作土层的土地资源,缩短土地恢复治理时间,效益显著。

矿井涌水量预测及其对沙漠植被的影响

矿井涌水对井下安全生产存在潜在威胁,同时可能引发因矿区地下水位下降造成的地表植被难以逆转的演替退化。针对涌水量数值模型构建时边界条件概化不准确和水文地质参数选用不可靠等关键问题,以准确预测矿井涌水量保障煤层安全开采为目标,并为研究区沙漠植被的保护提供理论和数据支撑,选择以天然边界作为研究区周界,在充分收集与分析钻探、物探、抽水试验、地下水长观和矿井采空区范围及其涌水量等资料的基础上反复修正模型,构建了较为逼真的地下水三维非稳定流数值模型。此外依据矿井采空区拓展进程及其涌水量和地下水监测数据等进行模型模拟识别,论证了该模型的合理性和可靠性。利用所建立的数值模型预测了煤层开采条件下的矿井涌水量和潜水位降深场,进而基于潜水位埋深与沙漠植被关系分析了潜水位下降对沙漠植被的影响。结果表明:根据矿区先期煤层开采预测矿井涌水量为3.08×10^(4)m^(3)/d,引起矿区内潜水位下降2.08~2.35 m,将导致矿区内代表性植被沙柳和小叶杨的长势变差、甚至部分枯萎,呈现由中生植被类型向旱生植被方向的演替趋势。研究结果为研究区提供了较准确的涌水量预测值,可以为制定科学有效的矿区沙漠植被保护措施以及为类似地下水流数值模型的构建提供可靠的思路。

冻融作用下土壤不均匀系数对潜水与土壤水转化的影响

为了揭示冻融过程中土壤不均匀系数对潜水与土壤水转化的影响,在室内进行了-10、-20和-25℃依次降温恒温冻结62 d和自然消融10 d的冻融试验,研究了不均匀系数(Cu)为2.00(土柱A)、3.70(土柱B)、6.36(土柱C)、16.18(土柱D)和20.67(土柱E)的5个土柱在0.5 m地下水位埋深下的土壤温度、潜水蒸发量及潜水回补量变化特征。结果表明:在冻融过程中,土壤颗粒的不均匀系数越大,土壤剖面温度变化幅度越大。随着土壤深度的增加,土柱A和土柱E冻结结束时的温度差减小,不均匀系数对土壤剖面温度的影响减小。冻结0~3 d时,土柱A、B、C、D和E的潜水蒸发速率分别为0.11、0.15、0.23、0.27和0.39 mm/d,潜水蒸发速率相对较小,但不均匀系数越大,潜水蒸发速率越大;冻结结束(第62 d)时土柱A、B、C、D和E的累积潜水蒸发量分别为15.17、21.46、28.23、34.96和38.65 mm,累积潜水蒸发量与土壤不均匀系数较好的符合对数函数的关系,潜水与土壤水的转化量随土壤颗粒不均匀系数增大而增加。

高潜水位采煤沉陷区水质评价与污染因子识别

淮南矿区潜水位高,采煤沉陷区范围广、面积大、水质监测数据缺失,水环境问题较突出,开展大尺度的沉陷区水质评价及污染因子识别,对于区域水环境治理工作意义重大。通过采集、测试研究区175个样点的水样,采用内梅罗污染指数法对沉陷区水域进行水质评价,采用综合营养状态指数法进行水体富营养化状态评价。结果表明:(1)开放型沉陷区Cu、As和Cr的水质评价等级为优良,DO、COD、NH_(3)-N、Hg、F^(-)评价等级为良好,TN、TP评价等级为较好。封闭型沉陷区,对标地表水Ⅲ类标准,Cu、Cr水质评价等级为优良,NH_(3)-N、Hg、As、DO为良好,COD、TN为较好,TP、F^(-)为较差;对标地表水Ⅴ类标准,NH_(3)-N、Hg、As、Cu、Cr的评价等级为优良,DO、COD、TP、TN为良好,F^(-)为较好。(2)研究区综合营养指数范围为40~90,平均68.61,属于中度富营养,沉陷区水体营养水平适中。175个水样中,轻度富营养占比8.57%,中度富营养占比51.43%,中营养占比2.29%,重度富营养占比37.71%。(3)对标《地表水环境质量标准》,常规指标中DO、NH_(3)-N超过Ⅴ类占比极小,而COD、TP、TN超过Ⅴ类占比较大;研究区所有水域均无重金属超标现象,测试结果极佳;无机阴离子指标F^(-)超过Ⅴ类占比较大。开放型沉陷区水域水质状况整体优于封闭型。对于开放型水域,张集、潘一沉陷区TP、F^(-)指标均较差;对于封闭型水域,潘一、潘三、顾桥、顾北、张集沉陷区TP指标较差,F^(-)污染分布呈现地域特征,淮河以北普遍较差,淮河以南普遍优良。所有水域的Cr、Cu、Hg、As、NH_(3)-N、TN、COD、DO指标均处于“优良-较好”区间内;开放型水域的F^(-)、TP指标均处于“优良-较好”区间内;封闭型水域中潘集片区F^(-)和凤台颍上片区TP均处于“较差”区间内;区域污染程度表现为凤台颍上片区>潘集片区>老矿区。(4)从保护煤矿区生态环境的角度出发,综合考虑2种污染因子识别方法的特性,最终确定淮南矿区采煤沉陷区污染因子有COD、TP、TN和F^(-)。本次水质评价工作识别了淮南采煤沉陷区污染因子,为地方政府和企业制定生态环保决策提供重要数据支撑。