摘要:坝址区地质勘察结果显示,桂花水库蓄水后存在坝基及绕坝渗漏问题,为了进一步研究水库渗漏问题,在坝址区工程地质和水文地质勘察基础上,概化出坝址区水文地质概念模型,建立坝址区地下水三维非稳定流数值模型,并采用GMS软件进行模拟水库蓄水前后坝址区三维渗漏场,同时计算水库天然工况、无防渗帷幕正常蓄水和有防渗帷幕正常蓄水3种工况下的渗漏量。模拟计算结果表明天然条件下过坝轴线流量170.42m3/d,无防渗帷幕正常蓄水工况渗漏量为6740.64 m3/d,有防渗帷幕正常蓄水工况渗漏量为1553.31m3/d。防渗处理后渗漏减少76.95%,防渗帷幕截渗效果显著。 关键词:水库渗漏;渗流场数值模拟;防渗帷幕;渗漏量
The numerical simulation and seepage quantity of groundwater in dam of Guihua reservoir
Lizhong Yang1;Xiaolong Fu1;Luoming1
(1、The hydraulic power survey and design co. LTD of Chuxiong xinyuan)
Abstract:Geological survey for the dam site area, according to the results of osmanthus after reservoir dam foundation and seepage around the dam problems, in order to further study the reservoir leakage problem, engineering geology and hydrogeology survey in dam site area, based on the hydrogeological conceptual model generalized the dam site area, build dam site area three-dimensional numerical model of unsteady flow of groundwater, and USES the GMS software to simulate the three-dimensional seepage field before and after reservoir dam site area, at the same time, calculate the reservoir anti-seepage curtain normal impounding and natural conditions, has the anti-seepage curtain under normal working condition of water storage of three leakage. The simulation results show that under natural conditions, the flow rate of the passing dam axis is 170.42m3/d, the leakage amount is 6740.64m3 /d under normal storage condition without seepage curtain, and 1553.31m3/d under normal storage condition with seepage curtain. After the anti-seepage treatment, the leakage was reduced by 76.95%.
Key words:reservoirs seepage;numerical simulation;small reservoirs;seepage field;seepage quantity
1引言
当前,山区中小型水利工程坝址渗漏问题主要勘察方法为在坝址区进行地质水文地质填图,并在坝轴线布置钻孔进行单孔压水试验,在此基础上通过经验公式进行定性半定量评价,易造成坝址区渗漏评价、预测与实际耦合度低,较多类似新建工程蓄水后渗漏量偏大。本文在系统分析桂花水库坝址水文地质条件的基础上,概化出桂花水库坝址区水文地质概念模型,建立了坝址区地下水三维数值模型。采用Brigham Young大学开发的地下水流数值模拟GMS软件[1~6]。选用General head—通用水头子程序包分别预测了天然条件、无防渗帷幕正常蓄水和有防渗帷幕正常蓄水3种工况下坝址区渗流场分布特征和过坝线渗漏量,从而对桂花水库渗漏问题进行定量评价,辅助工程防渗设计。
2研究区概况
桂花水位于云南省楚雄州,是一件以集镇供水、农村人畜饮水及农业灌溉为主,兼顾防洪的综合性水利工程,水库规模为中型,拟建坝型为黏土心墙风化料坝。坝址两岸地形陡峻,为两岸基本对称的V型河谷。坝址区基底为白垩系江底河组上杂泥岩段(K2j3),覆盖层为第四系冲洪积(Qalp)、残坡积(Qeld),如图1所示。坝址区水文地质结构为覆
盖层潜水层、基底裂隙含水层两层结构。其相互之间存在水利联系,其中覆盖层为中等至强透水层,基底为中等至弱透水层,基底一定深度为微透水层为相对隔水层。
坝址两岸岩层裂隙较发,左岸钻孔地下水位埋深35.26~63.50m,右岸钻孔地下水位埋深30.24~84.65m。坝址皮左黑河枯水期水位为2010.89,建坝后蓄水位为2093.39m,水库存在坝基及绕坝渗漏问题。
裂隙水
图1 研究区地层岩性分布图
3水文地质概念模型
3.1水文地质概况
坝址区主要分布白垩系江底河组上杂泥岩段(K2j3)地层,为紫红中—厚层状粉砂质泥岩夹钙质泥岩,河床分布第四系冲洪积层(Qalp),为褐红粘土细砂砾石,局部为细砂砾石层。江底河组(K2j3)微风化粉砂质泥岩为坝址区相对隔水层,节理发育地段有裂隙水溢出,泉点出露高程2030m~2110m,泉流量0.1~1.2L/s,最大3.1L/s。基岩裂隙水由大气降水补给,向地下渗透,径流后呈片流形式于裂隙发育地段或界线部位溢出,最终向河床排泄。
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