文章摘要
刘 武, 袁文俊, 严周为, 程 锦, 尚金行.考虑地层渗透性各向异性的堤防工程三维防渗结构优化分析Journal of Water Resources and Water Engineering[J].,2023,34(3):151-157
考虑地层渗透性各向异性的堤防工程三维防渗结构优化分析
Optimization analysis of three-dimensional seepage control structure in dike engineering considering stratum permeability anisotropy
  
DOI:10.11705/j.issn.1672-643X.2023.03.19
中文关键词: 堤防工程  三维渗流  渗透性各向异性  防渗结构优化  渗流控制
英文关键词: dike engineering  three-dimensional seepage  permeability anisotropy  seepage control structure optimization  seepage control
基金项目:安徽省自然科学基金项目(2208085ME153); 安徽高校协同创新项目(GXXT-2022-020)
Author NameAffiliation
LIU Wu1, YUAN Wenjun1, YAN Zhouwei2, CHENG Jin1, SHANG Jinhang1 (1.合肥工业大学 土木与水利工程学院 安徽 合肥 230009 2.安徽水安建设集团股份有限公司 安徽 合肥 230601) 
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中文摘要:
      在透水地基上修建长堤防工程,堤基防渗结构的渗控效应直接影响堤防的安全运行。根据岷江干流虎渡溪工程库区长堤防工程地质条件,采用三维渗流分析方法,对堤基高喷防渗墙的布置结构进行优化分析。结果表明:高喷防渗墙可有效降低堤后地下水水位,减小库水向堤后低洼保护区域渗漏,但其渗控效应受防渗结构空间展布长度、深度与渗透性以及地层材料渗透性各向异性的影响。满足低洼保护区域不溢出要求的防渗墙最小展布长度随其布置深度的增大和施工质量的提高而减小,防渗墙渗透系数小于1×10-5 cm/s并将透水性强的覆盖层截断时,其渗控效应明显,若进一步提升防渗墙质量和布置深度则效果不显著。防渗墙质量的提高对堤防渗控效应的提升受地层材料渗透性各向异性的影响较小,而布置深度增大在渗透性各向异性比较大时对渗控效应与防渗结构优化设计的影响较大。随着地层材料渗透性各向异性比的增大,防渗墙所需最小空间展布长度逐渐增大,由各向同性时的180 m增大到220 m,且当渗透性各向异性比较大时,可能有必要增加防渗墙布置深度。
英文摘要:
      The performance of the seepage control structure directly affects the safe operation of the dike when it is constructed on a permeable foundation with long stretch. According to the engineering geological conditions of the long dike in the Huduxi Project reservoir area on the Minjiang River, the layout of the high-pressure jet grouted cut-off wall at the dike foundation is optimized and analyzed using the three-dimensional seepage analysis method. Calculation results show that the high-pressure jet grouted cut-off wall can effectively reduce the groundwater level and the leakage of reservoir water to the protected low-lying area behind the dike, but its seepage control effect is affected by the spatial distribution length, depth and permeability of the seepage control structure and the permeability anisotropy of the stratum materials. The minimum spatial length of the cut-off wall that meets the requirement of no overflow in the protected low-lying area decreases with the increase of its layout depth and the improvement of construction quality. The seepage control effect is obvious when the hydraulic conductivity of the cut-off wall is lower than 1×10-5 cm/s and the strong permeable stratum is cut off; however, further enhancement of the construction quality and layout depth does not significantly improve the seepage control effect. The permeability anisotropy has little influence on the improvement of the seepage control effect caused by the enhanced construction quality of the cut-off wall, whereas increasing the layout depth has a great influence on the seepage control effect and the optimization design of seepage control structure when the permeability anisotropy is relatively large. With the increase of the material permeability anisotropy ratio, the required minimum spatial length of the cut-off wall increases gradually from 180 m under the isotropic case to 220 m. Moreover, when the permeability anisotropy ratio is relatively large, it may be necessary to increase the depth of the cut-off wall.
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