强渗透地层管井降水的滤料设计方法及应用OA
Design method and application of filter material for tube well dewatering in highly permeable strata
为避免富水强渗透地层工程降水引起地层细颗粒流失而导致环境问题,需建立一种合理确定降水管井的滤料粒径的设计方法.基于反滤层滤土与减压的工作原理,提出一种以有效层间系数为 2~3 和不均匀系数小于等于 2 为控制指标的管井降水滤料设计准则.通过离散元数值模拟,分析了渗流过程中地层-滤料系统的颗粒流失特性与孔隙率变化规律,揭示了滤料通过截留细粒达到自稳定状态的细观机制.结果表明:当有效层间系数小于等于 3 时,细粒流失量小于 3%,且孔隙率趋于稳定.后续经过现场抽水试验验证了该滤料设计准则的有效性.本研究为管井降水滤料设计提供了理论依据,可提升富水强渗透地层基坑降水工程的安全性.
As an effective approach to avoid environmental problems caused by dewatering,the design of filter material for tube well dewatering in water-rich and highly permeable strata is critical to dewatering engineering in complex urban environment.Although theory of seepage has been well developed,a rational method for determining the particle size of filter materials has not yet been established.Based on soil filtration and pressure-reduction mechanisms of filter layers,this study proposed a design criterion of tube well dewatering filter material with effective interlayer coefficient Ec=2-3 and non-uniformity coefficient Cu≤2 as control indexes.Through discrete element numerical simulation,the particle loss characteristics and porosity variation of the formation-filter material system in the seepage process were analyzed.The microscopic mechanism of the filter material to achieve a self-stable state by intercepting fine particles was revealed.The results show that when the effective interlayer coefficient Ec≤3,the fine particle loss is less than the critical value of 3%,and the porosity stabilizes accordingly.The proposed design criterion was further validated through field pumping tests.This study provides a theoretical basis for the design of tube well dewatering filter material,which can improve the safety of foundation pit dewatering projects in water-rich and highly permeable strata.
李达;刘宁毅;赵耀威;焦雷;刘中欣;马建军
河南科技大学土木建筑学院,河南 洛阳 471023河南科技大学土木建筑学院,河南 洛阳 471023河南科技大学土木建筑学院,河南 洛阳 471023中铁十五局集团有限公司,上海 200000中铁十五局集团有限公司,上海 200000河南科技大学土木建筑学院,河南 洛阳 471023
天文与地球科学
强渗透地层管井降水滤料设计有效层间系数离散元模拟
highly permeable stratatube well dewateringdesign method of filter materialeffective interlayer coefficientdiscrete element method
《水文地质工程地质》 2026 (2)
105-114,10
国家重点研发计划项目(2020YFB17121052019YFC0605104)
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