堤坝渗漏入口示踪剂运移规律OA
Tracer transport patterns in levee seepage inlet
为准确定位堤坝的渗漏入口,基于示踪法,采用室内模型试验和Fluent数值模拟方法,分析了示踪剂投放量、渗漏规模及示踪剂投放点位置对示踪剂运移规律的影响.结果表明:增加示踪剂投放量,壁面示踪剂峰值质量分数显著增大,穿透时间缩短,示踪剂运移速度加快;增大渗漏规模,示踪剂流失速率加快,壁面示踪剂峰值质量分数减小,示踪剂分布形状由圆形向椭圆形转变,且其长轴会沿示踪剂投放点与渗漏入口之间的连线方向排列,据此可推断渗漏入口方向;减小示踪剂投放点与渗漏入口距离,壁面示踪剂峰值质量分数减小,穿透时间延长,示踪剂分布面积显著增大.
To accurately locate the levee seepage inlet,laboratory model tests and Fluent numerical simulations based on the tracer method were employed,and the effects of tracer dosage,seepage scale,and tracer injection point location on tracer transport pattern were analyzed.The results indicate that increasing the tracer dosage significantly raises the peak tracer mass fraction on the wall,shortens the penetration time,and accelerates tracer transport velocity.Enlarging the seepage scale accelerates the tracer loss rate,reduces the peak tracer mass fraction on the wall,and transforms the tracer distribution shape from circular to elliptical,with its major axis aligning along the line connecting the tracer injection point and the seepage inlet.This alignment can be used to infer the direction of the seepage inlet.Reducing the distance between the tracer injection point and the seepage inlet decreases the peak tracer mass fraction on the wall,prolongs the penetration time,and significantly expands the tracer distribution area.
梁越;邓惠丹;喻金桃;许彬;饶育锋
重庆交通大学河海学院重庆交通大学国家内河航道整治工程技术研究中心重庆交通大学水利水运工程教育部重点实验室重庆交通大学河海学院中交第四航务工程勘察设计院有限公司
堤坝渗漏识别示踪法示踪剂运移规律模型试验数值模拟
levee seepage identificationtracer methodtracer transport patternmodel experimentnumerical simulation
《河海大学学报(自然科学版)》 2026 (1)
53-60,137,9
国家自然科学基金项目(52379097,52509138)广西科技计划项目(桂科AA23062023)重庆市水利科技项目(CQSLK-2024005)重庆市教委科学技术研究计划项目(KJQN202300744)重庆交通大学高层次人才引进计划项目(F1250081)
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