低流变区
上升流
平流
混合(物理)
生物地球化学循环
地下水
河床
地质学
环境科学
地下水流
水文学(农业)
土壤科学
流量(数学)
航程(航空)
流动条件
地下水流
混合模式
地貌学
水流
导水率
压力计
前线(军事)
地表水
扩散
流线、条纹线和路径线
作者
Daniele Fistolera,Aronne Dell'Oca
标识
DOI:10.5194/egusphere-egu26-7416
摘要
The hyporheic zone is a key interface where surface water and groundwater interact, triggering a wide range of biogeochemical reactions. This interaction is governed by mixing processes whose dynamics remain poorly understood in hyporheic environments. Here we investigate hyporheic mixing using numerical simulations of Darcy-scale flow and solute transport beneath river bedforms in heterogeneous porous media. We consider a range of conditions that vary solute advection and dispersion, groundwater upwelling intensity, and the ratio between the heterogeneity correlation length and bedform size. Mixing is quantified through the scalar dissipation rate and by assessing the emergence of ergodic behavior in hyporheic transport. Finally, we interpret the resulting mixing dynamics within a lamellar framework, in which the stretching and elongation of material elements traveling through the hyporheic zone control the efficiency of mixing.
科研通智能强力驱动
Strongly Powered by AbleSci AI