Characterization of Pore Water Flow in 3-D Heterogeneous Permeability Fields
Document Type
Article
Publication Date
2-16-2020
Abstract
Subsurface heterogeneity could influence groundwater flow with implications on structure and productivity of aquifer ecosystems. Here we investigate effects of multifractal heterogeneity on topology of groundwater flow through MODFLOW simulations within a Monte Carlo framework. The results show that heterogeneity leads to focused groundwater advection and the creation of hotspots of bending-type vortex flow in the fields. We demonstrate for the first time that the vortex structures characterized by Q criterion are 3-D distributed and greatly deform surrounding pore-water flow. The structures exhibit scale-invariant features in multifractal fields and in stationary fields below the correlation scale, indicating that such vortex flow might be widely present with no characteristic scale. Complex spatial patterns of kinetic energy dissipation rate are identified for pore water flowing through heterogeneous porous media and correlate strongly with preferential flows. These findings are important for understanding solute fate and transport in aquifer systems.
Identifier
85079574524 (Scopus)
Publication Title
Geophysical Research Letters
External Full Text Location
https://doi.org/10.1029/2019GL086879
e-ISSN
19448007
ISSN
00948276
Issue
3
Volume
47
Recommended Citation
Geng, Xiaolong; Boufadel, Michel C.; Lee, Kenneth; and An, Chunjiang, "Characterization of Pore Water Flow in 3-D Heterogeneous Permeability Fields" (2020). Faculty Publications. 5474.
https://digitalcommons.njit.edu/fac_pubs/5474
