Two-dimensional flow response to tidal fluctuation in a heterogeneous aquifer-aquitard system Academic Article uri icon

abstract

  • AbstractIn alluvial coastal aquifers, finer sediments are preferentially deposited along the downstream direction, so the hydraulic conductivity is generally heterogeneous and changes with distance from the coastline. To investigate the influence of aquifer heterogeneity on seawatergroundwater interaction, a new twodimensional model characterising groundwater flow in an aquiferaquitard system was developed assuming that the hydraulic conductivity of the aquifer linearly increases with the distance from the coastline along the inland direction. A closedform analytical solution was derived using the separationofvariables method. Comparing the new solution with the numerical solution by comsol Multiphysics (Sweden) based on the finiteelement method, one can see that the new solution agreed with the numerical solution very well except at the early time. We found that both aquitard leakance and the heterogeneity factor (b) could result in the propagation bias. The propagation bias represents the inconsistency between the theoretical calculation and the observed strong attenuation and small time lag between the head and tide fluctuations. The attenuation decreased with perpendicular distance from the coastline (xaxis), whereas the time lag increased with distance along the xaxis. The relationship between the time lag and the distance along the xaxis seemed to be linear when b was 0.001m1, whereas it obeyed a power function when b was greater than 0.01m1. Copyright 2014 John Wiley & Sons, Ltd.

published proceedings

  • HYDROLOGICAL PROCESSES

author list (cited authors)

  • Wang, Q., Zhan, H., & Tang, Z.

citation count

  • 17

complete list of authors

  • Wang, Quanrong||Zhan, Hongbin||Tang, Zhonghua

publication date

  • March 2015

publisher