Radial well aquifer benchmark (Water Module): Difference between revisions

This testcase demonstrates a situation where a well is pumping up ground water. A characteristic ground water level curve will form over time.

Formulas

Stationary lowering of the ground water table in a closed water transmissive layer can be described by the following formula ^[1]

${\displaystyle \phi (r)-\phi _{0}={\frac {Q_{0}}{2\pi \cdot kD}}\ln {\left({\frac {r}{R}}\right)}}$

where:

${\displaystyle phi(0)}$: stable water level at the considered stable water table edge

${\displaystyle phi(r)}$: water level between the considered stable water table edge and the well

${\displaystyle phi(rw)}$: water level in the well

${\displaystyle kD}$: transmissivity of the aquifer in m² / day

${\displaystyle r}$: distance to the well

${\displaystyle R}$: distance of the considered stable water table edge to the well

${\displaystyle Q_{0}}$: amount of water pumped out in m³ / day

Setup

We use the following setup in our tests. The grid size used is 51 by 51, with a configurable cell size of ${\displaystyle dx}$ in meters. There is one underground outlet, which pumps water away continuously with a default amount per second.

The outlet is placed on the cells x = 25 and y = 25 as an inlet with a negative inlet.

INLET Q is set to ${\displaystyle {\frac {-Q_{0}}{3600*24}}}$

UNDERGROUND is set to true (1.0) to place the outlet below the surface.

The simulation is run for 64 days with 0 rainfall, which is configured in the weather's rain attribute as: ${\displaystyle [64\cdot 24\cdot 3600,0]}$

References

Water Module

Tutorials

Overview

Theory

Benchmarks