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

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===Formulas===  
===Formulas===  
Stationary lowering of the ground water table in a closed water transmissive layer can be described by the following formula <ref name="verruijt70"/>  
Stationary lowering of the ground water table in a closed water transmissive layer can be described by the following formula <ref name="verruijt70"/>  
<math>\phi(r) - \phi_0 = \frac {Q_0}{2\pi\cdot kD} \ln{\left ( \frac{r}{R} \right )}</math>
<math>\phi(r) - \phi_0 = \frac {Q_0}{2\pi\cdot kD} \ln{\left ( \frac{r}{R} \right )}</math>


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: <math>R</math>: distance of the considered stable water table edge to the well
: <math>R</math>: distance of the considered stable water table edge to the well
: <math>Q_0</math>: amount of water pumped out in m³ / day
: <math>Q_0</math>: amount of water pumped out in m³ / day


===References===
===References===

Revision as of 14:53, 16 December 2020

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

Drainage freatic benchmark.gif

Formulas

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

where:

: stable water level at the considered stable water table edge
: water level between the considered stable water table edge and the well
: water level in the well
: transmissivity of the aquifer in m² / day
: distance to the well
: distance of the considered stable water table edge to the well
: amount of water pumped out in m³ / day

References

  1. Verruijt, A. (1970). Theory of Groundwater Flow. Macmillan, London.