Groundwater_discharge References

Groundwater discharge is the volumetric flow rate of groundwater through an aquifer.

Total groundwater discharge, as reported through a specified area, is similarly expressed as:

Q={\frac {dh}{dl}}KA

where

Q is the total groundwater discharge ([L³·T⁻¹]; m³/s),

K is the hydraulic conductivity of the aquifer ([L·T⁻¹]; m/s),

dh/dl is the hydraulic gradient ([L·L⁻¹]; unitless), and

A is the area which the groundwater is flowing through ([L²]; m²)

For example, this can be used to determine the flow rate of water flowing along a plane with known geometry.

The discharge potential

The discharge potential is a potential in groundwater mechanics which links the physical properties, hydraulic head, with a mathematical formulation for the energy as a function of position. The discharge potential, ${\textstyle \Phi }$ [L³·T⁻¹], is defined in such way that its gradient equals the discharge vector.^[1]

$Q_{x}=-{\frac {\partial \Phi }{\partial x}}$

$Q_{y}=-{\frac {\partial \Phi }{\partial y}}$

Thus the hydraulic head may be calculated in terms of the discharge potential, for confined flow as

$\Phi =KH\phi$

and for unconfined shallow flow as

$\Phi ={\frac {1}{2}}K\phi ^{2}+C$

where

{\textstyle H}

is the thickness of the aquifer [L],

{\textstyle \phi }

is the hydraulic head [L], and

{\textstyle C}

is an arbitrary constant [L³·T⁻¹] given by the boundary conditions.

As mentioned the discharge potential may also be written in terms of position. The discharge potential is a function of the Laplace's equation

${\frac {\partial ^{2}\Phi }{\partial x^{2}}}+{\frac {\partial ^{2}\Phi }{\partial y^{2}}}=0$

which solution is a linear differential equation. Because the solution is a linear differential equation for which superposition principle holds, it may be combined with other solutions for the discharge potential, e.g. uniform flow, multiple wells, analytical elements ( analytic element method).

References

^ Strack, Otto D. L. (2017). Analytical Groundwater Mechanics. Cambridge: Cambridge University Press. doi: 10.1017/9781316563144. ISBN 978-1-316-56314-4.

Freeze, R.A. & Cherry, J.A., 1979. Groundwater, Prentice-Hall. ISBN 0-13-365312-9

[1] Strack, Otto D. L. (2017). Analytical Groundwater Mechanics. Cambridge: Cambridge University Press. doi: 10.1017/9781316563144. ISBN 978-1-316-56314-4.

[1]

The discharge potential

See also

References