Drainage formula (Water Overlay): Difference between revisions

Drainage passive

First the flow capacity is calculated

${\displaystyle Q_{p,t}=\Delta t\cdot q_{t}}$

${\displaystyle Q_{b}=A_{d}\cdot f_{s}\cdot {\frac {(w_{g}-w_{w})\cdot A_{w}}{A_{d}\cdot f_{s}+A_{w}}}}$

if ${\displaystyle w_{w}>w_{g}}$ then:

${\displaystyle Q_{max}=A_{w}\cdot (w_{w}-z_{w})}$

else:

${\displaystyle Q_{max}=A_{d}\cdot (w_{d}-z_{d})\cdot f_{s}}$

${\displaystyle Q_{d}=min(Q_{p,t},Q_{b},Q_{max})}$

Drainage active

Case 1: Active Draining:

If a positive Pump q is defined:

${\displaystyle Q_{p,t}=\Delta t\cdot q_{t}}$

If a lower threshold T_l,t is defined as well:

${\displaystyle Q_{l,t}=min(0,w_{l,t}-T_{l,t})}$

If an upper threshold T_{u,t} is defined as well:

${\displaystyle Q_{u,t}=max(0,T_{u,t}-w_{t,u})}$

If a capacity Q_total is defined:

${\displaystyle Q_{c}=Q_{total}-\sum _{0..t-1}Q_{i}}$

After calculating the capacities, the actual water pumped upwards is calculated. If any of the terms are undefined, they are not included.

${\displaystyle \Delta w={\frac {max(0,min(Q_{l,t},Q_{u,t},Q_{t},Q_{c}))}{A}}}$

Case 2: Active Reverse Draining:

If a negative Pump q is defined:

${\displaystyle Q_{p,t}=\Delta t\cdot q_{t}}$

If a lower threshold T_l,t is defined as well:

${\displaystyle Q_{l,t}=max(0,w_{l,t}-T_{l,t})}$

If an upper threshold T_u,t is defined as well:

${\displaystyle Q_{u,t}=min(0,T_{u,t}-w_{t,u})}$

If a capacity Q_total is defined:

${\displaystyle Q_{c}=Q_{total}-abs(\sum _{0..t-1}Q_{i})}$

After calculating the capacities, the actual water pumped upwards is calculated. If any of the terms are undefined, they are not included.

${\displaystyle \Delta w={\frac {max(0,max(Q_{l,t},Q_{u,t},Q_{t},-Q_{c}))}{A}}}$

Where:

${\displaystyle w_{g}}$ is the ground water level in meters

${\displaystyle w_{w}}$ is the water level in the waterway

${\displaystyle z_{d}}$ is the drainage datum height in meters.

${\displaystyle A_{d}}$ is the drainage area size in square meters.

${\displaystyle A_{w}}$ is the waterway area size in square meters.

${\displaystyle z_{w}}$ is the max waterway height.

${\displaystyle f_{s}}$ is the average storage percentage of the ground above the drainage.

${\displaystyle Q_{b}}$ is the amount transferred for a balanced ground and surface water level

${\displaystyle Q_{max}}$ is the amount available in the ground above the drainage.

${\displaystyle Q_{p_{t}}}$ is the drainage capacity at time t

${\displaystyle Q_{d}}$ is the actual drained volume at time t

Related

The following topics are related to this formula.

Structures

Drainage

Models

Surface model

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Water Module

Water Module

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Surface • Ground • Rain • Evaporation • Infiltration • Elevation • Breach • Sewer • Storage • Tracer flow • Border • Order

Model formulas

Timestep • Season • Surface water level • Groundwater level

Flow formulas

Surface flow • Surface infiltration • Ground flow • Ground infiltration • Surface evaporation • Ground evaporation • Ground bottom flow

Hydraulic structure formulas

Culvert • Weir • Breach growth • Breach flow • Pump • Sewer Overflow • Inlet • Drainage

Related

Building attributes • Hydrological features • Hydraulic structures •  Terrain attributes • Model attributes • Results • Simulation data