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Config → Dual Porosity… Run → Go

Published byUtami Sutedja Modified over 5 years ago

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Presentation on theme: "Config → Dual Porosity… Run → Go"— Presentation transcript:

1

2 Config → Dual Porosity… Run → Go
In a dual porosity model, each nodal block is divided into a free-flowing zone and a stagnant zone. Config → Dual Porosity… On/off toggle 40% of the aquifer is stagnant. Characteristic dimension of the stagnant zone Diffusion coefficient, thermal conductivity, porosity of stagnant zone default to free-flowing values unless you set them here. Run → Go traces the model

3 Specify domain’s starting fluid composition on the Initial pane
Clean water

4 Define the reaction intervals
Define the reaction intervals. Specify what fluids flow into the domain, and when. Inlet fluid “contaminated” enters the domain from t = 0 to 2 years Inlet fluid “flush” enters the domain from t = 2 to 10 years Click to add a new reaction interval

5 The various inlet fluids are defined on the Fluids pane
Inlet fluid named “contaminated” carries Pb++ pulse into the domain Clean rinse water: negligible Pb++ in the “flush” inlet fluid Click to add a new fluid

6 Specify domain size and gridding on the Domain pane.
Domain is 1 km long, divided into 400 nodal blocks

7 Specify flow rate on the Flow pane.
Set flowrate for 1st and 2nd reaction intervals individually, or set one flowrate for all intervals Set specific discharge or hydraulic head/ potential drop

8 Set various mass transport properties on the Medium pane.
Porosity of the free-flowing zone. Used to calculate coefficient of hydrodynamic dispersion.

9 Pb++ travels from one nodal block to another only through the free-flowing volume, but it can diffuse into and out of the stagnant zones.

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