@@ -218,7 +218,7 @@ Although a 2p2c system is plugged in, we still want to simulate the same situati

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@@ -218,7 +218,7 @@ Although a 2p2c system is plugged in, we still want to simulate the same situati

The following changes have to be made in the porous-medium model (`ex_models_pmproblem.hh`):

The following changes have to be made in the porous-medium model (`ex_models_pmproblem.hh`):

* Include the 2pnc model: include the respective headers and inherit from the new model `TwoPNC`

* Include the 2pnc model: include the respective headers and inherit from the new model `TwoPNC`

* Exchange the spatial parameters for the 1-phase system by those for a 2-phase system (hint: two occurrences).

* Exchange the spatial parameters for the 1-phase system by those for a 2-phase system (hint: two occurrences).

* Since two phases are involved now, we do not need to use the OnePAdapter anymore. Change to property of the FluidSystem such that `H2OAir` is used directly.

* Since two phases are involved now, we do not need to use the OnePAdapter anymore. Change to property of the FluidSystem such that `H2OAir` is used directly.

Afterwards, set the `transportCompIdx` to `Indices::switchIdx`.

Afterwards, set the `transportCompIdx` to `Indices::switchIdx`.

One big difference between the 1p and 2p model is, that the primary variables for which

One big difference between the 1p and 2p model is, that the primary variables for which

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@@ -318,12 +318,12 @@ The file `ex_turbulence_ffproblem.hh` is your free flow problem file within this

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@@ -318,12 +318,12 @@ The file `ex_turbulence_ffproblem.hh` is your free flow problem file within this

For using the compositional zero equation turbulence model, the following header files need to be included:

For using the compositional zero equation turbulence model, the following header files need to be included: