Online HYDRUS Short Course

“Modeling of water flow and contaminant transport in porous media using the HYDRUS software packages”

Participants will get a PDF file with all lectures and tutorial instructions, as well as online access to all carried out examples.

Detailed Program:

Day 1: Morning (9:00 - 12:00; Prague time), with focus on HYDRUS-1D

Format	Description
Lecture 1:	Vadose zone flow and transport modeling: An overview.
Lecture 2:	The HYDRUS-1D software for simulating one-dimensional variably-saturated water flow and solute transport.
Computer session 1:	HYDRUS-1D: Infiltration of water into a one-dimensional soil profile.

Day 1: Afternoon (13:00 - 17:00; Prague time)

Format	Description
Lecture 3:	On the characterization and measurement of the hydraulic properties of unsaturated porous media.
Lecture 4:	Application of the finite element method to variably-saturated water flow and solute transport.
Computer session 2:	HYDRUS-1D: Annual water flow and solute transport in a layered soil profile.
Lecture 5:	Introduction to inverse modeling; application of HYDRUS-1D to laboratory and field experiments.
Computer session 3:	HYDRUS-1D: Annual water flow and solute transport in a layered soil profile.

Day 2: Morning (9:00 - 12:00), with focus on HYDRUS (2D/3D)

Format	Description
Lecture 6:	HYDRUS (2D/3D) software for simulating two- and three-dimensional variably-saturated water flow and solute transport, Version 3. Domain Types.
Computer session 4:	HYDRUS (2D/3D): Subsurface line source.

Day 2: Afternoon (13:00 - 17:00)

Format	Description
Computer session 5:	HYDRUS (2D/3D): HYDRUS (2D/3D): Furrow infiltration with a solute pulse.
Computer session 6:	HYDRUS (2D/3D): Flow and transport in a transect to a stream.
Computer session 7:	HYDRUS (2D/3D): Three-Dimensional Water Flow and Solute Transport.

Day 3: Morning (9:00 - 12:00), with focus on special HYDRUS modules, such as UNSATCHEM

Format	Description
Lecture 7:	Preferential and nonequilibrium flow and transport.
Computer session 8:	HYDRUS-1D: Nonequilibrium flow and transport.
Lecture 8:	Coupled movement of water, vapor, and energy.
Computer session 9:	HYDRUS-1D: Coupled movement of water, vapor, and energy.

Day 3: Afternoon (13:00 - 17:00)

Format	Description
Lecture 9:	Overview of multicomponent biogeochemical transport modeling using the HYDRUS computer software packages, e.g., with the UNSATCHEM, HP1, and Wetland Modules.
Computer session 10:	HYDRUS-1D: Modeling Salinity with H1D.
Computer session 11:	UNSATCHEM: Modeling Salinity with UNSATCHEM.
Lecture 10:	Review of standard and non-standard HYDRUS modules (e.g., HP1, UnsatChem, Wetland, C-Ride, DualPerm, Slope Cube) and standard applications.

Day 4: Morning (9:00 - 12:00), with focus on PREEQC/HPGeochemistry

Format	Description
Lecture 1:	Introduction and aqueous speciation modelling.
Computer session 1:	Introduction HPGeochemistry graphical user interface.
Computer session 2:	Speciation modelling.

Day 4: Afternoon (13:00 - 17:00), with focus on PREEQC/HPGeochemistry and HP1

Format	Description
Computer session 3:	Reaction path modelling: Speciation and solubility.
Lecture 2:	Reactive transport in the vadose zone: Examples and approach.
	Solid-liquid interaction - Minerals
Computer session 4:	Reactive transport modelling: Setting up a HP1 project – Mineral dissolution/precipitation waves.

Day 5: Morning (9:00 - 12:00), with focus on PREEQC/HPGeochemistry and HP1

Format	Description
	Solid-liquid interaction – Ion exchange
Computer session 5:	Speciation and reaction path modelling.
Computer session 6:	Reactive transport modelling: Transport of major cations.

Day 5: Afternoon (13:00 - 17:00)

Format	Description
	Kinetics - Minerals
Computer session 7:	Reaction path modelling: Mineral dissolution.
	Kinetics – Degradation in the aqueous phase
Computer session 8:	Reaction path modelling: Monod kinetics.
Computer session 9:	Reaction path and reactive transport modelling: First-order degradation network.