2.4.1.1. Project Settings

The first step is to setup the project as shown in Fig. 2.4.1.1. All of these settings, except Simulation type, are optional. However, setting them makes the future steps easier.

../../../../../_images/ProjSett01.png

Fig. 2.4.1.1.1 Project settings for Hydro event

  1. Project name and description: This is an optional parameter primarily meant for the user to identify and differentiate between projects.

  2. Simulation type: This is mandatory and without a selection of the type, no other options can be set. The various simulation options available in Hydro event are as shown in Fig. 2.4.1.1.2. The differences between different simulation types are as given below.

    ../../../../../_images/SimulationType.png

    Fig. 2.4.1.1.2 Simulation types available in Hydro event

    1. CFD to resolve SW (Using SW results): This setting facilitates the user to import solutions from a pre-run two-dimensional shallow water solver. The user can select small portions of the shallow-water domain and setup high-fidelity three-dimensional CFD on these selected areas. For example: If one had a GeoClaw simulation for an earthquake on the Alaska fault and one is interested in the inundation in Cresant City, CA (USA). Then, the user can bring in the GeoClaw solutions and resolve the near-coast using a full three-dimensional CFD simulation.

    2. CFD using bathymetry data: This simulation type allows the user to setup a CFD simulation using the geometry defined through the bathymetry data of the ocean floor.

    3. CFD using STL file: This simulation type allows the users to setup the CFD simulation using STL files to define the geometry of the domain.

    4. CFD of wave flume: This simulation type allows the user to access the Wave Flume Digital Twin.

  3. Turbulence model:

    ../../../../../_images/TurbSett.png

    Fig. 2.4.1.1.3 Turbulence settings available for Hydro event

    Hydro-UQ presently supports two different turbulence models as shown in Fig. 2.4.1.1.3. The available options include:

    1. Laminar

    2. k-Epsilon

    3. k-Omega SST

    By default, the flow is assumed to be laminar if no turbulence model is selected. More information about the turbulence wall models is available in the technical manual (CFD Solvers).