![]() ![]() ![]() More information: Overview of Domain Types in HYDRUS.Users may upgrade to higher Levels from lower Levels, as well as from lower versions (e.g., version 1.x) to higher versions (e.g., version 2 (and higher - in the future)). Users can also opt for relatively simple (two-dimensional rectangular geometries – 2D-Lite or three-dimensional hexahedral geometries – 3D-Lite) or more complex geometries (i.e., 2D-Standard for general two-dimensional geometries, 3D-Standard for problems that can be defined using the general two-dimensional base and a layered third dimension, or 3D-Professional for applications with general three-dimensional geometries). ![]() Users can select software limited to one-dimensional applications (the 1D-Standard Level), general two-dimensional applications (the 2D-Standard Level, which corresponds with former Hydrus-2D with MeshGen-2D) or for both two- and three-dimensional applications (i.e., 3D-Standard or 3D-Professional). HYDRUS is distributed in multiple different versions ( Editions / Levels) so that users may acquire only that segment of the software that is most appropriate for their application. HYDRUS version 5 was released in April 2022 and it merges two previously independent software packages HYDRUS-1D (version 4, for one-dimensional applications) and HYDRUS (2D/3D) (version 3, for two- and three-dimensional applications). The program can be extended with a number of special add-on modules. The model is supported by an interactive graphics-based interface for data-preprocessing, generation of structured and unstructured finite element mesh, and graphic presentation of the results. ![]() The model includes a parameter optimization algorithm for inverse estimation of a variety of soil hydraulic and/or solute transport parameters (only for the standard modules). The software package includes computational finite element models for simulating the one-, two-, and three-dimensional movement of water, heat, and multiple solutes in variably saturated media. HYDRUS is a Microsoft Windows based modeling environment for the analysis of water flow and solute transport in variably saturated porous media. ![]()
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