Software Release: Volume-Weighted Particle-Tracking Method for Solute-Transport Modeling: Implementation in MF2K-GWT
March 20, 2018
The Ground-Water Transport (GWT) Process for MODFLOW-2000 (mf2k) provides the capability to simulate three-dimensional solute transport. The GWT Process is based on the previously documented MOC3D model, which was integrated with MODFLOW-96. This data release includes compiled versions of the software, source code, documentation, and the input and output for several test cases.
Citation Information
| Publication Year | 2018 |
|---|---|
| Title | Software Release: Volume-Weighted Particle-Tracking Method for Solute-Transport Modeling: Implementation in MF2K-GWT |
| DOI | 10.5066/F78050RV |
| Authors | Richard B Winston, Leonard F Konikow, George Z. Hornberger |
| Product Type | Software Release |
| Record Source | USGS Asset Identifier Service (AIS) |
| USGS Organization | Water Resources Mission Area - Headquarters |
Related
Volume-weighted particle-tracking method for solute-transport modeling; Implementation in MODFLOW–GWT Volume-weighted particle-tracking method for solute-transport modeling; Implementation in MODFLOW–GWT
In the traditional method of characteristics for groundwater solute-transport models, advective transport is represented by moving particles that track concentration. This approach can lead to global mass-balance problems because in models of aquifers having complex boundary conditions and heterogeneous properties, particles can originate in cells having different pore volumes and (or)...
Authors
Richard B. Winston, Leonard F. Konikow, George Z. Hornberger
Related
Volume-weighted particle-tracking method for solute-transport modeling; Implementation in MODFLOW–GWT Volume-weighted particle-tracking method for solute-transport modeling; Implementation in MODFLOW–GWT
In the traditional method of characteristics for groundwater solute-transport models, advective transport is represented by moving particles that track concentration. This approach can lead to global mass-balance problems because in models of aquifers having complex boundary conditions and heterogeneous properties, particles can originate in cells having different pore volumes and (or)...
Authors
Richard B. Winston, Leonard F. Konikow, George Z. Hornberger