1 to 10 of 39 Results
Jun 19, 2020 - Trinity River Delta Hydrodynamic Model (TDHM)
Li, Zhi; Hodges, Ben R.; Passalacqua, Paola, 2020, "Building the Trinity River Delta Hydrodynamic Model", https://doi.org/10.18738/T8/BWOOPM, Texas Data Repository, V1
The Trinity River Delta Hydrodynamic Model (TDHM) has been constructed under a contract with the Texas Water Development Board based on prior work with the Nueces Delta Hydrodynamic Model (NDHM) and a new Fine Resolution Environmental Hydrodynamics Model written in C (FrehdC). Th... |
Jun 19, 2020
Development of Trinity River Hydrodynamic Model (TDHM) for the Texas Water Development Board |
May 14, 2020 - PipeAC
Hodges, Ben R., 2020, "PipeAC code and supporting data", https://doi.org/10.18738/T8/5GJ6ST, Texas Data Repository, V1
PipeAC code and supporting data for PipeAC model for the manuscript "An artificial compressibility method for 1D simulation of open-channel and pressurized-pipe flow". |
May 14, 2020Saint-Venant 1D hydrodynamic models
Artificial compressibility model for free-surface and surcharged pipe flow using Saint-Venant equations. PipeAC code is Python 3.7 scripting. Code is published as public domain software. Scripts for analysis and model results are provided. |
Nov 18, 2019 - Oil spill physics and modeling
Hodges, Ben, 2019, "Extending and improving Texas bay/estuary oil spill simulations", https://doi.org/10.18738/T8/DQWE9F, Texas Data Repository, V1
The Hydrodynamic Oil Spill--Python (HyosPy) system is an integrated modeling system that combines the latest weather forecast with multiple hydrodynamic models and oil spill models that, in a conventional operating mode, can be used to provide predictions of oil spill particle tr... |
Nov 18, 2019
Research on oil spill physics and modeling conducted by Ben R. Hodges and collaborators |
Sep 23, 2019 - ReferenceSlope
Yu, Cheng-Wei; Hodges, Ben R.; Liu, Frank, 2019, "Test case data for Reference Slope study with HEC-RAS and SPRNT-RS", https://doi.org/10.18738/T8/BXJBF5, Texas Data Repository, V1
Files for running SPRNT-RS and HEC-RAS on simulation test cases used in the manuscript Yu, Hodges and Liu (2019) "Numerical Modeling of the Saint-Venant Equations: Effects and Adaptions for Bottom Slope Discontinuity". |
Sep 20, 2019 - ReferenceSlope
Yu, Cheng-Wei; Hodges, Ben R.; Liu, Frank, 2019, "Evaluation of the performance of the Reference Slope (RS) Method in Simulation Program for River Network (SPRNT)", https://doi.org/10.18738/T8/GRCB8B, Texas Data Repository, V1
The reference slope (RS) method has been proposed to resolve and eliminate possible numerical oscillation caused by the non-Lipschitz continuous source term in the Saint-Venant equations. The primary descriptions of the RS methods are found in Yu et. al. (2019). This technical re... |
Sep 20, 2019Saint-Venant 1D hydrodynamic models
Reference slope method for treating bottom slope in Saint-Venant solutions of 1D channel flow. |
Jul 10, 2019 - SvePy Waller Creek test case output
Hodges, Ben R., 2019, "outtxt_WallerCreek_momentumjump_T00_Coarse_20190510_restart", https://doi.org/10.18738/T8/2W3YJQ, Texas Data Repository, V1
outtxt_WallerCreek_momentumjump_T00_Coarse_20190510_restart |