Hodges Research Group Dataverse

Research products associated with the research group of Prof. Ben R. Hodges and his students. Center for Water and the Environment, University of Texas at Austin

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1 to 10 of 42 Results

SWMM5+ Alpha Release Documentation Aug 31, 2021 - SWMM5+ Dataverse Hodges, Ben R.; Yu, Cheng-Wei; Tiernan, Edward D.; Gerardo Riaño-Briceño; Sharior, Sazzad; Jenkins, Eric, 2021, "SWMM5+ Alpha Release Documentation", https://doi.org/10.18738/T8/WQZ5EX, Texas Data Repository, V2 The Alpha (preliminary) code release of the SWMM5+ hydraulics engine is described. The new hydraulics engine is a companion code to the US Environmental Protection Agency's Storm Water Management Model (EPA SWMM). The SWMM5+ code must be linked directly with EPA SWMM during compi...
SWMM5+ Dataverse(University of Texas at Austin) Aug 31, 2021 Project results for SWMM5+ development of new stormwater management model.
Supporting Data for Automated detection of instability-inducing channel geometry transitions in Saint-Venant simulation of large-scale river networks May 6, 2021 - Saint-Venant 1D hydrodynamic models Yu, Cheng-Wei; Hodges, Ben R.; Liu, Frank, 2021, "Supporting Data for Automated detection of instability-inducing channel geometry transitions in Saint-Venant simulation of large-scale river networks", https://doi.org/10.18738/T8/IPHYKM, Texas Data Repository, V1 Code and supporting data for Automated detection of instability-inducing channel geometry transitions in Saint-Venant simulation of large-scale river networks. Manuscript in preparation for peer review.
Building the Trinity River Delta Hydrodynamic Model 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...
Trinity River Delta Hydrodynamic Model (TDHM)(University of Texas at Austin) Jun 19, 2020 Development of Trinity River Hydrodynamic Model (TDHM) for the Texas Water Development Board
PipeAC code and supporting data 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".
PipeAC(University of Texas at Austin) 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.
Extending and improving Texas bay/estuary oil spill simulations 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...
Oil spill physics and modeling(University of Texas at Austin) Nov 18, 2019 Research on oil spill physics and modeling conducted by Ben R. Hodges and collaborators
Test case data for Reference Slope study with HEC-RAS and SPRNT-RS 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".

SWMM5+ Alpha Release Documentation

Aug 31, 2021 - SWMM5+ Dataverse

Hodges, Ben R.; Yu, Cheng-Wei; Tiernan, Edward D.; Gerardo Riaño-Briceño; Sharior, Sazzad; Jenkins, Eric, 2021, "SWMM5+ Alpha Release Documentation", https://doi.org/10.18738/T8/WQZ5EX, Texas Data Repository, V2

The Alpha (preliminary) code release of the SWMM5+ hydraulics engine is described. The new hydraulics engine is a companion code to the US Environmental Protection Agency's Storm Water Management Model (EPA SWMM). The SWMM5+ code must be linked directly with EPA SWMM during compi...

SWMM5+ Dataverse(University of Texas at Austin)

Aug 31, 2021

Project results for SWMM5+ development of new stormwater management model.

Supporting Data for Automated detection of instability-inducing channel geometry transitions in Saint-Venant simulation of large-scale river networks

May 6, 2021 - Saint-Venant 1D hydrodynamic models

Yu, Cheng-Wei; Hodges, Ben R.; Liu, Frank, 2021, "Supporting Data for Automated detection of instability-inducing channel geometry transitions in Saint-Venant simulation of large-scale river networks", https://doi.org/10.18738/T8/IPHYKM, Texas Data Repository, V1

Code and supporting data for Automated detection of instability-inducing channel geometry transitions in Saint-Venant simulation of large-scale river networks. Manuscript in preparation for peer review.

Building the Trinity River Delta Hydrodynamic Model

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...

Trinity River Delta Hydrodynamic Model (TDHM)(University of Texas at Austin)

Jun 19, 2020

Development of Trinity River Hydrodynamic Model (TDHM) for the Texas Water Development Board

PipeAC code and supporting data

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".

PipeAC(University of Texas at Austin)

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.

Extending and improving Texas bay/estuary oil spill simulations

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...

Oil spill physics and modeling(University of Texas at Austin)

Nov 18, 2019

Research on oil spill physics and modeling conducted by Ben R. Hodges and collaborators

Test case data for Reference Slope study with HEC-RAS and SPRNT-RS

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".

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