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1 to 10 of 28 Results
Jul 8, 2019 - SvePy code and documents
Hodges, Ben R.; Liu, Frank, 2019, "Algorithms in the SvePy solver for the unsteady Saint-Venant equations", https://doi.org/10.18738/T8/ETSJDJ, Texas Data Repository Dataverse, V1
The Saint-Venant Python (SvePy) code has been written to solve a single the Saint-Venant equations governing unsteady flow in a river reach with either rough or smooth geometry. The code was designed for prototype testing of finite-volume numerical algorithms. The primary descrip...
Sep 15, 2019 - Test Cases for Cheng-Wei Yu, Ben R. Hodges, Frank Liu (2019)
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/WMQIPS, Texas Data Repository Dataverse, V1
This dataset contains all the test cases data for the technical report written by Yu, Hodges, and Liu (2019), which is a supplemental technical report for the paper "Numerical Modeling of the Saint-Venant Equations: Effects and Adaptions for Bottom Slope Discontinuity" written by...
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 Dataverse, 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...
Jul 8, 2019 - SvePy Flow Over a Bump test case output
Hodges, Ben R., 2019, "outtxt_bump_0033_baseline", https://doi.org/10.18738/T8/ZOJXLS, Texas Data Repository Dataverse, V1
outtxt_bump_0033_baseline
Jul 8, 2019 - SvePy Flow Over a Bump test case output
Hodges, Ben R., 2019, "outtxt_bump_0065_baseline", https://doi.org/10.18738/T8/B7GU5P, Texas Data Repository Dataverse, V1
outtxt_bump_0065_baseline
Jul 8, 2019 - SvePy Flow Over a Bump test case output
Hodges, Ben R., 2019, "outtxt_bump_0129_baseline", https://doi.org/10.18738/T8/HQUJPD, Texas Data Repository Dataverse, V1
outtxt_bump_0129_baseline
Jul 8, 2019 - SvePy Flow Over a Bump test case output
Hodges, Ben R., 2019, "outtxt_bump_0401_baseline", https://doi.org/10.18738/T8/BP94QK, Texas Data Repository Dataverse, V1
outtxt_bump_0401_baseline
Jul 8, 2019 - SvePy Flow Over a Bump test case output
Hodges, Ben R., 2019, "outtxt_bump_0513_baseline", https://doi.org/10.18738/T8/SXE9N2, Texas Data Repository Dataverse, V1
outtxt_bump_0513_baseline
Jul 8, 2019 - SvePy Flow Over a Bump test case output
Hodges, Ben R., 2019, "outtxt_bump_0513_simplejump", https://doi.org/10.18738/T8/WBMAS0, Texas Data Repository Dataverse, V1
outtxt_bump_0513_simplejump
Jul 8, 2019 - SvePy Flow Over a Bump test case output
Hodges, Ben R., 2019, "outtxt_bump_0513_simplejump_linearinterp", https://doi.org/10.18738/T8/RQX3YE, Texas Data Repository Dataverse, V1
outtxt_bump_0513_simplejump_linearinterp
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