Saint-Venant 1D hydrodynamic models

Research products associated with 1D modeling of rivers, river networks, and urban water system hydraulics.

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471 to 480 of 482 Results

elevation_output_20190508_0748_dx05.txt Jul 8, 2019 - SvePy restart files Plain Text - 28.6 MB - MD5: fb9dab21bfc56f31bb12cf43a97ec581
xvalue_output_20190506_0804.txt Jul 8, 2019 - SvePy restart files Plain Text - 7.5 KB - MD5: 493e2dd976027b7688492d3bcfc18031
xvalue_output_20190508_0748_dx05.txt Jul 8, 2019 - SvePy restart files Plain Text - 39.2 KB - MD5: e3182550a195f208d4db87315cfaa446
Algorithms in the SvePy solver for the unsteady Saint-Venant equations 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, 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...
all_bibliography_20190703.bib Jul 8, 2019 - Algorithms in the SvePy solver for the unsteady Saint-Venant equations Unknown - 2.2 MB - MD5: f9653fb47db652abdf4aa9f63db7e1dc bibtex bibliography file for Hodges and Liu (2019) SvePy Technical Report
arxiv.sty Jul 8, 2019 - Algorithms in the SvePy solver for the unsteady Saint-Venant equations Unknown - 7.7 KB - MD5: 4658824b1c55fb4032d40ce91e85987a Modified style file for Hodges and Liu (2019) SvePy Technical Report
Hodges and Liu (2019) SvePy Technical Report.pdf Jul 8, 2019 - Algorithms in the SvePy solver for the unsteady Saint-Venant equations Adobe PDF - 202.6 KB - MD5: 2ad6831c21bd8fcac56414de0a00318d
main.tex Jul 8, 2019 - Algorithms in the SvePy solver for the unsteady Saint-Venant equations LaTeX - 25.8 KB - MD5: 5a5425f07b5449dedfb178caaec4d559 LaTeX file for Hodges and Liu (2019) SvePy Technical Report
SvePy Flow Over a Bump test case output(University of Texas at Austin) Jul 8, 2019SvePy Output data from SvePy model of flow over a bump from SWASHES test case. Number in the file name provides the number of finite-volume elements in the simulation. Baseline simulation uses the momentum matching algorithm for the hydraulic jump. Simplejump simulations use extrapolat...
SvePy Waller Creek test case output(University of Texas at Austin) Jul 8, 2019SvePy SvePy model results for test case of flow in Waller Creek. File name information is parsed as follows: momentumjump or simplejump is type of hydraulic jump algorithm T00, T10, T20 denote different free-surface/bottom quadrature algorithms dx## denotes nominal grid scale (in m) Co...

elevation_output_20190508_0748_dx05.txt

Jul 8, 2019 - SvePy restart files

Plain Text - 28.6 MB -

xvalue_output_20190506_0804.txt

Jul 8, 2019 - SvePy restart files

Plain Text - 7.5 KB -

xvalue_output_20190508_0748_dx05.txt

Jul 8, 2019 - SvePy restart files

Plain Text - 39.2 KB -

Algorithms in the SvePy solver for the unsteady Saint-Venant equations

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, 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...

all_bibliography_20190703.bib

Jul 8, 2019 - Algorithms in the SvePy solver for the unsteady Saint-Venant equations

Unknown - 2.2 MB -

bibtex bibliography file for Hodges and Liu (2019) SvePy Technical Report

arxiv.sty

Jul 8, 2019 - Algorithms in the SvePy solver for the unsteady Saint-Venant equations

Unknown - 7.7 KB -

Modified style file for Hodges and Liu (2019) SvePy Technical Report

Hodges and Liu (2019) SvePy Technical Report.pdf

Jul 8, 2019 - Algorithms in the SvePy solver for the unsteady Saint-Venant equations

Adobe PDF - 202.6 KB -

main.tex

Jul 8, 2019 - Algorithms in the SvePy solver for the unsteady Saint-Venant equations

LaTeX - 25.8 KB -

LaTeX file for Hodges and Liu (2019) SvePy Technical Report

SvePy Flow Over a Bump test case output(University of Texas at Austin)

Jul 8, 2019SvePy

Output data from SvePy model of flow over a bump from SWASHES test case. Number in the file name provides the number of finite-volume elements in the simulation. Baseline simulation uses the momentum matching algorithm for the hydraulic jump. Simplejump simulations use extrapolat...

SvePy Waller Creek test case output(University of Texas at Austin)

Jul 8, 2019SvePy

SvePy model results for test case of flow in Waller Creek. File name information is parsed as follows: momentumjump or simplejump is type of hydraulic jump algorithm T00, T10, T20 denote different free-surface/bottom quadrature algorithms dx## denotes nominal grid scale (in m) Co...

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