Bing Li
Pennsylvania State University;Civil engineering | Ph.D. student
| Subject Areas: | Hydrology, Water Resource |
Recent Activity
ABSTRACT:
This repository is for the study of the physical meaning of the Alpha in TSM.
Content:
# In OTIS_cases, the user can find the cases used for the OTIS. The folder contains 12 cases.
## To run the simulation, the user need to set up the parameters in q.inp / params.inp / control.inp.
## Then run ./OTIS in Linux system.
# In the hyporheicFoam_cases folder, the user can find 12 cases for the numerical simulation used for hyporheicFoam.
#The Supplementary_cases folder contains 100 cases for Case 3 with different mass transfer coefficient values. It has been used for determining the mass transfer coefficient used in the Inverse method.
Note: For more information, please send a message to lee1991joe@gmail.com
Authors:
Bing Li
Penn State University
ABSTRACT:
This repository has the code and cases for the heterogeneous river-hyporheic zone. The generation of the model is based on Matlab, Python v3.0, and OpenFOAM v5.0.
Content:
1. Extended Bedforms v4.0: The geometry of river-hyporheic zone and geostatistical properties can be created from extended Bedforms v 4.0.
2. pyGeo2Hydro: the value of hydraulic parameters can be determined based on the stationary criteria in this python script. In addition, this python script converts data from Matlab files to files that can be used in OpenFOAM.
3. hyporheicFoam: this is the updated version of hyporheicFoam. It can simulate the flow and solute transport in heterogeneous sediment now.
Notes:
1. We used the extended Bedforms v4.0 and hyporheicFoam, more information on the original version can be found through the references.
Authors:
Bing Li
Penn State University
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ABSTRACT:
This repository has the code and cases for the heterogeneous river-hyporheic zone. The generation of the model is based on Matlab, Python v3.0, and OpenFOAM v5.0.
Content:
1. Extended Bedforms v4.0: The geometry of river-hyporheic zone and geostatistical properties can be created from extended Bedforms v 4.0.
2. pyGeo2Hydro: the value of hydraulic parameters can be determined based on the stationary criteria in this python script. In addition, this python script converts data from Matlab files to files that can be used in OpenFOAM.
3. hyporheicFoam: this is the updated version of hyporheicFoam. It can simulate the flow and solute transport in heterogeneous sediment now.
Notes:
1. We used the extended Bedforms v4.0 and hyporheicFoam, more information on the original version can be found through the references.
Authors:
Bing Li
Penn State University
ABSTRACT:
This repository is for the study of the physical meaning of the Alpha in TSM.
Content:
# In OTIS_cases, the user can find the cases used for the OTIS. The folder contains 12 cases.
## To run the simulation, the user need to set up the parameters in q.inp / params.inp / control.inp.
## Then run ./OTIS in Linux system.
# In the hyporheicFoam_cases folder, the user can find 12 cases for the numerical simulation used for hyporheicFoam.
#The Supplementary_cases folder contains 100 cases for Case 3 with different mass transfer coefficient values. It has been used for determining the mass transfer coefficient used in the Inverse method.
Note: For more information, please send a message to lee1991joe@gmail.com
Authors:
Bing Li
Penn State University