Quoted from: https://github.com/energyscope/EnergyScope
The model is coded in GLPK, using the open-source solver GLPSOL. To run the model, perform the following 4 steps:
- Install GLPK:
a) on Mac OS X (Option 1, recommended): use homebrew http://arnab-deka.com/posts/2010/02/installing-glpk-on-a-mac/
b) on Mac Os X (Option 2)/Linux:
$ cd ~/Downloads
$ tar -xzf glpk-4.63.tar.gz
$ cd glpk-4.63 [or newer version]
$ ./configure --prefix=/usr/local
$ make
$ sudo make install
See if your system recognises it:
$ which glpsol
should reveal:
$ /usr/local/bin/glpsol
Now try:
$ glpsol --help
Source: http://hichenwang.blogspot.ch/2011/08/fw-installing-glpk-on-mac.html
c) on Windows:
- Download the source files from: https://sourceforge.net/projects/winglpk/files/latest/download
- Extract the files in a folder. Depending on your operating system use glpsol.exe from: ./w64 if running on a 64 bit version ./w32 if running on a 64 bit version
- For facilitating the access to glpsol.exe you can add the full path (depending on your operating system, see below) from the previous point to the system variables PATH
- Clone/download the content of this folder
- Navigate to the folder 'STEP_2_Energy_Model' folder via terminal/cmd prompt and execute (check glpsol documentation for more options):
$ glpsol -m ESTD_model.mod -d ESTD_data.dat -d ESTD_12TD.dat -o ESTD_output.out (You might need to use 'glspol.exe' instead of 'glpsol' on Windows)
- Check the output files: if the ESTD_main.out file is correctly generated. If the command at point (3) did not run, it might be that glpsol is not on your PATH. Two solutions for that:
Descriptions of outputs files and folders:
- ./assets.txt : Installed capacity of each technology and its specific cost, gwp...
- ./cost_breakdown.txt : Cost of resources and technologies.
- ./gwp_breakdown.txt : GWP of resources and technologies.
- ./losses.txt : Losses in the networks.
- ./hourly_data/ : Folder containing the hourly data for each layer and for each storage technology.
- ./sankey/ : Folder containing the SANKEY diagram.
The model was originally developed in AMPL. Compatible solvers are CPLEX, Gurobi, etc. Running the model in AMPL requires the licences of AMPL and of at least one LP solver.
[1] G. Limpens, S . Moret, H. Jeanmart, F. Maréchal (2019). EnergyScope TD: a novel open-source model for regional energy systems. Appl Energy 2019; Volume 255. https://doi.org/10.1016/j.apenergy.2019.113729
[2] V. Codina Gironès, S. Moret, F. Maréchal, D. Favrat (2015). Strategic energy planning for large-scale energy systems: A modelling framework to aid decision-making. Energy, 90(PA1), 173–186. https://doi.org/10.1016/j.energy.2015.06.008
[3] S. Moret, M. Bierlaire, F. Maréchal (2016). Strategic Energy Planning under Uncertainty: a Mixed-Integer Linear Programming Modeling Framework for Large-Scale Energy Systems. https://doi.org/10.1016/B978-0-444-63428-3.50321-0