Skip to content

Pathways for Renewable Energy Planning coupling Short-term Hydropower OperaTion

License

Notifications You must be signed in to change notification settings

jye-lim/PREP-SHOT

 
 

Repository files navigation

PREP-SHOT logo

GitHub contributors GitHub issues Twitter Follow License

Overview

PREP-SHOT (Pathways for Renewable Energy Planning coupling Short-term Hydropower OperaTion) is a transparent, modular, and open-source energy expansion model, offering advanced solutions for multi-scale, intertemporal, and cost-effective expansion of energy systems and transmission lines. It's developed by Zhanwei Liu and Xiaogang He from the PREP-NexT Lab at the National University of Singapore.

For more information, please visit our Official Documentation.

This project is licensed under the GNU General Public License 3.0.

Key Features

  • Optimization model based on linear programming for multi-zone energy systems.
  • Cost minimization while meeting given demand time series.
  • Adjustable operation on hourly-spaced time steps.
  • Input data in Excel format and output data in NetCDF format using Xarray.
  • Support for multiple solvers like Gurobi, CPLEX, MOSEK, and GLPK via Pyomo.
  • Allows input of multiple scenarios for specific parameters.
  • A pure Python program, leveraging pandas and Xarray for simplified complex data analysis and extensibility.

Getting Started

This section includes a brief tutorial on running your first PREP-SHOT model.

  1. Clone the repo

    git clone https://github.com/PREP-NexT/PREP-SHOT.git
  2. Create the Conda Environment and install the dependencies

    conda env create -f prep-shot.yml
  3. Activate the Conda Environment

    conda activate prep-shot-test
  4. Run your first model

    python run.py

This example is inspired by real-world data. For a detailed elaboration of this tutorial, check out the Tutorial Page in our documentation.

How to Contribute

To contribute to this project, please read our Contributing Guidelines.

Citation

If you use PREP-SHOT in a scientific publication, we would appreciate citations. You can use the following BibTeX entry:

@article{liu2023,
  title = {Balancing-oriented hydropower operation makes the clean energy transition more affordable and simultaneously boosts water security},
  author = {Liu, Zhanwei and He, Xiaogang},
  journal = {Nature Water},
  volume = {1},
  pages = {778--789},
  year = {2023},
  doi = {10.1038/s44221-023-00126-0},
}

Contact Us

If you have any questions, comments, or suggestions that aren't suitable for public discussions in the Issues section, please feel free to reach out to Zhanwei Liu.

Please use the GitHub Issues for public discussions related to bugs, enhancements, or other project-related discussions.

Roadmap

  • Benders decomposition-based fast solution framework
  • JuMP-based low-memory and fast modelling engine
  • Support for input of cost–supply curves of technologies
  • Support for expanding conventional hydropower plants
  • Support for refurbishing conventional hydropower plants to pumped-storage schemes
  • Support for refurbishing carbon-emission plants to carbon capture and storage (CCS) schemes

Disclaimer

The PREP-SHOT model is an academic project and is not intended to be used as a precise prediction tool for specific hydropower operations or energy planning. The developers will not be held liable for any decisions made based on the use of this model. We recommend applying it in conjunction with expert judgment and other modeling tools in a decision-making context.


Repo Analytics

About

Pathways for Renewable Energy Planning coupling Short-term Hydropower OperaTion

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Languages

  • Python 100.0%