hydesign
Science Score: 49.0%
This score indicates how likely this project is to be science-related based on various indicators:
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○CITATION.cff file
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✓codemeta.json file
Found codemeta.json file -
✓.zenodo.json file
Found .zenodo.json file -
✓DOI references
Found 4 DOI reference(s) in README -
✓Academic publication links
Links to: zenodo.org -
○Academic email domains
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○Institutional organization owner
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○JOSS paper metadata
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○Scientific vocabulary similarity
Low similarity (12.7%) to scientific vocabulary
Repository
Basic Info
- Host: GitHub
- Owner: mifm
- License: mit
- Language: Python
- Default Branch: auto_assembly
- Size: 110 MB
Statistics
- Stars: 0
- Watchers: 0
- Forks: 0
- Open Issues: 5
- Releases: 0
Metadata Files
README.md
Welcome to Hydesign
The DTU tool for design, control and optimization of utility scale Hybrid Power- and Energy Plants including wind, solar, storage and P2X technologies. - Hydesign is a non-linear model for evaluating HPP projects including: - Wind turbine selection - Wake losses that depend on the number of turbines and the installation density of the wind plant - Internal energy management system operation of the plant. The operation of the HPP plant is designed in an ideal scenario without degradation and an actual operation that can include degradation of the battery, or PV plant, as well as forecast errors in wind, solar and spot prices. - Non-linear battery degradation - Detailed cost models for wind, solar and Li-ion battery - Detailed financial model based on weighted costs of capital per technology - P2X capability with power to Hydrogen
How to cite
If you make use of HyDesign please cite this paper, which includes a detailed description of the methodology applied in the framework:
@Article{wes-9-759-2024,
AUTHOR = {Murcia Leon, J. P. and Habbou, H. and Friis-M{\o}ller, M. and Gupta, M. and Zhu, R. and Das, K.},
TITLE = {HyDesign: a tool for sizing optimization of grid-connected hybrid power plants including wind, solar photovoltaic, and lithium-ion batteries},
JOURNAL = {Wind Energy Science},
VOLUME = {9},
YEAR = {2024},
NUMBER = {4},
PAGES = {759--776},
URL = {https://wes.copernicus.org/articles/9/759/2024/},
DOI = {10.5194/wes-9-759-2024}
}
Source code repository (and issue tracker):
https://gitlab.windenergy.dtu.dk/TOPFARM/hydesign
License:
Documentation, installation, etc:
Owner
- Name: Mikkel Friis-Møller
- Login: mifm
- Kind: user
- Repositories: 2
- Profile: https://github.com/mifm
GitHub Events
Total
- Delete event: 7
- Push event: 26
- Pull request event: 13
- Create event: 7
Last Year
- Delete event: 7
- Push event: 26
- Pull request event: 13
- Create event: 7
Issues and Pull Requests
Last synced: 6 months ago
All Time
- Total issues: 0
- Total pull requests: 3
- Average time to close issues: N/A
- Average time to close pull requests: N/A
- Total issue authors: 0
- Total pull request authors: 1
- Average comments per issue: 0
- Average comments per pull request: 0.0
- Merged pull requests: 0
- Bot issues: 0
- Bot pull requests: 0
Past Year
- Issues: 0
- Pull requests: 3
- Average time to close issues: N/A
- Average time to close pull requests: N/A
- Issue authors: 0
- Pull request authors: 1
- Average comments per issue: 0
- Average comments per pull request: 0.0
- Merged pull requests: 0
- Bot issues: 0
- Bot pull requests: 0
Top Authors
Issue Authors
Pull Request Authors
- mifm (5)
- Copilot (3)
Top Labels
Issue Labels
Pull Request Labels
Dependencies
- continuumio/anaconda3 latest build
- NREL-PySAM *
- chaospy *
- cplex *
- dask *
- docplex *
- h5netcdf *
- h5py >=3.13
- matplotlib *
- netcdf4 *
- numpy >=2
- numpy-financial *
- openmdao *
- openpyxl *
- ortools *
- pandas *
- pvlib *
- pyyaml *
- rainflow *
- scikit-learn *
- scipy *
- smt ==2.9.2
- statsmodels *
- tqdm *
- xarray *
- zarr *