This software aims to be a complete platform for power systems research and simulation. Watch the video and check out the documentation
Try: pip install GridCal
For more options (including a standalone setup one), follow the installation instructions from the project's documentation.
GridCal can be used in 2 ways:
- With a GUI;
- As a library.
Executing python3 -c "from GridCal.ExecuteGridCal import run; run()" in a console
should bring up the GUI under most platforms. For detailed instructions, follow the
instructions
from the project's documentation.
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Cloning the repository: https://youtu.be/59W_rqimB6w
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Standalone GridCal setup: https://youtu.be/SY66WgLGo54
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Making a grid with profiles: https://youtu.be/H2d_2bMsIS0
In an effort to ease the simulation and construction of grids, We have included extra materials to work with.
Here you can find:
- Load profiles for your projects
- Standard IEEE grids as well as grids from open projects
- Equipment catalogue (Wires, Cables and Transformers) ready to use in GridCal
Examples are included in Tutorials section. In addition, the tests under src/tests may serve as valuable examples.
python3 -m venv venv
venv/bin/python -m pip install --upgrade -r requirements_venv.txt
venv/bin/python -m tox
It is pure Python, it works for Windows, Linux and OSX.
Some of the features you'll find already are:
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Compatible with other formats:
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Import (Drag & Drop)
- CIM (Common Information Model v16)
- PSS/e RAW versions 29, 30, 32, 33 and 34.
- Matpower (might not be fully compatible, notify me if not).
- DigSilent .DGS (not be fully compatible: Only positive sequence and devices like loads, generators, etc.)
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Export
- Zip file
.gridcalwith CSV inside (fastest, normal GridCal format) - Sqlite
- Excel
- Custom JSON
- CIM (Common Information Model v16)
- Zip file
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Power flow:
- Robust Newton Raphson in power and current equations.
- Newton Raphson Iwamoto (optimal acceleration).
- Fast Decoupled Power Flow
- Levenberg-Marquardt (Works very well with large ill-conditioned grids)
- Holomorphic Embedding Power Flow (Unicorn under investigation...)
- DC approximation.
- Linear AC approximation.
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Optimal power flow (OPF) and generation dispatch:
- Linear (DC) with losses.
- Linear (Ac) with losses.
- Loss-less simple generation dispatch.
- All the modes can be split the runs in hours, days, weeks or months!
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Time series with profiles in all the objects physical magnitudes.
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PTDF approximated branch flow time series for super fast estimation of the flows.
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Bifurcation point with predictor-corrector Newton-Raphson.
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Monte Carlo / Latin Hypercube stochastic power flow based on the input profiles.
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Blackout cascading in simulation and step by step mode.
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Three-phase short circuit.
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Includes the Z-I-P load model, this means that the power flows can handle both power and current.
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The ability to handle island grids in all the simulation modes.
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Profile editor and importer from Excel and CSV.
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Grid elements' analysis to discover data problems.
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Overhead line construction from wire scheme.
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Device templates (lines and transformers).
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Grid reduction based on branch type and filtering by impedance values
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Export the schematic in SVG and PNG formats.
Check out the documentation to learn more and to get started.
Send feedback and requests to santiago.penate.vera@gmail.com.