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FuelLib: A Python library for Group Contribution Method (GCM) calculations of fuel properties

Project description

FuelLib

Language: C++17 DOI Badge

CI Documentation

Overview

FuelLib (SWR-25-26) utilizes the tables and functions of the Group Contribution Method (GCM) as proposed by Constantinou and Gani (1994) and Constantinou, Gani and O'Connel (1995), with additional physical properties discussed in Govindaraju & Ihme (2016). The code is based on Pavan B. Govindaraju's Matlab implementation of the GCM, and has been expanded to include additional thermodynamic properties and mixture properties. The fuel library contains gas chromatography (GC x GC) data for a variety of fuels ranging from simple single component fuels to complex jet fuels. The GC x GC data for POSF jet fuels comes from Edwards (2020).

Citing this Work

If you use FuelLib in your research, please cite the following software record:

Montgomery, David, Appukuttan, Sreejith, Yellapantula, Shashank, Perry, Bruce, and Binswanger, Adam. FuelLib (Fuel Library) [SWR-25-26]. Computer Software. https://github.com/NatLabRockies/FuelLib. USDOE Office of Energy Efficiency and Renewable Energy (EERE), Office of Sustainable Transportation. Vehicle Technologies Office (VTO). 27 Feb. 2025. Web. doi:10.11578/dc.20250317.1.

Installation

Option 1: Install from PyPI (Recommended)

The easiest way to install FuelLib is via pip:

pip install fuellib

This will make the command-line tools available, including:

  • fl-export-pele and fl-export-converge for exporting fuel properties
  • fl-plt-props and fl-plt-comp for plotting fuel composition and properties
  • fl-fuels for listing available fuels
  • Temperature and unit conversion utilities

Option 2: Development Installation (For Contributors)

Clone the repository and install in editable mode:

git clone https://github.com/NatLabRockies/FuelLib.git
cd FuelLib
pip install -e '.[dev]'  # Install with development tools (docs, testing, formatting)

See the Contributing page for more detailed setup instructions and contribution guidelines.

Optional: Use a Dedicated Conda Environment

For better dependency isolation, you can create a conda environment first:

conda create --name fuellib-env python
conda activate fuellib-env
pip install fuellib

Library Usage

This repository includes multiple tutorials of ways to use FuelLib. We recommend starting with the basic tutorial, tutorials/basic.py, which is documented at https://natlabrockies.github.io/FuelLib/tutorials-basic.html. The script tutorials/mixtureProperties.py calculates a given mixture's density, viscosity and vapor pressure from GC x GC data. The results are plotted against data from NIST and Edwards (2020).

Command-Line Tools

After installing FuelLib using one of the methods above, you have access to several command-line tools for plotting, unit conversion, and exporting fuel data. A comprehensive list is provided in the documentation at https://natlabrockies.github.io/FuelLib/tutorials-cli.html.

Contributing

New contributions are always welcome! For detailed contribution guidelines, installation instructions, and development setup, see the Contributing page in the documentation.

Quick start:

  1. Fork the main repository
  2. Create a newFeature branch that contains your changes
  3. Update the sphinx documentation in newFeature
  4. Install development dependencies: pip install -e '.[dev]'
  5. Format the source code files using the provided CLI command: fl-format
  6. Run tests and build documentation locally to verify your changes
  7. Open a Pull Request (PR) from newFeature on your fork to branch main FuelLib repository.

Sphinx Documentation

This repository uses Sphinx to generate documentation.

To build the documentation, first install FuelLib with development support:

pip install -e ".[dev]"

Then use the provided CLI command:

fl-build-docs

The HTML documentation will be generated in docs/_build/html/. Open docs/_build/html/index.html in your web browser to view it.

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