Metadata-Version: 2.1
Name: T_reX_LCA
Version: 0.2.2
Summary: A tool for analysing waste and material footprints in Life Cycle Assessment (LCA) databases
License: CC0 1.0 Universal (CC0 1.0) Public Domain Dedication
Author: Stewart Charles McDowall
Author-email: s.c.mcdowall@cml.leidenuniv.nl
Requires-Python: >=3.10,<3.12
Classifier: Development Status :: 5 - Production/Stable
Classifier: Intended Audience :: Science/Research
Classifier: License :: CC0 1.0 Universal (CC0 1.0) Public Domain Dedication
Classifier: License :: Other/Proprietary License
Classifier: Operating System :: OS Independent
Classifier: Programming Language :: Python :: 3
Classifier: Programming Language :: Python :: 3.10
Classifier: Programming Language :: Python :: 3.11
Classifier: Topic :: Scientific/Engineering
Requires-Dist: brightway2 (>=2.4.6,<3.0.0)
Requires-Dist: cowsay (>=6.1,<7.0)
Requires-Dist: premise (>=2.0.2,<3.0.0)
Project-URL: documentation, https://T-reX.readthedocs.io/en/latest/
Project-URL: homepage, https://github.com/Stew-McD/T-reX
Description-Content-Type: text/markdown

# T-reX: waste and material footprinting in LCA

[![DOI](https://zenodo.org/badge/DOI/10.5281/zenodo.10431181.svg)](https://doi.org/10.5281/zenodo.10431180)

Formerly known as "WasteAndMaterialFootprint"

**T** stands for *tool* and **reX** for *the circular economy strategies reduce, reuse, recycle, etc.* 

A python program for Life Cycle Assessment (LCA) calculations of supply chain waste and material footprints in current and prospective databases.

Built as an extension to the [brightway LCA ecosystem](https://brightway.dev/), using [premise](https://github.com/polca/premise) for the generation of future scenario databases and [wurst](https://github.com/polca/wurst) for database expansion. 

Soon to be a paper, hopefully. The manuscript has its own github repo [here](https://github.com/Stew-McD/T-reX_Publication). Reviews and comments are very welcome.

Email: T-reX@scmcd.ch

## Documentation

The documentation is available as a [website](https://T-reX.readthedocs.io/en/latest/). Also, as a  [pdf](https://T-reX.readthedocs.io/_/downloads/en/latest/pdf/).

The documentation is still under development, but the code is well commented and there is a full API reference.

The following readme provides a brief introduction to the program, how to install it, and how to use it.

See the example output [here](examples/package_test/example-output.pdf)

## Contents

- [T-reX: waste and material footprinting in LCA](#t-rex-waste-and-material-footprinting-in-lca)
  - [Documentation](#documentation)
  - [Contents](#contents)
  - [Visual overview](#visual-overview)
    - [Generalised and computational flowcharts](#generalised-and-computational-flowcharts)
  - [Installation](#installation)
    - [Dependencies](#dependencies)
    - [Installation instructions](#installation-instructions)
  - [Usage](#usage)
    - [Command line](#command-line)
    - [Python module](#python-module)
  - [Configuration](#configuration)
    - [General settings: `user_settings.py`](#general-settings-user_settingspy)
    - [Waste search settings: `queries_waste.py`](#waste-search-settings-queries_wastepy)
      - [Adjusting Search Terms](#adjusting-search-terms)
        - [Category-Specific Changes](#category-specific-changes)
        - [Optimising Search Efficiency](#optimising-search-efficiency)
      - [Validating Search Terms](#validating-search-terms)
    - [Material Search Settings: `queries_materials.py`](#material-search-settings-queries_materialspy)
      - [Structure and Customisation](#structure-and-customisation)
        - [Tuple Structure](#tuple-structure)
        - [Customisation Options](#customisation-options)
      - [Usage Considerations](#usage-considerations)
        - [Example Tuples](#example-tuples)
    - [Examples](#examples)
    - [Contributing](#contributing)
    - [License](#license)
    - [Citation](#citation)

## Visual overview

### Generalised and computational flowcharts

<img src="docs/source/_static/T-reX_flowchart_combined.png" alt="T-reX flowcharts" width="500">

## Installation

### Dependencies

The program is written in Python and the required packages are listed in the `requirements.txt` file. These should be installed automatically when installing the program.

The main dependencies are:

- [brightway2 components: bw2io, bw2data, bw2calc](https://docs.brightway.dev)
- [premise](https://premise.readthedocs.io)
- [wurst](https://wurst.readthedocs.io)

### Installation instructions

**It is recommended to use a fresh virtual environment to install the program.**

For example:

  ```bash
  python -m venv T-reX
  source T-reX/bin/activate
  ```

You can then clone the repo with the command:

  ```bash
  git clone https://github.com/Stew-McD/T-reX.git
  ```

The easiest way is to install the program as an editable package. This will install the program and all of the dependencies, and allow you to easily edit the code and the configuration and run it without having to reinstall it.

  ```bash
  cd T-reX
  pip install -e .
  ```

 and then run:

  ```bash
  cd T-reX
  python src/T-reX/main.py
  ```

If you only clone or download the repo without installing it, this will not install any of the dependencies, so you will need to install them manually if you don't already have them.

You can do that with this command:

  ```bash
  pip install -r requirements.txt
  ```

Another option: the program can be installed using pip:

  ```bash
  pip install T_reX_LCA
  ```

Or, if you want to install the latest version from GitHub:

  ```bash
  pip install git+https://github.com/Stew-McD/T-reX.git
  ```

or for an editable install from GitHub:

  ```bash
  git clone https://github.com/Stew-McD/T-reX.git
  cd T-reX
  pip install -e .
  ```

## Usage

The program can be used directly from the command line, or imported as a Python module. This will run the program with the default settings.

### Command line

You should clone the repo, navigate to the `T-reX` folder, and then run the program using:

  ```bash
      python src/T-reX/main.py
  ```

### Python module

The program can be imported as a Python module:

  ```python
      import T_reX_LCA as TreX
      TreX.run()
  ```

## Configuration

You can find the configuration files in the `config` folder (`src/T-reX/config`). Or if you install it with pip, you can find the config folder in the `site-packages/T-reX/config` folder of your Python venv installation.

If you have installed via pip, or want to have things separate, you can create a new folder somewhere and then run some built-in functions to create and reload the config files.

  ```python
      import T_reX_LCA as TreX
      TreX.create_config()
  ```

This will create a folder `config` in the current working directory containing the default configuration files (see below).

You can then edit these files with some kind of text editor, and run:

  ```python
      TreX.reload_config()
  ```

Note that you will need to close the Python session and start a new one to reload the config files.

If you want to revert to the default config files, you can run:

  ```python
      TreX.reset_config()
  ```

And then close and restart the Python session.

If you are running the program as an editable package, you can edit the config files directly in the `src/T-reX/config` folder.

Details of the configuration files are given below.

### General settings: `user_settings.py`

This is the main configuration file, the one that you might want to edit to match your project structure and your needs. By default, the program will take a brightway2 project named `default` and copy that to a new project named `SSP-cutoff`, which is then copied to a new project named `T_reXootprint-SSP-cutoff`.

Doing it this way isolates the components and allows you to keep your original brightway2 project as it was. If space is an issue, you can set all of the project names to be the same.

If you are happy with the default settings, you can just run the program and it will create the databases for you. If you want to change the settings, you can edit the `user_settings.py` file that you can find in the `config` directory of your working directory.

**These are some extracts from `user_settings.py` with the most important settings (the ones you might want to change) and their default values:**

  ```python

      # Choose whether to use premise to create future scenario databases 
      use_premise = True
      # Choose whether to use T-reX to edit the databases (you could also turn this off and just use the package as an easy way to make a set of future scenario databases)
      use_T_reX = True

      # Choose the names of the projects to use
      project_premise_base = "default"
      project_premise = "SSP-cutoff"
      project_base = project_premise
      project_T_reX = f"T-reX-{project_base}"

      # Choose the name of the database to use (needed for premise only, the T-reX tool will run all databases except the biospheres)
      database_name = "ecoinvent-3.9.1-cutoff"

      # if you want to use a fresh project
      delete_existing_premise_project = False
      delete_existing_T_reX_project = False

      # Choose the premise scenarios to generate (see FutureScenarios.py for more details)
      # Not all combinations are available, the code in FutureScenarios.py will filter out the scenarios that are not possible
      # the default is to have an optimistic and a pessimistic scenario with SSP2 for 2030, 2065 and 2100

      models = ["remind"]
      ssps = ["SSP2"]
      rcps = ["Base","PkBudg500"]
      years = [2030,2065,2100,]

  ```

### Waste search settings: `queries_waste.py`

This file sets up search parameters for different waste and material flow categories, crucial for the `SearchWaste.py` script. It leverages a `.pickle` file created by `ExplodeDatabase.py`.

- **Categories**: Handles various categories like digestion, composting, incineration, recycling, landfill, etc.
- **Query Types**: Two sets of queries are created:
  1. `queries_kg` for waste flows in kilograms.
  2. `queries_m3` for waste flows in cubic meters.

#### Adjusting Search Terms

- **Search Keywords**: Tweak the `AND`, `OR`, `NOT` lists to refine your search.

##### Category-Specific Changes

- **Adding Categories**: You can add new categories to the `names` list.
- **Modifying Queries**: Update the query parameters for each category based on your requirements.

##### Optimising Search Efficiency

You can choose to include or exclude whatever you want.
For instance, "non-hazardous" is not included as it's derivable from other categories and slows down the process.

#### Validating Search Terms

Isolate the function of `SearchWaste.py` to validate your search terms. That means, turning off the other functions in `user_settings.py, or running the module directly

You can achieve this by setting the following in `user_settings.py`:

  ```python
      use_premise = False
      do_search = True
      do_methods = False
      do_edit = False
  ```

### Material Search Settings: `queries_materials.py`

The `queries_materials` module creates demand methods in the T-reX tool. It aligns with the EU CRM list 2023 and the ecoinvent database, incorporating additional strategic materials for comprehensive analysis. More can be easily added, as wished by the user.

This function uses the string tests `startswith` in `SearchMaterial.py` to identify activities beginning with the specified material name. This allows one to be more specific with the search terms (the `,` can be critical sometimes).

#### Structure and Customisation

##### Tuple Structure

- **First Part (Activity Name)**: Specifies the exact activity in the database (e.g., `market for chromium`).
- **Second Part (Material Category)**: Aggregates related activities under a common category (e.g., `chromium`), enhancing data processing efficiency.

##### Customisation Options

- **Add or Remove Materials**: Adapt the tuple list by including new materials or removing irrelevant ones.
- **Refine Search Terms**: Update material categories for a better fit with your database, ensuring precision in naming, especially with the use of commas.

*Use the same logic as in `queries_waste.py` to test and refine your search terms. That is, only `use_search = True`*

#### Usage Considerations

- **Material Quantity**: The current list comprises over 40 materials. Modify this count to suit your project's scope.
- **Database Alignment**: Check that the material names correspond with your specific database version, like ecoinvent v3.9.1.

##### Example Tuples

- `("market for chromium", "chromium")`
- `("market for coal", "coal")`
- `("market for cobalt", "cobalt")`
- `("market for coke", "coke")`
- `("market for copper", "copper")`
- `("market for tap water", "water")`
- `("market for water,", "water")`

### Examples

The `examples` folder contains some example scripts that show how to use the program and the kind of results you can get.

There is a basic case study about batteries in there.

### Contributing

Contributions are very welcome! Test the code, report bugs, suggest features, etc. If you want to contribute code, please fork the repo and make a pull request.

See the [CONTRIBUTING.md](CONTRIBUTING.md) file for more details.

### License

T-reX by Stewart Charles McDowall is marked with CC0 1.0 Universal, do whatever you want with it. - see the [LICENSE](LICENSE) file for details

### Citation

If you use this code, please cite it as described in the [CITATION.cff](CITATION.cff) file (see the sidebar on the right).

When the paper is published, a citation for that will be added to the CITATION file.

