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Geospatial Land Availability for Energy Systems (GLAES)

GLAES is a framework for conducting land eligibility analyses and is designed to easily incorporate disparate geospatial information from a variety of sources into a unified solution. Currently, the main purpose of GLAES is performing land eligibility (LE) analyses which, in short, are used to determine which areas within a region are deemed 'eligible' for some purpose (such as placing a wind turbine). Although initially intended to operate in the context of distributed renewable energy systems, such as onshore wind and open-field solar parks, the work flow of GLAES is applicable to any context where a constrained indication of land is desired. Except in the context of Europe, GLAES only provides a framework for conducting these types of analyses, and so the underlying data sources which are used will need to be provided. Fortunately, GLAES is built on top of the Geospatial Data Abstraction Library (GDAL) and so is capable of incorporating information from any geospatial dataset which GDAL can interpret; including common GIS formats such as .shp and .tif files. In this way, GLAES affords a high degree of flexibility such that very specific considerations, while still maintaining a consistent application method between studies.

DOI

Features

  • Standardized approach to land eligibility analyses
  • Applicable in any geographic region and at any resolution
  • Can flexibly incorporate most geospatial datasets: including the common .shp and .tif formats
  • Simple visualization and storage of results as common image or raster dataset
  • Simple integration of results into other analysis (via numpy array)

European Priors

A number of precomputed (Prior) datasets which constitute the most commonly considered criteria used for LE analyses have been constructed for the European context. These datasets are formatted to be used directly with the GLAES framework and, in doing so, drastically reduce the time requirements, data management, and overall complexity of conducting these analyses. The Priors also have the added benefit of providing a common data source to all LE researchers, which further promotes consistency between independent LE evaluations. Most important, usage of these datasets is just as easy as applying exclusions from other geospatial datasources. Although the Prior datasets are not included when cloning this repository, they can be downloaded and installed using the process detailed in the "Installation" section.


Example

A simple LE work flow using GLAES would go as follows:

Objective:

  • Determine land eligibility for photovoltaic (PV) modules in the Aachen administration region considering that...
    1. PV modules should not cover agricultural areas (because people need to eat)
    2. PV modules should not be within 200 meters of a major road way (because they may get dirty)
    3. PV modules should not be within 1000 meters of a settlement area (because they are too shiny)
    ec = ExclusionCalculator(aachenRegion, srs=3035, pixelSize=100)

    ec.excludePrior("agriculture_proximity", value=0)
    ec.excludePrior("settlement_proximity", value=(None,1000))
    ec.excludePrior("roads_main_proximity", value=(None,200))

    ec.draw()

Final eligibility result

More Examples

  1. Basic Workflow
  2. Placement Algorithm

Installation

The primary dependancies of GLAES are:

  1. gdal>2.0.0,<3.0.0
  2. GeoKit >= 1.2.4

If you can install these modules on you own, then the glaes module should be easily installable with:

pip install git+https://github.com/FZJ-IEK3-VSA/glaes.git#egg=glaes

If, on the otherhand, you prefer an automated installation using Anaconda, then you should be able to follow these steps:

  1. First clone a local copy of the repository to your computer, and move into the created directory
git clone https://github.com/FZJ-IEK3-VSA/glaes.git
cd glaes
  1. (Alternative) If you want to use the 'dev' branch (or another branch) then use:
git checkout dev
  1. GLAES should be installable to a new environment with:
conda env create --file requirements.yml
  1. (Alternative) Or into an existing environment with:
conda env update --file requirements.yml -n <ENVIRONMENT-NAME>
  1. (Alternative) If you want to install GLAES in editable mode, and also with jupyter notebook and with testing functionalities use:
conda env create --file requirements-dev.yml

Docker

We are trying to get GLAES to work within a Docker container. Try it out!

  • First pull the image with:
docker pull sevberg/glaes:latest
  • You can then start a basic python interpreter with:
docker run -it sevberg/glaes:latest -c "python"
  • Or you can start a jupyter notebook using:
docker run -it \
    -p 8888:8888 \
    sevberg/glaes:latest \
    -c "jupyter notebook --ip='*' --port=8888 --no-browser --allow-root"
  • Which can then be connected to at the address "localhost:8888:"
  • The API Key can be found from the output of the earlier command
  • Finally, you might want to mount a volume to access geospatial data. For this you can use:
docker run -it \
    --mount target=/notebooks,type=bind,src=<PATH-TO-DIRECTORY> \
    -p 8888:8888 \
    sevberg/glaes:latest  \
    -c "jupyter notebook --notebook-dir=/notebooks --ip='*' --port=8888 --no-browser --allow-root"

Associated papers

If you would like to see a much more detailed discussion on land eligibility analysis and see why a framework such as GLAES is not only helpful, but a requirement, please see:

The Background Paper

Examples of Land Eligibility evaluation and applications:


Citation

If you decide to use GLAES anywhere in a published work, please kindly cite us using the following

@article{Ryberg2018,
  author = {Ryberg, David and Robinius, Martin and Stolten, Detlef},
  doi = {10.3390/en11051246},
  issn = {1996-1073},
  journal = {Energies},
  month = {may},
  number = {5},
  pages = {1246},
  title = {{Evaluating Land Eligibility Constraints of Renewable Energy Sources in Europe}},
  url = {http://www.mdpi.com/1996-1073/11/5/1246},
  volume = {11},
  year = {2018}
}


License

MIT License

Copyright (c) 2017 David Severin Ryberg (FZJ IEK-3), Jochen Linßen (FZJ IEK-3), Martin Robinius (FZJ IEK-3), Detlef Stolten (FZJ IEK-3)

You should have received a copy of the MIT License along with this program.
If not, see https://opensource.org/licenses/MIT

About Us

Abteilung VSA

We are the Process and Systems Analysis department at the Institute of Energy and Climate Research: Electrochemical Process Engineering (IEK-3) belonging to the Forschungszentrum Jülich. Our interdisciplinary department's research is focusing on energy-related process and systems analyses. Data searches and system simulations are used to determine energy and mass balances, as well as to evaluate performance, emissions and costs of energy systems. The results are used for performing comparative assessment studies between the various systems. Our current priorities include the development of energy strategies, in accordance with the German Federal Government’s greenhouse gas reduction targets, by designing new infrastructures for sustainable and secure energy supply chains and by conducting cost analysis studies for integrating new technologies into future energy market frameworks.

Acknowledgment

This work was supported by the Helmholtz Association under the Joint Initiative "Energy System 2050 – A Contribution of the Research Field Energy".

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