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urbs is a linear programming optimisation model for capacity expansion planning and unit commitment for distributed energy systems. Its name, latin for city, stems from its origin as a model for optimisation for urban energy systems. Since then, it has been adapted to multiple scales from neighbourhoods to continents.

Documentation Status DOI

Features

Screenshots

<a href="doc/img/plot.png"><img src="doc/img/plot.png" alt="Timeseries plot of 8 days of electricity generation in vertex 'North' in scenario_all_together in hourly resolution: Hydro and biomass provide flat base load of about 50% to cover the daily fluctuating load, while large share of wind and small part photovoltaic generation cover the rest, supported by a day-night storage." style="width:400px"></a>

<a href="doc/img/comparison.png"><img src="doc/img/comparison.png" alt="Bar chart of cumulated annual electricity generation costs for all 5 scenarios defined in runme.py." style="width:400px"></a>

Installation

There are 2 ways to get all required packages under Windows. We recommend using the Python distribution Anaconda. If you don't want to use it or already have an existing Python (version 3.6 recommended, 2.7 is supported as well) installation, you can also download the required packages by yourself..

Anaconda/Miniconda (recommended)

  1. Anaconda (Python 3)/Miniconda. Choose the 64-bit installer if possible. During the installation procedure, keep both checkboxes "modify PATH" and "register Python" selected! If only higher Python versions are available, you can switch to a specific Python Version by typing conda install python=<version>
  2. Packages and Solver: GLPK.
    1. Download the environment file.
    2. Launch a new command prompt (Windows: Win+R, type "cmd", Enter)
    3. Install it via conda by conda env create -f urbs-env.yml.
    4. Each time you open a new terminal for running urbs, you can activate the environment by conda activate urbs.

Continue at Get Started.

Manually (the hard way)

For all packages, best take the latest release or release candidate version. Both 32 bit and 64 bit versions work, though 64 bit is recommended. The list of packages can be found in the environment file.

Get started

Developers

Once installation is complete, finally install git (for version control). Remark: at step "Adjusting your PATH environment", select "Run Git from the Windows Command Prompt".

Then, in a directory of your choice, clone this repository by:

git clone https://github.com/tum-ens/urbs.git

Continue like the users after they downloaded the zip file.

Users

If you are not planning on developing urbs, pick the latest release and download the zip file.

In the downloaded directory, open a execute the runme script by using the following on the command prompt (Windows) or Terminal (Linux). (Depending on what your standard python version is, you might need to call python3 instead of python.):

python runme.py

Some minutes later, the subfolder result should contain plots and summary spreadsheets for multiple optimised energy supply scenarios, whose definitions are contained in the run script (watch out for def scenario lines). Not working at the moment: To get a graphical and tabular summary over all scenarios, execute

python comp.py

and look at the new files result/mimo-example-.../comparison.xlsx and result/mimo-example-.../comparison.png for a quick comparison. This script parses the summary spreadsheets for all scenarios.

Next steps and tips

  1. Head over to the tutorial at http://urbs.readthedocs.io, which goes through runme.py step by step.
  2. Read the source code of runme.py and comp.py.
  3. Try adding/modifying scenarios in scenarios.py and see their effect on results.
  4. If you need a nice python editor, think about using PyCharm. It has many features including easy Git integration, package management, etc.
  5. Fire up IPython (ipython3) and run the scripts from there using the run command: run runme and run comp. Then use whos and inspect the workspace afterwards (whos). See what you can do (analyses, plotting) with the DataFrames. Take the urbs.get_constants, urbs.get_timeseries and urbs.plot functions as inspriation and the Pandas docs as reference.

Further reading

Example uses

<a href="https://raw.githubusercontent.com/ojdo/urbs/1house/img/comparison.png"><img src="https://raw.githubusercontent.com/ojdo/urbs/1house/img/comparison.png" alt="Comparison plot in example study 1house."></a>

List of branches

Copyright

Copyright (C) 2014-2019 TUM ENS

This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version.

This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details.

You should have received a copy of the GNU General Public License along with this program. If not, see http://www.gnu.org/licenses/