urbs: A linear optimisation model for distributed energy systems¶
|Author:||Johannes Dorfner, <email@example.com>|
|Organization:||Chair of Renewable and Sustainable Energy Systems, Technical University of Munich, <firstname.lastname@example.org>|
|Date:||Feb 11, 2020|
|Copyright:||The model code is licensed under the GNU General Public License 3.0. This documentation is licensed under a Creative Commons Attribution 4.0 International license.|
These documents give a general overview and help you getting started from after the installation (which is covered in the README.md file on GitHub) to you first running model.
Continue here if you want to understand the theoretical conception of the model generator, the logic behind the equations and the structure of the features.
Continue here if you want to understand in detail the model generator implementation.
Graphical user interface¶
It is possible to make the inputs in urbs with a stand alone graphical user interface. The interface itself as well as the module description are provided here.
- urbs is a linear programming optimization model for multi-commodity energy systems, their sizing, development and utilization.
- It finds the minimum cost energy system to satisfy given demand timeseries for possibly multiple commodities (e.g. electricity, heat).
- By default, operates on hourly-spaced timesteps (configurable) and can be used for intertemporal optimization.
- Thanks to pandas, complex data analysis code is short and extensible.
- The model itself is quite small thanks to relying on the Pyomo package.
- urbs includes reporting and plotting functions for rapid scenario development.
2019-03-13 Version 1.0¶
- Maintenance: Modularity (only features which are used are build)
- Maintenance: New structure of documentation
- Feature: Time variable efficiency
- Feature: Objective function can be changed to CO2
- Feature: Intertemporal feature (expansion between years)
- Feature: Input validation (having easier to understand error messages due to Excel file)
- Feature: Reconstruction of partial feature
- Feature: Global constraints instead of Hacks
- Bugfixes: Many
2017-01-13 Version 0.7¶
- Maintenance: Model file
urbs.pysplit into subfiles in folder
- Feature: Usable area in site implemented as possible constraint
- Feature: Plot function (and
get_timeseries) now support grouping of multiple sites
- Feature: Environmental commodity costs (e.g. emission taxes or other pollution externalities)
- Bugfix: column Overproduction in report sheet did not respect DSM
2016-08-18 Version 0.6¶
2016-02-16 Version 0.5¶
- Support for Python 3 added
- Support for Pyomo 4 added, while maintaining Pyomo 3 support. Upgrading to Pyomo 4 is advised, as support while be dropped with the next release to support new features.
- New feature: maximal power gradient for conversion processes
- Documentation: buyselldoc (expired) long explanation for Buy and Sell commodity types
- Documentation: Model Implementation full listing of sets, parameter, variables, objective function and constraints in mathematical notation and textual explanation
- Documentation: updated installation notes in README.md
- Plotting: automatic sorting of time series by variance makes it easier to read stacked plots with many technologies
2015-07-29 Version 0.4¶
- Additional commodity types Buy and Sell, which support time-dependent prices.
- Persistence functions load and save, based on pickle, allow saving and retrieving input data and problem instances including results, for later re-plotting or re-analysis without having to solve them again.
- Documenation: workflow tutorial added with example “Newsealand”
2014-12-05 Version 0.3¶
- Processes now support multiple inputs and multiple output commodities.
- As a consequence
plot()now plots commodity balance by processes, not input commodities.
- urbs now supports input files with only a single site; simply delete all entries from the ‘Transmission’ spreadsheet and only use a single site name throughout your input.
- Moved hard-coded ‘Global CO2 limit’ constraint to dedicated “Hacks”
spreadsheet, while the constraint is
- More docstrings and comments in the main file
This is a typical result plot created by
urbs.plot(), showing electricity
generation and storage levels in one site over 10 days (240 time steps):
An exemplary comparison script
comp.py shows how one can create automated
cross-scenario analyses with very few lines of pandas code. This resulting
figure shows system costs and generated electricity by energy source over five
- Python versions 2.7 or 3.x are both supported.
- pyomo for model equations and as the interface to optimisation solvers (CPLEX, GLPK, Gurobi, …). Version 4 recommended, as version 3 support (a.k.a. as coopr.pyomo) will be dropped soon.
- matplotlib for plotting due to its capability to customise everything.
- pandas for input and result data handling, report generation
- Any solver supported by pyomo; suggestion: GLPK