PyPSA

Revision as of 12:37, 24 August 2016

Python for Power System Analysis

Authors:
Tom Brown, Jonas Hörsch, David Schlachtberger

Contact:
Tom Brown

PyPSA is a free software toolbox for simulating and optimising modern energy systems that include features such as variable wind and solar generation, storage units, sector coupling and mixed alternating and direct current networks. PyPSA is designed to scale well with large networks and long time series.

Based on Python, Pyomo. Using Pandas for data processing.

Website / Documentation
Download

Open Source
GNU General Public License version 3.0 (GPL-3.0)

Directly downloadable

Input data shipped

Model Scope

Model type and solution approach

Model class	Energy System Model
Sectors	Electricity, Heat, Transport, User-defined
Technologies	Renewables, Conventional Generation, CHP
Decisions	dispatch, investment
Regions	Germany (later Europe)
Geographic Resolution	User dependent
Time resolution	Hour
Network coverage	transmission, distribution, AC load flow, DC load flow, net transfer capacities

Model type	Optimization, Simulation
	Non-linear power flow; linear optimal power flow / investment optimisation
Variables
Computation time	minutes
Objective	Cost minimization
Uncertainty modeling	Not explicitly covered, but stochastic optimisation possible
Suited for many scenarios / monte-carlo	Yes

References

Scientific references

Example research questions

Power flow analysis, market analysis, total system investment optimisation, contingency analysis, sector coupling

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@@ Line 7: / Line 7: @@
 |website=http://www.pypsa.org/
 |source_download=https://github.com/FRESNA/PyPSA
-|text_description=PyPSA is a free software toolbox for simulating and optimising modern electric power systems that include features such as variable wind and solar generation, storage units and mixed alternating and direct current networks. PyPSA is designed to scale well with large networks and long time series.
+|text_description=PyPSA is a free software toolbox for simulating and optimising modern energy systems that include features such as variable wind and solar generation, storage units, sector coupling and mixed alternating and direct current networks. PyPSA is designed to scale well with large networks and long time series.
 |open_source_licensed=Yes
 |license=GNU General Public License version 3.0 (GPL-3.0)
@@ Line 15: / Line 15: @@
 |modelling_software=Python, Pyomo
 |processing_software=Pandas
-|model_class=Electricity System Model,
+|model_class=Energy System Model,
-|sectors=Electricity,
+|sectors=Electricity, Heat, Transport, User-defined
-|technologies=Renewables, Conventional Generation
+|technologies=Renewables, Conventional Generation, CHP
 |decisions=dispatch, investment
 |georegions=Germany (later Europe)
@@ Line 26: / Line 26: @@
 |math_modeltype_shortdesc=Non-linear power flow; linear optimal power flow / investment optimisation
 |math_objective=Cost minimization
-|deterministic=Not covered (yet)
+|deterministic=Not explicitly covered, but stochastic optimisation possible
 |is_suited_for_many_scenarios=Yes
-|example_research_questions=Power flow analysis, market analysis, total system investment optimisation, contingency analysis
+|example_research_questions=Power flow analysis, market analysis, total system investment optimisation, contingency analysis, sector coupling
 }}

Author institution	FIAS +
Authors	Tom Brown, Jonas Hörsch, David Schlachtberger +
Contact email	brown@fias.uni-frankfurt.de +
Contact persons	Tom Brown +
Data availability	all +
Decisions	dispatch + and investment +
Deterministic	Not explicitly covered, but stochastic optimisation possible +
Example research questions	Power flow analysis, market analysis, total system investment optimisation, contingency analysis, sector coupling
Full Model Name	Python for Power System Analysis +
Georegions	Germany (later Europe) +
Georesolution	User dependent +
Is suited for many scenarios	true +
License	GNU General Public License version 3.0 (GPL-3.0) +
Math modeltype	Optimization + and Simulation +
Math modeltype shortdesc	Non-linear power flow; linear optimal power flow / investment optimisation +
Math objective	Cost minimization +
Model class	Energy System Model +
Model source public	true +
Modelling software	Python, Pyomo +
Network coverage	transmission +, distribution +, AC load flow +, DC load flow + and net transfer capacities +
Open future	false +
Open source licensed	true +
Processing software	Pandas +
Sectors	Electricity +, Heat +, Transport + and User-defined +
Source download	https://github.com/FRESNA/PyPSA +
Technologies	Renewables +, Conventional Generation + and CHP +
Text description	PyPSA is a free software toolbox for simul … PyPSA is a free software toolbox for simulating and optimising modern energy systems that include features such as variable wind and solar generation, storage units, sector coupling and mixed alternating and direct current networks. PyPSA is designed to scale well with large networks and long time series. with large networks and long time series.
Timeresolution	Hour +
Website	http://www.pypsa.org/ +

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Revision as of 12:37, 24 August 2016

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PyPSA

Revision as of 12:37, 24 August 2016

References

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Example research questions