Calliope |
ETH Zürich |
true |
true |
Apache License 2.0 (Apache-2.0) |
net transfer capacities transmission distribution |
Framework |
true |
dispatch investment |
User-dependent |
Optimization |
User-dependent, including financial cost, CO2, and water consumption |
Deterministic; stochastic programming add-on |
Python (Pyomo) |
CapacityExpansion |
Stanford University, RWTH Aachen |
true |
false |
MIT license (MIT) |
|
Capacity Expansion Problem |
true |
dispatch investment |
Input data dependent |
Optimization |
Total system cost |
|
Julia/JuMP |
DESSTinEE |
Imperial College London |
true |
true |
Creative Commons Attribution Share-Alike 3.0 (CC-BY-SA-3.0) |
net transfer capacities |
Simulation |
true |
dispatch |
Europe, North Africa |
Simulation |
Costs, welfare, carbon emissions, fuel mixes |
Stochastic |
Excel / VBA |
DIETER |
DIW Berlin |
true |
false |
MIT license (MIT) |
|
Optimization |
true |
dispatch investment |
Initial version: greenfield, loosely calibrated to Germany; central European version also available |
Optimization |
Cost minimization |
- (work in progress) |
GAMS; CPLEX |
Demod |
EPFL |
true |
false |
GNU General Public License version 3.0 (GPL-3.0) |
|
Simulation |
true |
|
Germany, UK |
Simulation |
Assess domestic energy demand evolution and demand-side-management scenarios |
Not yet implemented |
Python |
Dispa-SET |
European Commission, Joint Research Centre |
true |
false |
European Union Public Licence Version 1.1 (EUPL-1.1) |
net transfer capacities |
EU power system |
true |
dispatch |
Currently, 7 EU countries |
Optimization |
Minimization of operational costs |
Through proper sizing of reserve needs |
Python (Pyomo), GAMS |
DynPP |
University of Rostock |
false |
false |
|
net transfer capacities |
Specific Power Plants |
false |
investment |
Specific plants |
Optimization Simulation |
operation, cost, emissions, thermal stress |
Deterministic |
Modelica, Dymola, (OpenModelica), C++, MySQL, SQLite |
EA-PSM Electric Arc Flash |
JSC Energy Advice |
false |
false |
|
transmission distribution AC load flow DC load flow |
|
false |
|
Global, European Union, Lithuania, Turkey, Poland, India |
Optimization Simulation |
|
|
Java |
EA-PSM Electric Short Circuit |
JSC Energy Advice |
false |
false |
|
transmission distribution AC load flow DC load flow |
|
false |
|
Global, European Union, Lithuania, Turkey, Poland, India |
Optimization Simulation |
|
|
Java |
ELMOD |
Technische Universität Berlin |
true |
true |
MIT license (MIT) |
transmission DC load flow |
German and European Electricity Market |
true |
dispatch |
Germany, Europe |
Optimization |
|
|
GAMS |
ELTRAMOD |
Technische Universität Dresden (ee2) |
false |
true |
|
transmission net transfer capacities |
German and European Electricity Market |
false |
dispatch investment |
EU-27 + Norway + Switzerland + United Kingdom + Balkan countries |
Optimization |
Minimization of total system costs |
Deterministic; Perfect foresight; Sensitivity analysis ; |
GAMS; CPLEX |
EMLab-Generation |
Delft University of Technology |
true |
true |
Apache License 2.0 (Apache-2.0) |
net transfer capacities |
Agent-based Simulation |
true |
dispatch investment |
Central Western Europe |
Simulation Agent-based |
|
Limited foresight, optional risk aversion |
Java |
EMMA |
Neon Neue Energieökonomik GmbH |
true |
true |
Creative Commons Attribution 3.0 (CC-BY-3.0) |
net transfer capacities |
Power market model |
true |
dispatch investment |
France, Poland, Belgium, The Netherlands, Germany, Sweden, Norway |
Optimization |
Total system cost |
Sensitivities (many) |
GAMS |
EOLES elec |
CIRED |
true |
false |
Creative Commons Attribution Share-Alike 4.0 (CC-BY-SA-4.0) |
transmission |
Electricity System Model |
true |
dispatch investment |
|
Optimization Simulation |
investment cost and operational costs (fixed and variable) minimization |
Deterministic; Perfect foresight; Sensitivity analysis ; |
GAMS |
EOLES elecRES |
CIRED |
true |
false |
Creative Commons Attribution Share-Alike 4.0 (CC-BY-SA-4.0) |
transmission |
Electricity System Model |
true |
dispatch investment |
|
Optimization Simulation |
investment cost and operational costs (fixed and variable) minimization |
Deterministic; Perfect foresight; Sensitivity analysis ; Robust decision making |
GAMS |
ESO-X |
Imperial College London |
true |
false |
MIT license (MIT) |
|
power system model |
true |
dispatch investment |
UK |
Optimization |
minimise total system cost |
scenario analysis |
GAMS; CPLEX |
Energy Policy Simulator |
Energy Innovation, LLC |
true |
false |
GNU General Public License version 3.0 (GPL-3.0) |
|
System Dynamics |
true |
dispatch investment |
|
Simulation |
|
Monte carlo |
Vensim |
Energy Transition Model |
Quintel Intelligence |
true |
true |
MIT license (MIT) |
transmission distribution net transfer capacities |
Demand driven energy model |
true |
dispatch |
EU27, The Netherlands, UK, Poland, France, Germany, Spain, Brazil |
Simulation |
Given demand and other choices, calculate primary energy use, costs, CO2-emission etc. |
The user can assess the impact of almost every input variable and assumption |
Developed in-house written in Ruby (on Rails) |
EnergyNumbers-Balancing |
UCL Energy Institute |
false |
false |
|
|
Simulating storage and exogenously-variable renewables |
false |
dispatch |
Britain, Germany, Spain |
Simulation |
|
Deterministic |
Fortran, PHP, Javascript, HTML, CSS |
EnergyRt |
|
true |
true |
Affero General Public License v3 (AGPL-3.0) |
|
Reference Energy System |
true |
|
|
Optimization |
costs |
perfect foresight |
GAMS; GLPK |