OpenIPSL.Examples.RaPIdExperiments.Generator_Aggregation

Example systems used in generator aggregation experiment

Information

This subpackage contains the models used in a generator aggregation experiment. The two models can be simulated and their results can be compared in order to validate the performed aggregation experiment.

Package Content

Name Description
OpenIPSL.Examples.RaPIdExperiments.Generator_Aggregation.Reference_system Reference_system Original test system for machine aggregation using RaPId
OpenIPSL.Examples.RaPIdExperiments.Generator_Aggregation.Aggregated_system Aggregated_system Test system with an aggregated machine, obtained using RaPId

OpenIPSL.Examples.RaPIdExperiments.Generator_Aggregation.Reference_system OpenIPSL.Examples.RaPIdExperiments.Generator_Aggregation.Reference_system

Original test system for machine aggregation using RaPId

Information

This is a Three-Machine system containing disturbances on the excitation system of the generator connected to bus GEN1. These disturbances allow the user to observe dominant dynamics that need to be preserved when the generators conncted at bus GEN2 are aggregated into one machine.

Simulate the system for 20 seconds. Variables of interest are:

In addition, also plot the following variables:

Compare the results obtained in this simulation with the ones obtained in Aggregated_system.

Extends from Modelica.Icons.Example (Icon for runnable examples).

OpenIPSL.Examples.RaPIdExperiments.Generator_Aggregation.Aggregated_system OpenIPSL.Examples.RaPIdExperiments.Generator_Aggregation.Aggregated_system

Test system with an aggregated machine, obtained using RaPId

Information

This is a Two-Machine system resulting from the aggregation of both generators connected to bus GEN2.

Simulate the system for 20 seconds. Variables of interest are:

In addition, also plot the following variables:

Compare the results obtained in this simulation with the ones obtained in Reference_system.

Extends from Modelica.Icons.Example (Icon for runnable examples).

Automatically generated Mon Oct 10 14:35:55 2022.