OpenIPSL.Tests.Renewable.PSSE

Information

Extends from Modelica.Icons.ExamplesPackage (Icon for packages containing runnable examples).

Package Content

Name	Description
BESSPlant	BESS source in a SMIB system to test functionality of REPCA plant controller model
PVPlant	PV source in a SMIB system to test functionality of REPCA plant controller model
PVPlantSolarIrradiance	PV source in a SMIB system to test functionality of Irradiance to Power Add on
WindPlant	Wind source in a SMIB system to test functionality of REECCA electrical controller model

OpenIPSL.Tests.Renewable.PSSE.BESSPlant

BESS source in a SMIB system to test functionality of REPCA plant controller model

Information

Simulate for 5 seconds.

This test system aims to show how to use the renewable BESS plant component in all the possible control options. The model was developed following the modeling template from the WECC BESS Power Plant Dynamic Modeling Guide and PSSE manuals.

There are a total of eight reactive power control options (Constant local PF control, Constant local Q control, Local V control, Local coordinated V/Q control, Plant level Q control, Plant level V control, Plant level Q control + local coordinated V/Q control, Plant level V control + local coordinated V/Q control), 2 active power options (No governor response, Governor response with up and down regulation).

Variables of interest:

• bESS.RenewableGenerator.Pgen
• bESS.RenewableGenerator.Qgen
• GEN1.v
• FAULT.v
• GEN2.v

Extends from BaseClasses.SMIBRenewable (SMIB - Single Machine Infinite Base system with one load for renewable source validation.).

OpenIPSL.Tests.Renewable.PSSE.PVPlant

PV source in a SMIB system to test functionality of REPCA plant controller model

Information

Simulate for 5 seconds.

This test system aims to show how to use the renewable PV plant component in all the possible control options. The model was developed following the modeling template from the WECC PV Power Plant Dynamic Modeling Guide and PSSE manuals.

There are a total of eight reactive power control options (Constant local PF control, Constant local Q control, Local V control, Local coordinated V/Q control, Plant level Q control, Plant level V control, Plant level Q control + local coordinated V/Q control, Plant level V control + local coordinated V/Q control), 2 active power options (No governor response, Governor response with up and down regulation).

Variables of interest:

• pV.RenewableGenerator.Pgen
• pV.RenewableGenerator.Qgen
• GEN1.v
• FAULT.v
• GEN2.v

Extends from BaseClasses.SMIBRenewable (SMIB - Single Machine Infinite Base system with one load for renewable source validation.).

Parameters

OpenIPSL.Tests.Renewable.PSSE.PVPlantSolarIrradiance

PV source in a SMIB system to test functionality of Irradiance to Power Add on

Information

Simulate for 5 seconds.

This test system aims to show how to use IrradianceToPower block, an Add-On component that enables varying active power reference in the PV model based on irradiance levels. This capability is not found in the original version of the WECC-based renewable models.

Variables of interest:

• pV.RenewableGenerator.Pgen
• pV.RenewableGenerator.Qgen
• irradianceToPower.Ppv

Extends from BaseClasses.SMIBAddOn (SMIB - Single Machine Infinite Base system with one load for renewable source validation.).

Parameters

OpenIPSL.Tests.Renewable.PSSE.WindPlant

Wind source in a SMIB system to test functionality of REECCA electrical controller model

Information

Simulate for 5 seconds.

This test system aims to show how to use the renewable Wind plant component in all the possible control options. The model was developed following the modeling template from the WECC PV Power Plant Dynamic Modeling Guide and PSSE manuals.

There are a total of eight reactive power control options (Constant local PF control, Constant local Q control, Local V control, Local coordinated V/Q control, Plant level Q control, Plant level V control, Plant level Q control + local coordinated V/Q control, Plant level V control + local coordinated V/Q control), 2 active power options (No governor response, Governor response with up and down regulation). The user can also simulate the torsional oscillation in the wind turbine drive train (Do not emulate torsional oscillation, Emulated torsional oscillation in power output).

Variables of interest:

• wind.RenewableGenerator.Pgen
• wind.RenewableGenerator.Qgen
• GEN1.v
• FAULT.v
• GEN2.v

Extends from BaseClasses.SMIBRenewable (SMIB - Single Machine Infinite Base system with one load for renewable source validation.).