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DIgSILENT GridCode:

LVRT in Spain with

DIgSILENT GridCode

DIgSILENT Ibérica Madrid, 15 February 2012

DIgSILENT Ibérica S.L. 2

Spanish Study Case

Grid Code in Spain, published by the TSO Red Eléctrica de España:

“PROCEDIMIENTO DE OPERACIÓN 12.3: REQUISITOS DE RESPUESTA FRENTE A HUECOS DE TENSIÓN DE LAS INSTALACIONES EÓLICAS”

In revision:

“PROCEDIMIENTO DE OPERACIÓN 12.2: INSTALACIONES CONECTADAS A LA RED DE TRANSPORTE: REQUISITOS MÍNIMOS DE DISEÑO, EQUIPAMIENTO, FUNCIONAMIENTO Y SEGURIDAD Y PUESTA EN SERVICIO”

The document can be found at the website:

http://www.ree.es/operacion/procedimientos_operacion.asp

New version Nr 10 of the Spanish Wind Energy Association document (PVVC_v10) is published in response to the revision of the Spanish Grid Code (P.O.12.3 and draft version of P.O.12.2):

“PROCEDIMIENTOS DE VERIFICACIÓN, VALIDACIÓN Y CERTIFICACIÓN DE LOS REQUISITOS DEL P.O.12.3 SOBRE LA RESPUESTA DE LAS INSTALACIONES EÓLICAS Y FOTOVOLTAICAS ANTE HUECOS DE TENSIÓN”

The document can be found at the website:

http://www.aeeolica.org/


http://www.ree.es/operacion/procedimientos_operacion.asp







Example of Dynamic Simulation Testing Procedure


STEP 1: Building the Wind farm dynamic model in DIgSILENT PowerFactory 14.1.2

NOTE: this example is built using templates in the global library;

Doubly Fed Induction Generators rated 6MW DFIG_WTG_6MW

Wind Farm Rated Power: 60MVA

Wind Farm Rated Voltage: 220kV



STEP 2: Simulation of LVRT events according to the Spanish Grid Code:

EMT simulation - 10kHz time step

Voltage dip location: at the Wind Farm PCC, 220kV side

Voltage dip depth: 20% (3PH), 60% (2PH)

Voltage dip length: 500ms



STEP 3: Export required signals from Plots in PowerFactory:

Ua(t), Ub(t), Uc(t) kV

Ia(t), Ib(t), Ic(t) kA

Textfile, white space/tab separated format

Voltage dip 60% (2PH) Voltage dip 20% (3PH)



STEP 4: Analysis with DIgSILENT GridCode, checking for compliance.

STEP 4.1: File Types & Channels to read the results file.



STEP 4: Analysis with DIgSILENT GridCode, checking for compliance.


STEP 4.2: Input of base values 60MVA and 220kV



STEP 4: Analysis with DIgSILENT GridCode, checking for Grid Code compliance.



STEP 4.3: With the GridCode Editor, add the new procedure in the Spanish Grid Code (PVVC_v10_general).







- Add the zones and edit them. Add the list of limits for the different series.







- Edit the voltage dip shape for balanced dips.







- Edit the voltage dip shape for unbalanced dips.







- Edit the voltage support requirements.







- Define the plots that you want display.

- Select “Checked” option to display it.

- Save the Grid Code.







STEP 4.4: Click Analyze



RESULTS

In the second tab, a table summarizes the fulfillment of requirements in Zones A, B, C and D.

THE “OK?” OPTION ACTIVATED MEANS THAT THE REQUIREMENT IS FULFILLED



RESULTS

The “REE Voltage Dip Shape” graph allows to check if the voltage dip is “inside” the voltage dip rms envelope the wind farm can not disconnect and must provide reactive current support.




RESULTS

The “Ir/Itot(Vrms) Zone B” graph allows to check if the wind farm is injecting or consuming reactive power and fulfilling the requirements established by REE on the reactive current during the dip.




RESULTS

The “Power” graph allows to check the restoration of active power of the wind farm after the voltage dip.




REPORTING

Results are reported in Word format.

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DIgSILENT GridCode Contact

Ana Morales/Xavier Robe

DIgSILENT Ibérica S.L.

Ribera del Loira, 46

28042 Madrid – Spain

Phone: +34 911273723/24

Email:

[email protected]

[email protected]

Website:

www.digsilent.com

mailto:[email protected]

mailto:[email protected]

http://www.digsilent.com/

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