Filetype Power Point PPTX | Posted on 06 Sep 2022 | 3 years ago
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Requirements for Wind Farms (WFs) Grid connection
Frequency and Voltage Operation Boundaries
• All WTGs should stay connected within the boundary 47.0 - 51.5 Hz
• All WTGs should disconnect with no delay for system frequency < 47Hz
• The disconnection of WTGs for system frequency > 51.5Hz takes place in 4 steps, with a 0.5sec
delay between each step
• In each step, 25% of the operating WTGs is disconnected
• Applicable to all WFs
2
Requirements for Wind Farms (WFs) Grid connection
Active/Reactive Power Boundaries
Upper diagram : Q-V curve
• Within the no-striped area (PF> 0.95) the WF
should operate at it’s nominal capacity
• Within the striped area (0.835 10
MW
Requirements for Wind Farms (WFs) Grid connection
Voltage/Reactive Power Control
• Upon TSO’s request, the WF should operate in
voltage, reactive power or PF control mode
– Voltage regulation is applied at system connection point
(HV/150kV), reactive power and power factor regulation is
applied at the MV (20kV) side of WF step up transformer
• The WF should be equipped with
voltage/reactive power regulator according a HV
Q–V characteristic
– The slope and the reference value Vset (zero reactive power
injection at the MV (20kV) side of WF step up transformer are
defined by the TSO
• The desired value of the controlled quantity
should be implemented within 30sec after signal
receiving
• speed of regulation response :
– in a voltage step change at the connection point (or a
step change of reactive power or power factor
reference value) the reactive power of the WF should
reach 90% of the steady state value in less than 1s
• Applicable to WFs with installed capacity > 10
MW
Requirements for Wind Farms (WFs) Grid connection
Load-Frequency control
• At TSO’s command, the WF should
change the active power ramp up/down
rate (±MW/min)
– Min and max limits of ramp up/down rates are set
by the TSO
– Active power measurement applies at the MV
(20kV) side of WF step up (150/20) transformer
• The WF should be equipped with a load-
frequency controller (characteristic f-P)
– Frequency measurement precision ±10mHz
– Points Β and Γ define a dead zone within the WF
should operate with a constant percentage (%
P/Pmax) of the available active power
– Table values are defined by the TSO
• TSO’s command for reduction of the
production should be implemented
within 60s after signal receiving
• Applicable to WFs with installed capacity
> 10 MW
Requirements for Wind Farms (WFs) Grid connection
Low Voltage Ride Through capability
• Applicable to all WTGs, voltage is measured at the
HV connection point
• Disconnection is allowed in area 1
– Reconnection after fault clearance, within 2sec, with a rate
10-20% Pmax/sec
• Disconnection is allowed in area 2
– Disconnection in 4 steps, with 0.3sec delay between each
step, shed 25% of WFs WTGS at each step
– Reconnection when the voltage at the connection point (HV)
is greater than 142,5kV or 380 kV
• After fault clearance, WTGs not disconnected
should increase their production with a rate of 10-
20% Pmax/sec
• Reactive current control
– WTG nominal values Ηare the reference values
– For a ±10% Vnom voltage change, the control is activated
within 20msec after fault detection
– Provision of reactive current ± 2% Ιnom for each ±1% ΔVnom
– For voltage sags 50% Vnom , provision of reactive current
+100 % Ιnom within 70 msec after fault detection
– Provision of reactive current applies for 500 msec after
voltage recovery within ±10% Vnom band
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