Transformer Differential Protection Calculations SEL 787
Setting Calculations of132/12kV and 20/26 MVA Power Transformer, , Electrical Power Engineering
Ratings 4.28 / 5.00
What You Will Learn!
- Understand Data Required for calculations.
- Calculate Full Load HV and LV
- What is percentage impedance and it's relation with the fault MVA
- How to calculate short circuit MVA, short circuit current at HV & LV sides
- Effect of percentage impedance over fault current
- Tap position impact over HV current and differential current
- Pick up current calculations.
- Differential current due to tap changer
- Ratio and phase angle compensation
- Slope 1 & Slope 2 Calculations
- Harmonics blocking calculations.
- Un-Restrain Trip settings
Description
Dear All,
Protection Element Setting:
Functional Scope:
The SEL-787 has three differential elements (87R-1, 87R-2, and 87R-3).These elements employ
Operate (IOP) and Restraint (IRT) quantities that therelay calculates from the winding input currents.
Figure shows the relay characteristic. You can set the characteristic as either a single-slope, percentage differential characteristic or as a dual-slope, variable-percentage differential characteristic. Tripping occurs if the Operate quantity is greater than the curve value for the particular restraint quantity.
A minimum pick up level for the Operate quantity must also be satisfied.
The four settings that define the characteristic are:
O87P = minimum IOP level required for operation
SLP1 = initial slope, beginning at the origin and intersecting O87P at
IRT = O87P • 100/SLP1
IRS1 = limit of IRT for SLP1 operation; intersection where SLP2 begins
SLP2 = second slope must be greater than or equal to SLP1
The relay (SEL-787) use the transformer MVA rating as a common reference point, TAP scaling converts all secondary currents entering the relay from the two windings to per unit values, thus changing the ampere values
into dimensionless multiples of TAP. Throughout the text, the term “TAP” refers to the per-unit value common to
both windings. This method ensures that, for full-load through-current conditions, all incoming current multiples of
tap sum to 1.0 and all outgoing current multiples of tap sum to –1.0, with a reference direction into the transformer windings.
In this course, we will perform the setting calculation of 26MVA transformer with following data:
Type of cooling : ONAN / ONAF
Vector Group : Dyn11
Rated Voltage HV V : 132000
Rated Voltage LV V : 12000
Full Load current HV A : 87.48 / 113.72
Full Load current LV A : 1004.12 / 1305.35
Rated Power MVA : 20 / 26
% impedance at normal tap (12 no.) : 15.35% / 19.95 %
Type of tap changer : On load
Voltage at maximum tap V : 151800
Voltage at minimum tap V : 112200
Further we will calculate:
Protection Settings Calculations for Power Transformers
Full load amperes
Short circuit MVA
Short circuit current at HV & LV sides
relationship between short circuit MVA and percentage impedance of transformer
Magnitude and phase angle error and its compensation
CT error and its compensation
Operating and restraining currents
Pickup current calculations
TAPN calculations
Phase angle compensation settings
Slope 1 & 2 calculations
Harmonics blocking calculations.
Best Regards
Who Should Attend!
- Any one eager to learn
