Most multi circuit lines have two parallel operating circuits.
Parallel line applications
GUID-905ACED8-CD00-4651-90F1-96D1885BA856 v1
This type of networks is defined as those networks where the parallel transmission
lines terminate at common nodes at both ends.
The three most common operation modes are:
1. Parallel line in service.
2. Parallel line out of service and earthed.
3. Parallel line out of service and not earthed.
Parallel line in service
GUID-22E1A46C-92BD-4EE4-9A2D-9EFE2DB7B4D8 v3
This type of application is very common and applies to all normal sub-transmission
and transmission networks.
Let us analyze what happens when a fault occurs on the parallel line see figure
From symmetrical components, we can derive the impedance Z at the relay point
for normal lines without mutual coupling according to equation
Z
U
I
I
Z
Z
Z
U
I
I
K
ph
ph
ph
ph
N
=
+
⋅
−
⋅
=
+
⋅
3
3
3
0
0
1
1
0
IECEQUATION1275 V2 EN-US
(Equation 36)
Where:
Uph
is phase to earth voltage at the relay point
Iph
is phase current in the faulty phase
3I0
is earth fault current
Z1
is positive sequence impedance
Z0
is zero sequence impedance
Z
0m
A
B
Z<
Z<
IEC09000250_1_en.vsd
IEC09000250 V1 EN-US
Figure 55:
Class 1, parallel line in service
The equivalent circuit of the lines can be simplified, see figure
1MRK 505 393-UEN B
Section 7
Impedance protection
Line differential protection RED650 2.2 IEC
115
Application manual
Содержание RED650
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