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Cable Calculation

This document summarizes cable sizing calculations for both low voltage (LV) and medium voltage (MV) cables. For the LV 150mm2 cable, voltage drop is calculated to be 3.25% which meets requirements. Fault rating and current capacity calculations show the proposed 150mm2 MV cable is suitable. Total power losses are calculated for various cable segments and equipment, summing to 233.97kW or 2.36% of the total power handled.

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mohd hazim
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538 views4 pages

Cable Calculation

This document summarizes cable sizing calculations for both low voltage (LV) and medium voltage (MV) cables. For the LV 150mm2 cable, voltage drop is calculated to be 3.25% which meets requirements. Fault rating and current capacity calculations show the proposed 150mm2 MV cable is suitable. Total power losses are calculated for various cable segments and equipment, summing to 233.97kW or 2.36% of the total power handled.

Uploaded by

mohd hazim
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
Available Formats
Download as XLSX, PDF, TXT or read online on Scribd
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Cable Sizing for LV Cable (800V)

Cable type proposed :-


1) Multicore
2) Unarmoured
3) Aluminium
Cable laying method proposed :-
1) laid in duct
2) Laying depth of 500mm

(A) Current Carrying Capacity

Calculation parameters are based on Universal Cable Catalogue


Using formula Iz = Io k1 k2 k3
k1= 0.89 (Ambient ground temperature : 30°C)
k2= 0.78 (group rating factor : max. 5 cables with spacing of 300mm)
k3= 0.76 (Soil thermal resistivity : 2.5 Km/W)

k=k1 x k2 x k3
k= 0.528
Ib= 162.380 A (max. current)

Ib'=Ib / k
Ib'= 307.775 A

Io= 311.000 A (150 mm²)


Iz= 164.08111 A (150 mm²)
Iz > Ib, suitable size is 150 mm²

(B) Voltage Drop

Calculation based on IEC60364-5-52

 L  u
u  b 1 cos   L sin   I B u   100%
 S  U0
where
u = voltage drop
U0 = voltage between line and neutral, i.e. phase voltage [V]

b= 1
L= 385 m (longest cable measured)
Ib= 162.38 A (max. current @ 40°C)
S= 150 mm²
λ= 0.08 mΩ/m
ρ= 0.036 Ωmm²/m
cos ø= 0.8
sin ø= 0.6

% of VD = 3.25 %

As a conclusion, the 150 mm2 cable shall be used.


Cable Sizing for MV Cable (33kV)

Cable type proposed :-


1) Multicore
2) Armoured
3) Aluminium
Cable laying method proposed :-
1) laid in duct
2) Laying depth of 800mm

(A) Fault Rating

According to PSS, the fault level at REMV is 11.63 kA


Using formular k²S² = I²t
k= 94
I= 11.63 kA
t= 1 S
So, S= 123.72 mm²
Thus, suitable size is 150 mm²

(B) Current Carrying Capacity

Calculation parameters are based on Universal Cable Catalogue


Using formula Iz = Io k1 k2 k3
k1= 0.89 (Ambient ground temperature : 30°C)
k2= 1 (group rating factor : no mix other cable)
k3= 0.76 (Soil thermal resistivity : 2.5 Km/W)

k=k1 x k2 x k3
k= 0.676
Ib= 162.380 A (max. current)

Ib'=Ib / k
Ib'= 240.065 A

Io= 260.000 A (120 mm²)


Iz= 175.864 A (120 mm²)
Iz > Ib

As a conclusion, the 150 mm2 cable shall be used.


Power Losses Calculation

Cable type proposed :-


1) Multicore
2) Armoured
3) Aluminium
Cable laying method proposed :-
1) laid in duct
2) Laying depth of 800mm

(A) 33kV GIS to TNB

Cable Size : 630 mm²

According to PSS, the cable loss is 36.316 kW

(B) 33kV GIS to MV Station No.1

Cable Size : 150 mm²

Calculation parameters are based on Universal Cable Catalogue


Using formula power loss = I²R
I= 366.5329 A (max. current)
R= 0.101 ohm/km
L= 0.1 km
So, power loss= 1.36 kW

(C) MV Station No.1 to MV Station No.2

Cable Size : 150 mm²

Calculation parameters are based on Universal Cable Catalogue


Using formula power loss = I²R
I= 108.25318 A (max. current)
R= 0.101 ohm/km
L= 0.36 km
So, power loss= 0.43 kW

(D) 50 nos. inverters to MV stations LV MCCB

Cable Size : 150 mm²


Cable length : 200m (average)

Calculation parameters are based on Universal Cable Catalogue


Using formula power loss = I²R
I= 162.37976 0
R= 0.265 ohm/km
L= 0.2 km
So, power loss= 1.40 kW
Thus, total loss= 69.87 kW

(E) Transformer Power Loss

Transformer size : 6300 kVA


Transformer Qty : 2 lot
Assume 1% loss : 126 kW

(F) DC Loss

Total Power Loss = 233.97 kW

% of Power Loss = 2.36 %

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