Calculate Numbers of Plate/Pipe/Strip Earthings (Part-1)

Calculate Numbers of Plate/Pipe/Strip Earthings
(Part-1)
Introduction:
 Number of Earthing Electrode and Earthing Resistance depends on the resistivity of soil and time for fault
Current to pass through (1 sec or 3 sec). If we divide the area for earthing required by the area of one earth plate
gives the no of Earth pits required.
 There is no general rule to calculate the exact no of earth Pits and Size of Earthing Strip, But discharging of
leakage current is certainly dependent on the cross section area of the material so for any equipment the earth
strip size is calculated on the current to be carried by that strip. First the leakage current to be carried is
calculated and then size of the strip is determined.
 For most of the Electrical equipments like Transformer, DG set etc., the General concept is to have 4 no
earth pits.2 no’s for body earthing With 2 separate strips with the pits shorted and 2 nos for Neutral with 2
separate strips with the pits shorted.
 The Size of Neutral Earthing Strip should be Capable to carry neutral current of that equipment.
 The Size of Body Earthing should be capable to carry half of neutral Current.
 For example for 100kVA transformer, the full load Current is around 140A.The strip connected should be
Capable to carry at least 70A (neutral current) which means a Strip of GI 25x3mm should be enough to carry the
current And for body a strip of 25×3 will do the needful.
 Normally we consider the strip size that is generally used as Standards. However a strip with lesser size
which can carry a current of 35A can be used for body earthing. The reason for using 2 earth pits for each body
and neutral and then shorting them is to serve as back up. If one strip gets Corroded and cuts the continuity is
broken and the other Leakage current flows through the other run thery by completing the circuit. Similarly for
panels the no of pits should be 2 nos. The size can be decided on the main incomer Breaker.
 For example if main incomer to breaker is 400A, then Body earthing for panel can have a strip size of 25×6
mm Which can easily carry 100A.
 Number of earth pits is decided by considering the total Fault current to be dissipated to the ground
in case of Fault and the current that can be dissipated by each earth Pit.
 Normally the density of current for GI strip can be roughly 200 amps per square cam. Based on the length
and dia of the Pipe used the Number of Earthing Pits can be finalized.
Calculate Numbers of Pipe Earthing:

(A) Earthing Resistance & No of Rod for Isolated Earth Pit (Without Buried Earthing
Strip):
 The Earth Resistance of Single Rod or Pipe electrode is calculated as per BS 7430:
 R=ρ/2×3.14xL (loge (8xL/d)-1)
 Where ρ=Resistivity of Soil (Ω Meter),
 L=Length of Electrode (Meter),
 D=Diameter of Electrode (Meter)
 Example:
 Calculate Isolated Earthing Rod Resistance. The Earthing Rod is 4 Meter Long and having 12.2mm
Diameter, Soil Resistivity 500 Ω Meter.
 R=500/ (2×3.14×4) x (Loge (8×4/0.0125)-1) =156.19 Ω.
 The Earth Resistance of Single Rod or Pipe electrode is calculated as per IS 3040:
 R=100xρ/2×3.14xL (loge(4xL/d))
 Where ρ=Resistivity of Soil (Ω Meter),
 L=Length of Electrode (cm),
 D=Diameter of Electrode (cm)
 Example:
 Calculate Number of CI Earthing Pipe of 100mm diameter, 3 Meter length. System has Fault current 50KA
for 1 Sec and Soil Resistivity is 72.44 Ω-Meters.
 Current Density At The Surface of Earth Electrode (As per IS 3043):
 Max. Allowable Current Density I = 7.57×1000/(√ρxt) A/m2
 Max. Allowable Current Density = 7.57×1000/(√72.44X1)=889.419 A/m2
 Surface area of one 100mm dia. 3 meter Pipe= 2 x 3.14 x r x L=2 x 3.14 x 0.05 x3 = 0.942 m2
 Max. current dissipated by one Earthing Pipe = Current Density x Surface area of electrode
 Max. current dissipated by one Earthing Pipe = 889.419x 0.942 = 837.83 A say 838 Amps
 Number of Earthing Pipe required =Fault Current / Max.current dissipated by one Earthing Pipe.
 Number of Earthing Pipe required= 50000/838 =59.66 Say 60 No’s.
 Total Number of Earthing Pipe required = 60 No’s.
 Resistance of Earthing Pipe (Isolated) R=100xρ/2×3.14xLx(loge (4XL/d))
 Resistance of Earthing Pipe (Isolated) R=100×72.44/2×3.14x300x(loge (4X300/10))=7.99 Ω/Pipe
 Overall resistance of 60 No of Earthing Pipe=7.99/60=0.133 Ω.
(B) Earthing Resistance & No of Rod for Isolated Earth Pit (With Buried Earthing Strip):
 Resistance of Earth Strip(R) As per IS 3043
 R=ρ/2×3.14xLx (loge (2xLxL/wt)).
 Example:
 Calculate GI Strip having width of 12mm , length of 2200 Meter buried in ground at depth of 200mm,Soil
Resistivity is 72.44 Ω-Meter
 Resistance of Earth Strip(Re)=72.44/2×3.14x2200x(loge (2x2200x2200/.2x.012))= 0.050 Ω
 From above Calculation Overall resistance of 60 No of Earthing Pipe (Rp) = 0.133 Ω. And it connected to
bury Earthing Strip. Here Net Earthing Resistance =(RpxRe)/(Rp+Re)
 Net Earthing Resistance= =(0.133×0.05)/(0.133+0.05)= 0.036 Ω
(C) Total Earthing Resistance & No of Electrode for Group of Electrode (Parallel):
 In cases where a single electrode is not sufficient to provide the desired earth resistance, more than one
electrode shall be used. The separation of the electrodes shall be about 4 M.
 The combined resistance of parallel electrodes is a complex function of several factors, such as the number
and configuration of electrode the array.
 The Total Resistance of Group of Electrode in different configurations as per BS 7430:
 Ra=R (1+λa/n) Where a= ρ/2X3.14XRXS
 Where S= Distance between adjustment Rod (Meter),
 λ =Factor Given in Table,
 n= Number of Electrode,
 ρ=Resistivity of Soil (Ω Meter),
 R=Resistance of Single Rod in Isolation (Ω)
Factors for parallel electrodes in line (BS 7430)
Number of electrodes (n) Factor (λ)
2 1.0
3 1.66
4 2.15
5 2.54
6 2.87
7 3.15
8 3.39
9 3.61
10 3.8
 For electrodes equally spaced around a hollow square, e.g. around the perimeter of a building, the
equations given above are used with a value of λ taken from following Table.
 For three rods placed in an equilateral triangle, or in an L formation, a value of λ = 1.66 may be assumed.
Factors for electrodes in a hollow square (BS 7430)
Number of electrodes (n) Factor (λ)

2 2.71
3 4.51
4 5.48
5 6.13
6 6.63
7 7.03
8 7.36
9 7.65
10 7.9
12 8.3
14 8.6
16 8.9
18 9.2
20 9.4
 For Hollow Square Total Number of Electrode (N) = (4n-1).
 The rule of thumb is that rods in parallel should be spaced at least twice their length to utilize the full benefit
of the additional rods.
 If the separation of the electrodes is much larger than their lengths and only a few electrodes are in parallel,
then the resultant earth resistance can be calculated using the ordinary equation for resistances in parallel.
 In practice, the effective earth resistance will usually be higher than Calculation. Typically, a 4 spike array
may provide an improvement 2.5 to 3 times. An 8 spike array will typically give an improvement of maybe 5 to 6
times.
 The Resistance of Original Earthing Rod will be lowered by Total of 40% for Second Rod, 60% for third
Rod,66% for forth Rod
 Example:
 Calculate Total Earthing Rod Resistance of 200 Number arranges in Parallel having 4 Meter Space of each
and if it connects in Hollow Square arrangement. The Earthing Rod is 4 Meter Long and having 12.2mm
Diameter, Soil Resistivity 500 Ω.
 First Calculate Single Earthing Rod Resistance
 R=500/ (2×3.14×4) x (Loge (8×4/0.0125)-1) =136.23 Ω.
 Now Calculate Total Resistance of Earthing Rod of 200 Number in Parallel condition.
 a=500/(2×3.14x136x4)=0.146
 Ra (Parallel in Line) =136.23x (1+10×0.146/200) =1.67 Ω.
 If Earthing Rod is connected in Hollow Square than Rod in Each side of Square is 200=(4n-1) so n=49 No.
 Ra (In Hollow Square) =136.23x (1+9.4×0.146/200) =1.61 Ω.

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Number of electrodes (n) Factor (λ)

Number of electrodes (n) Factor (λ)

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