electrical earthing
DESCRIPTION
Take an better idea about what is electrical earthing.....TRANSCRIPT
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Electrical Earthing
D.K.Pathirana
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Applications of earthing
• Protect human against lightning and earth fault condition
• Protect the premises against lightning and earth fault condition
• Provide low resistance and safe path for lightning and fault current
• All metallic enclosure and extraneous conductive parts are at equipotential
• LV System Earth
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Functions of Earthing Equipment Earth : Path for fault current, lower touch voltage,
protection against electric shock
Lighting Earth : Low resistance path to diverse the current under lightning attack.
Telecom Earth : Signal Earth, reduce noise and interference, stabilize DC supply voltage and prevent electric shock
Computer Earth : reduce interference, maintain supply voltages
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Two classes of protection
Class I protection – use of barrier/insulation and connection of protective
conductor to equipment metallic enclosure in order to protect against electric shock
Class II protection – beside of the basic insulation, addition layer of insulation
apply to the enclosure. Therefore no extraneous conductive part. The additional layer is independent to the basic insulation so that under failure of basic insulation, it offers additional protection
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Types of Earthing
• Supply System – Neutral Earth• System Earth• Electrical Safety Earth• Lightning Earth• Generator Earth• Protection Earth (i.e. surge arrestor)• Telecom / Computer Earth• Shielding Earth• Integrated Earthing System (Advocated)• Electrostatic Earth (Clean Room / Hospital)
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Earthing Arrangements
• TN System• TNS System• TN C S System• TN C system• TT System• IT System
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TN-S System
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TN-C System
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TN-C-S System
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TT System
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IT System
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Factors affect to the earth impedance
• Soil• Weather• Electrode type• Electrode size• Near by utilities• Electrode in parallel• Distance between electrode
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Soil Resistivity
• The resistivity of earth may vary over extremely wide limits, depending on the composition of the soil and the moisture content.
Factors that affect resistivity • Type of earth (eg, clay, loam, sandstone, granite) • Stratification; layers of different types of soil (eg, loam backfill
on a clay base) • Moisture content • Temperature • Chemical composition and concentration of dissolved salt
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WENNER method
ρw = 2 π d RS-ES
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SCHLUMBERGER method
ρs = ( π (d2 – A2/4) RS-ES ) / A
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Types Of Earth Electrodes
• Solid Copper
• Copper clad steel rod ( copper shrunk onto the core)
• Copper Bonded steel core (coper is molecularly bonded to nickel plated steel rod)
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Earth Resistance Of An Electrode
• soil exhibits a resistance to the flow an electrical current
• not an “ideal” conductor • resistance (can never be zero) between the
earth electrode and “true Earth”. • The resistance between the earth electrode
and “true Earth”
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Rods Driven Vertically Into The Ground
Rg = (𝞺/2𝞹L)[ln(8L/d)-1] where, ρ - Soil Resistivity in Ωm L - Buried Length of the electrode in m d - Diameter of the electrode in m
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Combined Resistance Of n No Of Electrodes
In which
Where R=resistance of one rod ΩS = distance between adjacent rods m ρ = resistivity of soil Ω-m λ =is a factor selected from Table 2 or 3 of BS 7430‘n is the no of electrodes as given in Tables 2 and3
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Resistance Of A Vertical Electrode With Infill Of Bentonite Or Concrete
Where,𝞺c – resistivity of the infill materiald – diameter of electrode in mD – diameter of infillL – driven length of electrode
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Where , L – length of the strip ‘h - the depth buried w - width of the stripP and Q are coefficient for strip or round
conductor in Table 5
Approximate Resistance for a Strip or a round conductor
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Questions
?
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Thank You