This is the first Article in Course " GR-1: Inspect ground Grids, Rods, and Fence grounds ".
1- Introduction
Every Building, equipment, power plants, substations and/or facilities included in Electrical Utility System that use electricity require earth grounding, either directly or through a grounding system. (see fig.1)
Fig (1) |
Definition:
The Earthing
System:
sometimes simply called ‘earthing’, is the total set of measures used to
connect an electrically conductive part to earth. The earthing system is an
essential part of power networks at both high- and low-voltage levels.
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Functions
of Earthing Systems
A good earthing system is
required for:
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Earting
Main Divisions
The earthing is broadly divided
as:
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Rule of
Electrical Inspector in Inspecting Earthing System
As an electrical inspector, you
must verify correct grounding system installation and operation by doing the
following:
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The need for Testing Earthing
Systems
Test the ground system
resistance to provide the only concrete proof that the preliminary design
assumption is accurate and that the system is adequate and totally effective.
Measurements of ground
resistance or impedance and potential gradients on the surface of the earth
that are due to ground currents are necessary for the following reasons:
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A totally
effective Earthing system
A
grounding system to be totally effective, must satisfy the following
conditions:
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How
Earthing system works
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In any discussion of grounding, the question always asked is how in low resistance ground should be? The answer is by determining the lowest possible ground resistance, the lower the ground resistance, the safer the grounding.
2.1 Determining Ground Resistance
Every Building, substation, equipment operation, and facility that uses electrical power requires a grounding system for safe and proper operation.
Importance
of Ground Resistance
It is
essential that the grounding system be of the proper resistance to maintain
safety to personnel and equipment. And to verify this, you will perform the
following:
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Definition:
Ground Resistance: is the measure of resistance
between a grounded system in its entirety or in part, and the soil.
You do this by using the grid
electrode at the center of the grounded system and the earth at a determined
distance away from the system. Record all measurements in ohms (Ω).
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Note:
As an inspector, you must make
ground resistance measurements during electrical inspections to verify safe
operating limits of grounded systems and their components. The initial
measurements will often be of a complete system.
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Electrode
Ground Resistance Components
The resistance of a ground
electrode has 3 basic components:
1- The resistance of the ground
electrode itself and the connections to the electrode:
The resistance of the ground
electrode and it's connection is generally very low, ground rods are
generally made of highly conductive/ low resistance material such as copper
of copper clad.
2- The contact resistance of
the surrounding earth to the electrode:
The contact resistance of the
earth to the electrode: The Bureau of Standards has shown this resistance to
be almost negligible providing that the ground electrode is free from paint,
grease etc. and that the ground electrode is in firm contact with the earth.
3- The resistance of the
surrounding body of earth around the ground electrode:
The ground electrode is
surrounded by earth which is made up of concentric shells all having the same
thickness.
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Ground
Resistance Values
The ohmic values of ground
resistance objectives
vary from industry to industry as follows:
The goal
in ground resistance values is to achieve the lowest ground resistance value
possible that makes sense economically and physically.
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2.2 Soil Resistivity
As an electrical inspector, you should be familiar with soil resistance in order to make calculations for ground resistance layouts, when needed.
Definition:
Soil resistivity ρ
(specific earth resistance): is the resistance, measured between two
opposite faces, of a one-metre cube of earth. The earth resistivity is
expressed in Ωm.
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Factors
Affecting Soil Resistivity ρ
Soil resistivity depends on:
It stands to reason that soil
resistivity will vary throughout the year in those areas where seasonal
changes bring about a change in the moisture and temperature content of the
soil. For a grounding system to be effective it should be designed to
withstand the worst possible conditions.
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Note:
Where no information is
available about the value of ρ it is usually assumed ρ = 100 Ωm.
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In the next Article, I will explain How to Calculate the Ground Resistance. Please keep following.
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