1. What types of earth electrodes can be used?
An earthing system should be of high integrity and robust construction. The use of an Earthing system using earth electrodes relies on the resilience of the earth electrode(s) for the safe functioning of the protection system within an installation.
The types of earth electrode can vary. Regulation 542.2.2 of BS 7671 recognises seven permitted types of earth electrode, including earth rods or pipes, tapes or wires, earth plates and the like. The most commonly selected earth electrode is the rod.
2. When should earth electrodes be installed?
Earth electrodes are to be (or may need to be) installed for: TT and IT Earthing systems, earthed generator sets, to conform to Regulation 411.4.2, swimming pools having a PME earthing facility, agricultural premises, mobile or transportable units, EV charging installations, and prosuming installations.
3. What requirements are there for electrodes?
Where earth electrodes are installed, Regulation 542.2.1 requires that the earth electrode can withstand damage and take account of possible increases in resistance due to corrosion. The means of connection must be electrically and mechanically sound (526.1) and be accessible for inspection, testing and maintenance (526.3).
4. How do I size the protective earthing conductor?
Depending on the requirement of a particular regulation, the resistance of the earth electrode will have a maximum permitted value. For example, for a TT Earthing system, Regulation 411.5.3 details the conditions that must exist where an RCD is used for fault protection. This regulation requires the disconnection time to be limited to:
i. 0.2 s for final circuits (411.3.2.2) or 1 s for distribution circuits (411.3.2.4), and
ii. .
Table 41.5 details the maximum earth fault loop impedances permitted for a range of values of RCDs.
However, due to the risks associated with drying and freezing conditions, BS 7430 references a note under Table 41.5 of BS 7671 referencing a value in excess of 200 W not being stable.
The earth electrode resistance is less a function of the diameter of the electrode and more to do with the depth that the electrode is driven, the ability of the rod to be driven into the ground without damage, and the number of electrodes connected in parallel.
Clause 9.5.3 in BS 7430 details how the resistance of rod electrodes may be calculated. Where rod electrodes are to be paralleled to reduce the resistance, rods will have to be separated by at least 6 m to gain the maximum benefit (Figure 14a BS 7430). The formulae to determine the resistance of a single electrode and parallel electrodes are detailed in clauses 9.5.3 and 9.5.4 of BS 7430. Clause 9 of BS 7430 details many more methods of connecting electrodes, and reference should be made to this standard.
For more information on earthing take a look at https://youtu.be/FUM6GZXzqjM