Main causes of electrical faults

The two most common faults are:

• Insulation  failure
  
  The electrical insulation which covers and protects the copper conductors of cables can fail for a variety of reasons. Modern wiring is insulated with pvc which is quite durable. Older installations used rubber, which can become brittle with age and lead to insulation breakdown resulting in short circuits. Short circuit faults can result in fires caused by the sparks and heat generated  under  fault  conditions.  They could also result in metal surfaces, which  are  not  adequately  earthed, becoming "live" which presents the potential for electric shock which could easily be fatal at 240 volts. Damage can also be caused by vermin such as mice or rats who like to chew the insulation which when exposed can result in the faults identified above.

• Overheating
  
  Overheating occurs when installations are overloaded, a classic example being the use of multi-adaptors or multi-socket extension leads. These are not inherently dangerous as they can be used quite safely to connect several low power items such as the home hi-fi, but they do facilitate overloading. If too many appliances  are  connected  to  an electrical circuit, excessive heat will be generated in the copper conductors which can lead to a breakdown of the insulation and a short circuit.

Work carried out by unqualified installers or tenants can also lead to the faults as described.

Installation, Inspection, Testing and Maintenance

It is important to remember that Installation,  Inspection,  Testing  and Maintenance of new or altered electrical systems should only be carried out by a competent qualified electrical tradesmen or contractor.

Preferably the contractor will be approved  by  the  National  Inspection Council for Electrical Installation Contractors and be a member of the Electrical Contractors Association.

The electrical installation must be carried out in accordance with the IEE Wiring th Regulations  (16th   edition) now known as BS  7671:2001  AMD  2002  Requirements for Electrical Installations.

The IEE Wiring Regulations establish the accepted safety parameters for designers, erectors and testers of an installation.

The IEE Wiring Regulations, whilst being non-statutory in nature, may be used in a court of law as evidence of the standard  to  be  achieved.

It is recommended that the electrical installation is tested at least once in every 5 year period or after any additions are made to the system.

Periodic electrical tests will include

• Verification of effectiveness of earthing system
• Polarity
• Earth  fault  loop  impedance
• Insulation  resistance
• Operation of devices for isolation and  switching
• Operation of residual current devices, over-current circuit breakers and  fuses

• Safety
• Wear and Tear
• Corrosion
• Damage
• Excessive  loading
• Age
• External influences (changes in building/occupancy)
• Suitability (e.g. Of protective devices)

A certificate showing details of the installation and the results of the tests should  be  issued.

Key Action Points

Ensure that electrical installations, and any additions to existing systems, are only carried out by a competent person or contractor. (NICEIC Registered)

Ensure that all electrical accessories (switches, sockets, pendants etc.) are of good quality (relevant BS or EN  Standards)

Ensure that the electrical installation is tested at least once in every 5 year period, and a test certificate is issued.

Respond quickly to all reported faults. Delay could result in property damage caused by fire or personal injury or death caused by electric shock.

Reference Documents:

BS  7671:2001  Requirements  for Electrical Installations. IEE Wiring Regulations  Sixteenth  Edition.

IEE Guidance Note 3 to the 16th.  Edition Wiring Regulations.

HSE Guidance Note GS 27 Protection against electric shock.

HSE Free Leaflet IND(G)231(L) Electrical Safety and You.