Attachment F – Risks associated with electrical work

Attachment F – Risks associated with electrical work

The risks associated with undertaking electrical work have been addressed by government intervention in a number of forms, including occupational licensing, occupational health and safety regulation, and standards and codes for undertaking work. For example, licensing ensures that those working with electricity have sufficient skills and knowledge to work safely in respect of themselves, other workers, consumers and the general public. Another example is where governments set the standards for the products that may be installed.

The potential electrical hazards that give rise to this risk include:

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  defective or incorrect wiring
  
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  touching metal (or other) objects that have become energised through contact with live electrical circuits/parts
  
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  working live unnecessarily or without taking safety precautions.
  

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  the risk of faulty or inappropriate installations and design that result in property damage or personal injury to the public, workers and consumers
  
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  the risk of bad workmanship that poses a danger to the public, other workers and consumers
  
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  risks of contractors not adhering to and enforcing safety standards
  
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  risks associated with transmission and distribution that may arise from the different regulatory schemes in the various jurisdictions
  
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  risks arising from working around high-voltage work or in hazardous areas e.g. working around explosive atmospheres, wheat silos, mines, and so on
  
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  risks to consumers arising from their inability to distinguish what is safe.
  

‘injuries of the cardiovascular system (for example, rhythm disturbances), cutaneous (skin) injuries and burns, nervous system disruption, respiratory arrest, as well as head injuries, fractures and dislocations (caused by being ‘thrown’ or ‘knocked down’ due to the severe muscle contractions induced by the current).’ ⁶⁵

Research indicates that the majority of electrical injuries in adults tend to occur within a work environment. The findings of a study undertaken in 2007 indicate that:

‘Adults, 25–64 years, were more likely to be injured in the work environment (29%) with 5% injured in a trade and service area and 24% in an industrial and construction area. Gender differences were also evident with females (50%) more likely to be injured in the home than males (19%), and males (28%) more likely to be injured in industrial and construction locations than females (9%).’ ⁶⁶

The findings of the Pointer & Harrison study are supported by data on electrical fatalities in Australia and New Zealand collected by the Electrical Regulatory Authorities Council (ERAC). Accident statistics produced by ERAC indicate that between 1993 and 2010 the number of electrical deaths has fluctuated, with the seven deaths recorded in Australia for 2007–08 being the lowest on record.⁶⁷ According to ERAC statistics in recent times, less than half of these deaths are related to consumer installations or equipment. Further, ERAC has observed that:

[for the 2009–10 financial year] Of the people who were electrocuted, 96% were either non-electrical workers or general public. Of the people who were electrocuted, 46% were workplace accidents.⁶⁸

Table F.1 illustrates ERAC statistics on the number of electrical fatalities in Australia. Table F.2 illustrates the number of electrical fatalities that directly relate to consumer installations or equipment (Table F.2 also includes the fatalities involving electricity supply networks).

[the statistics from 2001–02 to 2009–10] ….show that most electrical deaths associated with electricity networks are as a result of working on or near energised overhead conductors: 93% of electrical deaths associated with electricity supply networks involved overhead conductors (out of 88 deaths involving the electricity supply networks over the last ten year period, 82 were due to contact with energised overhead conductors).⁶⁹

The seriousness and prevalence of the problem in the absence of the current regulatory frameworks imposed by jurisdictions is difficult to quantify, primarily due to the high level of efficacy of those frameworks. In this respect, the Pointer & Harrison study concluded that:

the relatively small number of cases of serious injury due to contact with electricity, despite its lethal potential and the nearly ubiquitous provision of mains supply to Australian homes and workplaces, provides a basis for thinking that current preventative measures are largely successful.⁷⁰

Nevertheless, the cost of injuries and deaths caused by electricity are significant. The Victorian Regulatory Impact Statement for the Electricity Safety (Installations) (Amendment) Regulations 2000 indicates that:

The importance of regulatory controls in addressing the health and safety risks associated with electrical work was highlighted by the then Office of the Chief Electrical Inspector (OCEI):