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Welding Fume Safety - Everything You Need To Know

Engaged Expert Parmjit Gahir

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Parmjit Gahir

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Parmjit or Parm to his friends (Head of Occupational Hygiene at ºÃÉ«TV) is an occupational hygienist with almost 30 years of national and international operational experience gained across diverse industry sectors.

Welding fume safety legislation

UK legislation states that all workers must be protected from hazardous airborne substances. The Control of Substances Hazardous to Health (COSHH) regulations set out clear rules for employers to provide a safe working environment including welding fume safety.

 

What are welding fumes?

Fumes and particles produced by welding activities; a complex mix of airborne gases including Nitrous Oxide, Ozone, metals, and fine particles.

 

The dangers of welding fumes

Welding fumes are very hazardous and classified as a known carcinogen. Workers who are exposed are at risk of developing occupational asthma, cancer, irritation of the breathing airways, metal fume fever, and pneumonia, amongst others.

 

Welding fume risk assessment

A critical part of any risk assessment is the identification and accurate assessment of the level of risk of exposure. This is based on:

  • The toxicity of the substances

  • The concentrations involved

  • The duration of exposure

 

Welding fume exposure monitoring

There is no single Workplace Exposure Limit (WEL) for welding fume. The HSE document EH40 defines the WELs for various metal oxide compounds and gases which can be frequently found in welding fume:

Substance

WEL

Aluminium

10 mg/m3

Chromium

0.5 mg/m3

Iron

5 mg/m3

10 mg/m3 STEL

Manganese

- Inhalable Fraction

- Respirable Fraction


0.2 mg/m3

0.05 mg/m3

Titanium

10 mg/m3

Nitrogen Oxide

2.5 mg/m3

Nitrogen Dioxide

0.955 mg/m3
1.91 mg/m3
STEL

Copper 0.2 mg/m3
Nickel

0.1 mg/m3

Ozone 0.4 mg/m3 STEL
Chromium VI
(process generated)
0.025 mg/m3

 

The WELs are based on an average 8-Hour Time Weighted Average of exposure. In the case of workers carrying out welding, it is possible that they are exposed to a short-term moderately high concentration but when averaged over an 8-hour shift the exposure is low.

Some substances have Short Term Exposure Limits (STEL) where concentrations must not exceed the limit over a 15-minute period.

 

Welding fume safety

The legal limits are clearly defined by the WELs and STELs and should not be exceeded , due to the classification of all welding fume being carcinogenic exposure should be reduced to as low as reasonably practicable (ALARP).

A COSHH Risk Assessment should define the frequency and program for any workplace exposure monitoring. 

Generally speaking, six samples should be taken within a similarly exposed group (SEG).

Regular monitoring should be conducted and the frequency should be based on the risk assessment taking into account:

  • The Welding technique used (TIG, MIG, MMA, etc.)
  • Frequency and duration of activity
  • Historical years exposure monitoring data
  • Engineering controls in place and efficacy of measures

It is important to note that when exposure monitoring is conducted on a given day that the operating conditions and workload should represent typical activities. For example, annual monitoring should be typical of conditions over that year as far as practicable. If significant changes or modifications are made then exposure monitoring should be conducted as soon as possible to assess the changes.

Welding fume extractors and other control measures

Due to the serious and harmful nature of welding fumes, all Indoor welding activities require engineering controls which are typically in the form of Local Exhaust Ventilation (LEV).

LEV systems alone often cannot adequately control exposure and so suitable Respiratory Protective Equipment (RPE) is employed to protect workers further.

Outdoor welding also requires adequate RPE. It is crucial that workers are trained in the correct use of RPE and PPE. We are able to offer Face Fit Testing for regulatory compliance.

  • Use engineering measures to control welding fumes e.g. LEV
  • Adequate RPE should also be employed to provide further protection from remaining fumes
  • LEVs should be correctly operated and maintained with a Thorough Examination and Test every 14 months in accordance with HSG 258
  • RPE should be adequately maintained and training provided on the correct use

 

Contact ºÃÉ«TV for expert advice

Contact ºÃÉ«TV today to discuss Welding Fume Exposure Monitoring with our friendly experts.

Our Occupational Hygiene team has a wealth of experience and we can support you with a range of services including:

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