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Homepage>BS Standards>13 ENVIRONMENT. HEALTH PROTECTION. SAFETY>13.040 Air quality>13.040.30 Workplace atmospheres>PD CEN/TR 16013-3:2012 Workplace exposure. Guide for the use of direct-reading instruments for aerosol monitoring Evaluation of airborne particle concentrations using photometers
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immediate downloadReleased: 2012-11-30
PD CEN/TR 16013-3:2012 Workplace exposure. Guide for the use of direct-reading instruments for aerosol monitoring Evaluation of airborne particle concentrations using photometers

PD CEN/TR 16013-3:2012

Workplace exposure. Guide for the use of direct-reading instruments for aerosol monitoring Evaluation of airborne particle concentrations using photometers

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Standard number:PD CEN/TR 16013-3:2012
Pages:30
Released:2012-11-30
ISBN:978 0 580 77050 0
Status:Standard
DESCRIPTION

PD CEN/TR 16013-3:2012


This standard PD CEN/TR 16013-3:2012 Workplace exposure. Guide for the use of direct-reading instruments for aerosol monitoring is classified in these ICS categories:
  • 13.040.30 Workplace atmospheres

This Technical Report describes the use of photometers for the determination of airborne particles belonging to the respirable fraction and gives details on their limitations and possible uses in the field of occupational hygiene.

NOTE Photometers can also be used to detect other size fractions of airborne particles after aerodynamic preseparation, but these are not the focus of this Technical Report.

The method complements existing conventional long-term aerosol particle sampling and can be used for:

  • instantaneous (direct-reading) measurement,

  • time-related monitoring,

  • investigation of space-related aerosol evolution (mapping), and

  • exposure visualization.

The method enables e.g.:

  • detection and relative quantification of concentration peaks due to specific operations (bagging, sanding, etc.);

  • identification of most exposed workers with a view to more detailed studies of risks and prevention measures to be applied; and

  • detection of dust emission sources and their relative magnitudes.