Q: What are the regulated limits set by the WCB for noise exposure?
A: 85 decibels (dBA) Lex for an eight-hour period, or an equivalent noise exposure
of one Pascal-squared hour (pa2h). For impact noises, a 140dBA peak sound level
cannot be exceeded.
Q: What are Lex and Pa2h?
A: The risk of hearing loss depends on the loudness of the noise, and how long
the workers are exposed to the noise. Leq is the average noise level measured
by an integrating sound level meter. Lex is the Leq that has been corrected
for shift lengths other than eight hours. Lex is the noise level, averaged over
eight hours, which gives the same noise exposure as would the varying noise
over a typical full work shift. Lex, therefore, includes both loudness and length
of exposure. Another way of expressing noise exposure is by "noise does". Noise
dose is measured in units called Pascal-squared hours, abbreviated as Pa2h.
A noise exposure of 85dBA Lex is equal to 1 Pa2h.
Q: What's the difference between dB and dBA?
A: The intensity of sound is measured in units called decibels (dB). Intensity
is perceived as loudness. The notation dBA refers to decibels measured on a
sound level meter using the A-weighting filter network. Once the A-weighting
scale is selected, the meter will mimic the way the human ear responds to sound.
Occupational noise surveys must be done with a sound level meter using the A-weighting
network.
Q: What is the purpose of carrying out noise measurements?
A: To identify significant sources of noise in the workplace and to help prioritize
them for noise control measures. To determine noise exposures of workers and
to identify workers who require hearing protection, hearing testing, education,
and training. To determine workplace areas that should be posted as hazardous
noise areas.
Q: Why can't I just take area or spot measurements and say I have done
a survey?
A: Area and spot measurements are a good first step, but do not incorporate
information about the length of exposure. Area measurements may either overestimate
or underestimate a worker's noise exposure leading to inappropriate selection
of hearing protection and inaccurate identification of workers who require annual
hearing tests.
Q: What equipment do I need to give me accurate results?
A: Measuring noise exposure is done with noise dose meters or integrating sound
level meters. The integrating sound level meter is a hand-held instrument, while
the noise dose meter is a small device worn by the worker to cover a job position
that moves throughout different noise exposures in the work day (i.e. Millwright,
Supervisor).
Q: What training is required to perform noise surveys?
A: Noise measurements must be carried out in accordance with acceptable standards.
Canadian Standards Association (CSA) Standard Z107.56-M86, Procedures for the
Measurement of Occupational Noise Exposure, provides guidance on the type of
equipment to use, which workers test, and how to test. For a detailed discussion
of noise measurement techniques and sampling strategies, please see the booklet,
Occupational Noise Surveys, and can meet its requirements.
Q: What is done with the information once noise measurements are done?
A: A written report on the results of the noise survey should contain a list
of jobs that are overexposed, and require hearing protection and annual hearing
tests. A list of jobs whose workers need to be trained and educated about the
effects of noise on hearing, and on hearing conservation techniques. Locations
that need to be posted with signs warning about high noise levels, and the requirement
to wear hearing protection. A statement noting that the measurements were taken
under typical noise conditions (or otherwise) at the survey times. The dates
of the measurements and the noise measuring equipment used should be recorded.
Explanations to account for the unusual or different noise measurement levels
resulting from changes in the daily work routine, if necessary.
Q: What is Engineered Noise Control?
A: The best method of dealing with noise in the workplace is reducing the noise
at the source with engineering controls. At best, engineering controls can eliminate
the need to provide hearing protection, hearing testing, and other elements
of a hearing conservation program altogether. At a minimum, noise control can
improve speech communication and reduce annoyance due to noise. Employers must
investigate options for engineered noise control when workers are exposed to
noise above the exposure limits. Investigating noise control options requires
a knowledge professional such as an acoustical engineer.
Q: When should noise measurements be redone?
A: Measurements must be redone whenever workers' noise exposures could have
changed when: machinery is being installed or removed; workload or equipment
operating conditions have changed, causing significant changes in noise levels;
a building's structure has changed (i.e. a wall removed or added). The length
of time employees spend in noisy areas has changed.
Q: I have heard that I can be exempted from noise measurements, is that
true?
A: If workers are identified as being exposed to noise based on other information,
and an effective noise control and hearing conservation program is in place,
employers do not have to measure the actual noise exposure of the worker.