| Preferred exposure
controls include: |
For example: |
| Using a different chemical
(this is also known as
substitution) |
• Choose a chemical with
a lower evaporation rate or
vapor pressure |
| |
• Choose a chemical that's
not hazardous |
| Changing a process to
decrease emissions |
• Use hand rolling or paint
dipping instead of paint
spraying |
| |
• Bolt items instead of
welding them |
| Separating employees from
emissions areas and
sources |
• Use control rooms |
|
• Build an enclosure
around process machinery
or other emissions sources |
| |
• Automate a process |
| Using local exhaust
ventilation to remove
emissions at or near the
source |
• Install exhaust hoods or
slots to capture emissions |
| |
• Use an exhausted
enclosure (like a blasting
cabinet or laboratory
hood) |
| Other exposure controls
include: |
For example: |
| Using general exhaust
ventilation to dilute and
remove emissions in the
work area |
• Allow natural air
movement to create an
adequate airflow through
an area |
| Note: |
• Use mechanical fans |
| This isn't recommended for
control of highly toxic
airborne contaminants
such as carcinogens,
where low exposures can
still present a health hazard |
|
| Modifying work practices |
• Change the position of
the employee relative to
the work so fumes, vapors,
or smoke aren't directed
into the employee's face |
| Limiting the amount of time
employees can spend in a
contaminated area. |
• Establish a
contaminant-free area for
tasks such as prep work
that don't need to be done
in the exposure area |
| Implementing an employee
rotation schedule |
Have employees alternate
working in the exposure
area so that each employee
gets less overall exposure |
| Note: |
|
| This control will increase
the number of employees
exposed to the airborne
contaminant. Due to this
risk, employee rotation is
NOT recommended for
highly toxic airborne
contaminants such as
carcinogens, where low
exposures can still present
a health hazard. |
|