OSHA
Standards Interpretation and Compliance Letters
03/03/1986
- Alarm requirements for breathing air compressors; Respirators for paint materials
containing TDI or MDI; Full facepiece respirators are required when eye irritation is
experienced.
OSHA Standard Interpretation and Compliance Letters -
Table of Contents
- Record Type: Interpretation
- Standard Number: 1910.134(i);1910.134(d)
- Subject: Alarm requirements for breathing air
compressors; Respirators for paint materials containing TDI or MDI; Full facepiece
respirators are required when eye irritation is experienced.
- Information Date:03/03/1986
March 3, 1986
Mr. Anthony W. Ferroni
Vice-President
Survival Air Sales Co., Inc.
6403 East Alondra Boulevard
Paramount, California 90723
Dear Mr. Ferroni:
This is in response to your letter of January 24, requesting
clarification concerning carbon monoxide from oil-lubricated compressors normally found in
automobile paint and body shops.
I will answer your questions in the order that you presented
them in your inquiry to me.
1. A. What type of high heat temperature alarms are
recommended?
[29 CFR 1910.134(i)(7)] does not state a
specific type of high heat temperature alarm that must be used. Contact the
manufacturer(s) for recommendations on these compressors.
Is a snap disc high heat temperature sensor
switch, activating a horn or light, sufficient?
Since [29 CFR 1910.134(i)] does not state a
specific type, an alarm system that meets manufactures recommendations and meets our
requirements in [29 CFR 1910.134(i)] would be acceptable.
What is the DB requirement on such a horn?
OSHA does not have a specific dB requirement
for such a horn alarm; however, the horn alarm must be loud enough to be heard by the
employees using the compressor. The horn alarm also must meet the noise requirements of 29
CFR 1910.95, Table 0-16 - Permissible Noise Exposures.
B. Where would a high heat sensor be mounted?
Would more than one be required?
OSHA does not specify where these high heat
sensors should be mounted and if more than one would be required. Contact the
manufacturer(s) for recommendations on mounting and additional heat sensors.
2. Would an oil-lubricated compressor, used for the breathing
air source, be approved by OSHA following these parameters?
A. Two snap disc heat sensing switches mounted
on the compressor cylinder head activating an alarm horn.
OSHA standard [29 CFR 1910.134(i)] does not
state where to place these switches or how many should be used as mentioned in 1.B.,
above. Contact the manufacturer(s) of these compressors for this information.
B. An in-line air filtration system that
removes oil, water, particulates and objectionable tastes and odors to meet Grade D air
quality requirements (does not remove carbon monoxide).
This in-line air filtration system does not
meet Grade D air quality if more than [10 ppm] of carbon monoxide is present [(i)(6)] ;
however, this filtration system can be used to remove the other substances, tastes and
odors.
C. Initial weekly system checks for carbon
monoxide, and monthly checks thereafter using the stain tube method for detecting carbon
monoxide in the system [10 ppm, (i)(6)].
Because the length of stain tubes is no longer
certified by NIOSH, they may be used only as a screening device.
D. Using a carbon monoxide color-change dot
mounted inside a full face air-supplied respirator for visual check for CO detection in
high concentration. The color dot...
The carbon monoxide color-change dot should
not be used alone but only as a screening device.
E. Would OSHA recommend the use of a synthetic
oil in the compressor rather than hydrocarbon type oils?
If there is no chance for carbon monoxide
production from oil breakdown and it satisfies the manufacturer's requirements, synthetic
oils can be used.
We also need clarification concerning proper respirator
recommendations for paint spray products...
Due to extreme toxicity and lack of odor
warning properties, only positive-pressure supplied air respirators are acceptable. Full
facepiece is required if eye irritation is experienced by the respirator wearer.
Since no negative pressure respirator (air-purifying
respirator) is recommended for use with isocyanates would a powered air system such as
shown in the sample be approved? (See enclosed #3.)
Powered air purified respirators could not be
used for protection against isocyanates.
If you have any further questions, please contact us.
Sincerely,
Edward J. Baier
Director
Directorate of Technical Support
January 24, 1986
Mr. Stephen Mallinger
Acting Director
Directorate of Technical Support
U.S. Department of Labor
Occupational Safety and Health
Administration
Washington, D.C. 20210
Dear Mr. Mallinger:
Thank you for your response concerning the use of portable
breathing air compressors as OSHA 29 CFR 1910.134. (Copy enclosed #1).
Would you please clarify the following questions concerning
carbon monoxide monitoring of oil-lubricated compressors normally found in automobile
paint and body shops.
1) OSHA 29 CFR 1910.134 calls for high heat temperature
alarms for oil-lubricated compressors.
A) What type is recommended? Is a snap disc
high heat temperature sensor switch, activating a horn or light, sufficient? What is the
DB requirement on such a horn? B) Where would a high heat sensor be mounted? Would more
than one be required?
2) OSHA 29 CFR 1910.134 calls for frequent testing for carbon
monoxide if only a high temp alarm is used.
Would an oil-lubricated compressor, used for
the breathing air source, be approved by OSHA following these parameters:
A) Two snap disc heat sensing switches mounted
on the compressor cylinder head activating an alarm horn.
B) An in-line air filtration system that
removes oil, water, particulates and objectionable tastes and odors to meet grade D air
quality requirements (Does not remove carbon monoxide).
C) Initial weekly system checks for carbon
monoxide, and monthly checks thereafter using the stain tube method for detecting carbon
monoxide in system (0-20ppm CO).
D) Using a carbon monoxide color-change dot
mounted inside a full face air supplied respirator for visual check for CO detection in
high concentrations. The color dot would be for back-up only to protect user in situations
where the ambient air near the compressor intake may become contaminated by CO gas, i.e.,
a car is left running near the compressor. The dot is effective in ranges above 35 ppm CO.
E) Would OSHA recommend the use of a synthetic
oil be used in the compressor rather than the hydrocarbon type oils?
We also need clarification concerning proper respirator
recommendations for paint-spray products, typically used in isocyanates (TDI and MDI
specifically). We interpret from the NIOSH publications (copies enclosed #2), that only
Supplied Air Respirators, full face, may be used. Is this the OSHA regulation? Are
half-mask Supplied Air Respirators approved for isocyanates? If so, what type of eye
protection is required?
Since no negative pressure respirator (air purifying
respirator) is recommended for use with isocyanates, would a powered air system such as
shown in sample be approved? (See enclosed #3).
Thank you for your prompt response.
Yours very truly,
Anthony W. Ferroni
Vice-President
OSHA Standard Interpretation and Compliance Letters - Table of Contents
|