Wash. Admin. Code § 296-62-07338 - Appendix B-Substance technical guidelines for acrylonitrile
(1) Physical and
chemical data.
(a) Substance identification:
(i) Synonyms: AN; VCN; vinyl cyanide;
propenenitrile; cyanoethylene; Acrylon; Carbacryl; Fumigrain; Ventox.
(ii) Formula: CH2=CHCN.
(iii) Molecular weight: 53.1.
(b) Physical data:
(i) Boiling point (760 mm Hg): 77.3°C
(171°F);
(ii) Specific gravity
(water = 1): 0.81 (at 20°C or 68°F);
(iii) Vapor density (air = 1 at boiling
point of acrylonitrile): 1.83;
(iv)
Melting point: -83°C (-117°F);
(v) Vapor pressure (@20°F): 83 mm
Hg;
(vi) Solubility in water,
percent by weight @20°C (68°F): 7.35;
(vii) Evaporation rate (Butyl Acetate = 1):
4.54; and
(viii) Appearance and
odor: Colorless to pale yellow liquid with a pungent odor at concentrations
above the permissible exposure level. Any detectable odor of acrylonitrile may
indicate overexposure.
(2)
Fire, explosion, and reactivity hazard data.
(a) Fire:
(i)
Flash point: -1°C (30°F) (closed cup).
(ii) Autoignition temperature: 481°C
(898°F).
(iii) Flammable
limits air, percent by volume: Lower: 3, Upper: 17.
(iv) Extinguishing media: Alcohol foam,
carbon dioxide, and dry chemical.
(v)
Special firefighting procedures: Do not use a solid stream of
water, since the stream will scatter and spread the fire. Use water to cool
containers exposed to a fire.
(vi)
Unusual fire and explosion hazards: Acrylonitrile is a flammable liquid. Its
vapors can easily form explosive mixtures with air. All ignition sources must
be controlled where acrylonitrile is handled, used, or stored in a manner that
could create a potential fire or explosion hazard. Acrylonitrile vapors are
heavier than air and may travel along the ground and be ignited by open flames
or sparks at locations remote from the site at which acrylonitrile is being
handled.
(vii) For purposes of
compliance with the requirements of WAC
296-800-300,
acrylonitrile is classified as a class IB flammable liquid. For example, 7,500
ppm, approximately one-fourth of the lower flammable limit, would be considered
to pose a potential fire and explosion hazard.
(viii) For purposes of compliance with WAC
296-800-300,
acrylonitrile is classified as a Class B fire hazard.
(ix) For purpose of compliance with WAC
296-800-280,
locations classified as hazardous due to the presence of acrylonitrile must be
Class I, Group D.
(b)
Reactivity:
(i) Conditions contributing to
instability: Acrylonitrile will polymerize when hot, and the additional heat
liberated by the polymerization may cause containers to explode. Pure AN may
self-polymerize, with a rapid build-up of pressure, resulting in an explosion
hazard. Inhibitors are added to the commercial product to prevent
self-polymerization.
(ii)
Incompatibilities: Contact with strong oxidizers (especially bromine) and
strong bases may cause fires and explosions. Contact with copper, copper
alloys, ammonia, and amines may start serious decomposition.
(iii) Hazardous decomposition products:
Toxic gases and vapors (such as hydrogen cyanide, oxides of nitrogen, and
carbon monoxide) may be released in a fire involving acrylonitrile and certain
polymers made from acrylonitrile.
(iv)
Special precautions: Liquid acrylonitrile will attack some forms
of plastics, rubbers, and coatings.
(3) Spill, leak, and disposal procedures.
(a) If acrylonitrile is spilled or leaked,
the following steps should be taken:
(i)
Remove all ignition sources.
(ii)
The area should be evacuated at once and reentered only after the area has been
thoroughly ventilated and washed down with water.
(iii) If liquid acrylonitrile or polymer
intermediate, collect for reclamation or absorb in paper, vermiculite, dry
sand, earth, or similar material, or wash down with water into process sewer
system.
(b) Persons not
wearing protective equipment should be restricted from areas of spills or leaks
until clean-up has been completed.
(c)
Waste disposal methods: Waste materials must be disposed of in a
manner that is not hazardous to employees or to the general population. Spills
of acrylonitrile and flushing of such spills must be channeled for appropriate
treatment or collection for disposal. They must not be channeled directly into
the sanitary sewer system. In selecting the method of waste disposal,
applicable local, state, and federal regulations should be consulted.
(4) Monitoring and measurement
procedures.
(a) Exposure above the
permissible exposure limit:
(i) Eight-hour
exposure evaluation: Measurements taken for the purpose of determining employee
exposure under this section are best taken so that the average eight-hour
exposure may be determined from a single eight-hour sample or two four-hour
samples. Air samples should be taken in the employee's breathing zone (air that
would most nearly represent that inhaled by the employee).
(ii) Ceiling evaluation: Measurements taken
for the purpose of determining employee exposure under this section must be
taken during periods of maximum expected airborne concentrations of
acrylonitrile in the employee's breathing zone. A minimum of three measurements
should be taken on one work shift. The average of all measurements taken is an
estimate of the employee's ceiling exposure.
(iii) Monitoring techniques: The sampling
and analysis under this section may be performed by collecting the
acrylonitrile vapor on charcoal adsorption tubes or other composition
adsorption tubes, with subsequent chemical analysis. Sampling and analysis may
also be performed by instruments such as real-time continuous monitoring
systems, portable direct-reading instruments, or passive dosimeters. Analysis
of resultant samples should be by gas chromatograph.
(iv) Appendix D lists methods of sampling
and analysis which have been tested by NIOSH and OSHA for use with
acrylonitrile. NIOSH and OSHA have validated modifications of NIOSH Method
S-156 (see Appendix D) under laboratory conditions for concentrations below 1
ppm. The employer has the obligation of selecting a monitoring method which
meets the accuracy and precision requirements of the standard under his/her
unique field conditions. The standard requires that methods of monitoring must
be accurate, to a 95-percent confidence level, to ±35-percent for
concentrations of AN at or above 2 ppm, and to ±50-percent for
concentrations below 2 ppm. In addition to the methods described in Appendix D,
there are numerous other methods available for monitoring for AN in the
workplace. Details on these other methods have been submitted by various
companies to the rulemaking record, and are available at the OSHA Docket
Office.
(b) Since many
of the duties relating to employee exposure are dependent on the results of
monitoring and measuring procedures, employers must ensure that the evaluation
of employee exposures is performed by a competent industrial hygienist or other
technically qualified person.
(5)
Protective clothing.
(a)
Employees must be provided with and required to wear appropriate protective
clothing to prevent any possibility of skin contact with liquid AN. Because
acrylonitrile is absorbed through the skin, it is important to prevent skin
contact with liquid AN. Protective clothing must include impermeable coveralls
or similar full-body work clothing, gloves, head-coverings, as appropriate to
protect areas of the body which may come in contact with liquid AN.
(b) Employers should ascertain that the
protective garments are impermeable to acrylonitrile. Nonimpermeable clothing
and shoes should not be allowed to become contaminated with liquid AN. If
permeable clothing does become contaminated, it should be promptly removed,
placed in a regulated area for removal of the AN, and not worn again until the
AN is removed. If leather footwear or other leather garments become wet from
acrylonitrile, they should be replaced and not worn again, due to the ability
of leather to absorb acrylonitrile and hold it against the skin. Since there is
no pain associated with the blistering which may result from skin contact with
liquid AN, it is essential that the employee be informed of this hazard so that
he or she can be protected.
(c)
Any protective clothing which has developed leaks or is otherwise found to be
defective must be repaired or replaced. Clean protective clothing must be
provided to the employee as necessary to ensure its protectiveness. Whenever
impervious clothing becomes wet with liquid AN, it must be washed down with
water before being removed by the employee. Employees are also required to wear
splash-proof safety goggles where there is any possibility of acrylonitrile
contacting the eyes.
(6)
Housekeeping and hygiene facilities. For purposes of complying
with WAC
296-800-220
and
296-800-230, the
following items should be emphasized:
(a)
The workplace should be kept clean, orderly, and in a sanitary condition. The
employer is required to institute a leak and spill detection program for
operations involving liquid AN in order to detect sources of fugitive AN
emissions.
(b) Dry sweeping and
the use of compressed air is unsafe for the cleaning of floors and other
surfaces where liquid AN may be found.
(c)
Adequate washing facilities with hot and cold water are to be
provided, and maintained in a sanitary condition. Suitable cleansing agents are
also to be provided to ensure the effective removal of acrylonitrile from the
skin.
(d) Change or dressing rooms
with individual clothes storage facilities must be provided to prevent the
contamination of street clothes with acrylonitrile. Because of the hazardous
nature of acrylonitrile, contaminated protective clothing should be placed in a
regulated area designated by the employer for removal of the AN before the
clothing is laundered or disposed of.
(7) Miscellaneous precautions.
(a) Store acrylonitrile in tightly-closed
containers in a cool, well-ventilated area and take necessary precautions to
avoid any explosion hazard.
(b)
High exposures to acrylonitrile can occur when transferring the liquid from one
container to another.
(c)
Nonsparking tools must be used to open and close metal acrylonitrile
containers. These containers must be effectively grounded and bonded prior to
pouring.
(d) Never store
uninhibited acrylonitrile.
(e)
Acrylonitrile vapors are not inhibited.
They may form polymers and clog vents of storage tanks.
(f) Use of
supplied-air suits or other impervious coverings may be necessary to prevent
skin contact with and provide respiratory protection from acrylonitrile where
the concentration of acrylonitrile is unknown or is above the ceiling limit.
Supplied-air suits should be selected, used, and maintained under the immediate
supervision of persons knowledgeable in the limitations and potential
life-endangering characteristics of supplied-air suits.
(g) Employers must advise employees of all
areas and operations where exposure to acrylonitrile could occur.
(8) Common operations. Common
operations in which exposure to acrylonitrile is likely to occur include the
following: Manufacture of the acrylonitrile monomer; synthesis of acrylic
fibers, ABS, SAN, and nitrile barrier plastics and resins, nitrile rubber,
surface coatings, specialty chemicals; use as a chemical intermediate; use as a
fumigant; and in the cyanoethylation of cotton.
Notes
Statutory Authority: RCW 49.17.010, [49.17].040, and[49.17].050 . 01-11-038, § 296-62-07338, filed 5/9/01, effective 9/1/01. Statutory Authority: Chapter 49.17 RCW. 88-11-021 (Order 88-04), § 296-62-07338, filed 5/11/88.
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