Page 1 11
Print Rev. Date 11/29/2006
MSDS Document
Product 50Fuel
1. Chemical Product and Company Identification
Trade Name of this Product 50Fuel
MSDS ID MSDS0004
Manufacturer Contact Name
TruSouth Oil Lynn Massad
10411 Highway 1 Phone Number
Shreveport, LA 71115 (318) 795-3800
Emergency Phone
CHEMTREC (800) 424-9300
CHEMTREC International (703) 527-3887
Revision Date 11/29/2006
Fire
1
3 Health:
Health Reactivity
3
Fire:
1 0 0
Reactivity:
Specific
Specific
2. Composition and Information on Ingredients
Ingredient CAS Number Weight % ACGIH TLV PEL STEL
Gasoline 86290-81-5 95% - 99% 300 ppm 300 ppm
Toluene 108-88-3 20% - Max
Mineral Oil, Petroleum 64741-88-4 1% - 5% 5 mg/m3
Distilates, Solvent
Refined
Benzene 71-43-2 5% - Max 0.5 ppm 1 ppm
Ethylbenzene 100-41-4 3% - Max 100 ppm 100 ppm
Cyclohexane 110-82-7 3% - Max
Mixture AB Additive 1% - Max 0
Package
� Page 2 11
Print Rev. Date 11/29/2006
MSDS ID MSDS0004
50Fuel
3. Hazard Identification
EMERGENCY OVERVIEW
WARNING: Extremely flammable Liquid and vapor may cause flash fire or explosion. The
Flash Point is <0 degrees F.
* This product is a light amber hydrocarbon liquid.
* It has a pungent petroleum odor. The product floats on water.
* When burned the product produces carbon monoxide and other asphyxiants during
combustion.
* Harmful if inhaled and may cause delayed lung injury and overexposure can increase the
heart's susceptibility to arrhythmias.
* Aspiration hazard if swallowed - can enter lungs and cause damage.
* Contains Benezene - Cancer hazard.
* Overexposure may cause central nervous system depression and target organ effects.
* Keep away from heat, sparks, and flame.
* Avoid breathing vapor. High concentrations of vapor reduce oxygen availabile for breathing
and may cause suffocation. Use ventilation to keep vapor below exposure limits.
* Avoid contact with eyes, skin and clothing. Material splashed into the eyes will irritate
tissues. Gently flush material from eyes with clean water.
* Unprotected exposure to this product will cause skin dryness.
* Remove product soaked clothing and wash with mild soap.
* As with any petroleum product, avoid mixing this product with strong oxidizers.
* Long term exposure to gasoline vapor has caused cancer in laboratory animals.
* This product may be toxic to fish but will be toxic to birds and wildlife through ingestion
during pelage cleaning.
* This product is readily biodegradable in the presence of air and sunlight.
* Avoid spills. Spills may present both a physical and an environmental hazard.
This material is considered Hazardous by OSHA HCS (29CFR 1910.1200).
POTENTIAL HEALTH EFFECTS
PRIMARY ROUTE(S) OF ENTRY
Skin and eye contact, Inahalation, and Ingestion
EYES
This product can cause eye irritation with short-term contact with liquid, mists, or vapor.
Symptoms include sting, watering, redness, and swelling. In severe cases, permanent eye
damage can result.
SKIN
This product can cause skin irritation. The severity of irritation will depend on the amount of
material that is applied to the skin and the speed and thoroughness that it is removed. It is
likely that some components of this materials are able to pass into the body through the skin
and may cause similar effects as from breathing or swallowing it. If the skin is damaged,
absorption increases.
INGESTION
If swallowed, this material may irriate the muccous membranes of the mouth, throat, and
esophagus. It can be readily absorbed by the stomach and intestinal tract. Symptoms
include a burning sensation of the mouth and esophagus, nausea, vomiting, dizziness,
staggered gait, drowsiness, loss of consciousness and delirium, as well as additional
central nervous systems (CNS) effects. Because the product has a low viscosity, there is
� Page 3 11
Print Rev. Date 11/29/2006
MSDS ID MSDS0004
50Fuel
danger of aspiration into the lungs during swallowing and vomiting. Aspiration can result in
severe lung damage or death. Cardiovascular effects include shallow rapid pulse with pallor
followed by redness in face. Also, progressive CNS depression, respiratory insufficiency
and ventricular fibrillation leads to death.
INHALATION
The vapors or fumes from this product may cause respiratory irritation. Symptoms of
respiratory irritation may include coughing and difficulty breathing. Breathing this material at
concentration above the recommended exposure limits may cause CNS effects. CNS effects
may include headache, nasal and respiratory irritation, nausea, drowsiness, breathlessness,
fatigue, central nervous system depression, convulsions, loss of consciousness coma, or
death.
DELAYED OR OTHER HEALTH EFFECTS:
Reproduction and Birth Defects: This material is not expected to cause birth defects or other
harm to the developing fetus based on animal data.
Cancer: Prolonged or repeated exposure to this material may cause cancer. Gasoline has
been classified as a Group 2B carcinogen (possibly carcinogenic to humans) by the
International Agency for Research on Cancer (IARC). Contains benzene, which has been
classified as a carcinogen by the National Toxicology Program (NTP) and a Group 1
carcinogen (carcinogenic to humans) by the International Agency for Research on Cancer
(IARC).
Contains ethylbenzene which has been classified as a Group 2B carcinogen (possibly
carcinogenic to humans) by the International Agency for Research on Cancer (IARC).
CONDITIONS AGGRAVATED BY EXPOSURE
May cause damage to the following organs or organ systems that may be aggravated by
significant exposure to this amterial or its components include: Skin, respiratory system,
liver, kidneys, central nervous system, cardiovascular system and blood -forming system.
4. First Aid Information
Eye: Flush eyes with water immediately while holding the eyelids open. Remove contact
lenses, if worn, after initial flushing, and continue flushing for at least 15 minutes. Get
medical attention if irritation persists.
Skin: Wash skin with water immediately and remove contaminated clothing and shoes. Get
medical attention if any symptoms develop. To remove the material from skin, use soap and
water. Discard contaminated clothing and shoes or thoroughly clean before reuse.
Ingestion: If swallowed, get immediate medical attention. Do not leave victim unattended. Do
not induce vomiting. If spontaneous vomiting is about to occur, place victim's head below
knees. If victim is drowsy or unconscious, place on the left side with head down. Never give
anything by mouth to an unconscious person.
Inhalation: Move the exposed person to fresh air. If not breathing, give artificial respiration.
If breathing is difficult, give oxygen by a qualified individual. Get medical attention if
breathing difficulties continue. If exposed to benzene in an emergency situation, a medical
evaluation should be completed at the end of the work-shift in accordance with OSHA
requirements.
� Page 4 11
Print Rev. Date 11/29/2006
MSDS ID MSDS0004
50Fuel
Note to Physicians: Ingestion of this product or subsequent vomiting may result in
aspiration of light hydrocarbon liquid, which may cause pneumonitis
5. Fire Fighting Measures
FLAMMABLE PROPERTIES
FLASH POINT: -45 F Tag Closed Cup (D56)
AUTOIGNITION: 536 F
FLAMMABILITY CLASS: IB
LOWER EXPLOSIVE LIMIT (%): 1.4 vol %
UPPER EXPLOSIVE LIMIT (%): 7.6 vol %
FIRE AND EXPLOSION HAZARDS
Can form flammable mixtures with air and flash at room temperature or upon slight heat
application. Vapors are heavier than air and may travel considerable distance. Explosion
hazard in confined spaces if exposed to ignition source. Mists or sprays may be flammable
below fuel's normal flash point. Keep away from heat or open flame.
EXTINGUISHING MEDIA
Dry Chemical, carbon dioxide, and foam. NOTE: Water, fog and foam may cause frothing and
spattering. Water stream may spread fire.
FIRE FIGHTING INSTRUCTIONS
Use water spray to cool fire-exposed containers and to protect personnel. For fires involving
this material, do not enter any enclosed or confined fire space without proper protective
equipment, including self-contained breathing apparatus. Withdraw immediately from the
area if there is a rising sound from a venting safety device or discoloration of vessels, tanks,
or pipelines
Combustion Products: Highly dependent on combustion conditions. A complex mixture of
airborne solids, liquids, and gases including carbon monoxide, carbon dioxide, and
unidentified organic compounds will be evolved when this material undergoes combustion.
6. Accidental Release Measures
Protective Measures: Eliminate all sources of ignition in the vicinity of the spill or released
vapor. If this material is released into the work area, evacuate the area immediately. Monitor
area with combustible gas indicator.
Spill Management: Stop the source of the release if you can do it without risk. Contain
release to prevent further contamination of soil, surface water or groundwater. Clean up spill
as soon as possible, observing precautions in Exposure Controls/Personal Protection. Use
appropriate techniques such as applying non-combustible absorbent materials or pumping.
All equipment used when handling the product must be grounded. A vapor suppressing
foam may be used to reduce vapors. Use clean non-sparking tools to collect
absorbed material. Where feasible and appropriate, remove contaminated soil. Place
contaminated materials in disposable containers and dispose of in a manner consistent with
applicable regulations.
� Page 5 11
Print Rev. Date 11/29/2006
MSDS ID MSDS0004
50Fuel
Reporting: Report spills to local authorities and/or the U.S. Coast Guard's National
Response Center at (800) 424-8802 as appropriate or required. This material is covered by
EPA's Comprehensive Environmental Response, Compensation and Liability Act (CERCLA)
Petroleum Exclusion. Therefore, releases to the environment may not be reportable under
CERCLA.
7. Handling and Storage
Precautionary Measures: READ AND OBSERVE ALL PRECAUTIONS ON PRODUCT LABEL.
This product presents an extreme fire hazard. Liquid very quickly evaporates, even at low
temperatures, and forms vapor (fumes) which can catch fire and burn with explosive
violence. Invisible vapor spreads easily and can be set on fire by many sources such as pilot
lights, welding equipment, and electrical motors and switches. Never siphon gasoline by
mouth.
USE ONLY AS A MOTOR FUEL FOR 2 CYCLE AIR COOLED ENGINES. Do not use for
cleaning, pressure appliance fuel, or any other such use. Do not store in open or unlabeled
containers. Do not get in eyes, on skin, or on clothing. Do not taste or swallow. Do not
breathe vapor or fumes. Wash thoroughly after handling. Keep out of the reach of children.
Unusual Handling Hazards: WARNING! Do not use as portable heater or appliance fuel.
Toxic fumes may accumulate and cause death.
General Handling Information: Avoid contaminating soil or releasing this material into
sewage and drainage systems and bodies of water.
Static Hazard: Electrostatic charge may accumulate and create a hazardous condition when
handling this material. To minimize this hazard, bonding and grounding may be necessary
but may not, by themselves, be sufficient. Review all operations which have the potential of
generating an accumulation of electrostatic charge and/or a flammable atmosphere
(including tank and container filling, splash filling, tank cleaning, sampling, gauging, switch
loading, filtering, mixing, agitation, and vacuum truck operations) and use appropriate
mitigating procedures. For more information, refer to OSHA Standard 29 CFR 1910.106,
'Flammable and Combustible Liquids', National Fire Protection Association (NFPA
77,'Recommended Practice on Static Electricity', and/or the American Petroleum Institute
(API) Recommended Practice 2003, 'Protection Against Ignitions Arising Out of Static,
Lightning, and Stray Currents'. Improper filling of portable gasoline containers creates
danger of fire. Only dispense gasoline into approved and properly labeled gasoline
containers. Always place portable containers on the ground. Be sure pump nozzle is in
contact with the container while filling. Do not use a nozzle's lock-open device. Do not fill
portable containers that are inside a vehicle or truck/trailer bed.
General Storage Information: DO NOT USE OR STORE near heat, sparks or open flames.
USE AND STORE ONLY IN WELL VENTILATED AREA. Keep container closed when not in
use.
Container Warnings: Container is not designed to contain pressure. Do not use pressure to
empty container or it may rupture with explosive force. Empty containers retain product
residue (solid, liquid, and/or vapor) and can be dangerous. Do not pressurize, cut, weld,
braze, solder, drill, grind, or expose such containers to heat, flame, sparks, static electricity,
or other sources of ignition. They may explode and cause injury or death. Empty containers
should be completely drained, properly closed, and promptly disposed of properly. DO NOT
REFILL CONTAINIER. ONE TIME USE ONLY.
� Page 6 11
Print Rev. Date 11/29/2006
MSDS ID MSDS0004
50Fuel
8. Exposure Controls and Personal Protection
GENERAL CONSIDERATIONS:
Consider the potential hazards of this material (see Section 3), applicable exposure limits,
job activities, and other substances in the work place when designing engineering controls
and selecting personal protective equipment. If engineering controls or work practices are
not adequate to prevent exposure to harmful levels of this material, the personal protective
equipment listed below is recommended. The user should read and understand all
instructions and limitations supplied with the equipment since protection is usually provided
for a limited time or under certain circumstances.
ENGINEERING CONTROLS:
Use process enclosures, local exhaust ventilation, or other engineering controls to control
airborne levels below the recommended exposure limits.
PERSONAL PROTECTIVE EQUIPMENT
Eye/Face Protection: No special eye protection is normally required. Where splashing is
possible, wear safety glasses with side shields as a good safety practice.
Skin Protection: No special protective clothing is normally required. Where splashing is
possible, select protective clothing depending on operations conducted, physical
requirements and other substances in the workplace. Suggested materials for protective
gloves include: Chlorinated Polyethylene (or Chlorosulfonated Polyethylene), Nitrile Rubber,
Polyurethane, Viton.
Respiratory Protection: Determine if airborne concentrations are below the recommended
exposure limits. If not, wear an approved respirator that provides adequate protection from
measured concentrations of this material, such as: Air-Purifying Respirator for Organic
Vapors. When used as a fuel, this material can produce carbon monoxide in the exhaust.
Determine if airborne concentrations are below the occupational exposure limit for carbon
monoxide. If not, wear an approved positive-pressure air-supplying respirator.
Use a positive pressure air-supplying respirator in circumstances where air-purifying
respirators may not provide adequate protection.
Occupational Exposure Limits:
Component Limit TWA STEL Ceiling Notation
*******************************************************************************************
Benzene ACGIH TLV .5 ppm 2.5 ppm Skin A1
OSHA PEL 1 ppm 5 ppm
OSHA Z2 10 ppm 25 ppm
*******************************************************************************************
Ethyl benzene ACGIH TLV 100 ppm 125 ppm A3
OSHA PEL 100 ppm 125 ppm
*******************************************************************************************
Gasoline ACGIH TLV 300 ppm 500 ppm A3
OSHA PEL 300 ppm 500 ppm
*******************************************************************************************
Mineral Oil OSHA VPEL 5mg/m3 - TWA Oil Mist ACGIH TLV 5mg/m3 - TWA Oil Mist
*******************************************************************************************
Refer to the OSHA Benzene Standard (29 CFR 1910.1028) and Table Z-2 for detailed training,
exposure monitoring, respiratory protection and medical surveillance requirements before
using this product.
� Page 7 11
Print Rev. Date 11/29/2006
MSDS ID MSDS0004
50Fuel
9. Physical and Chemical Properties
APPEARANCE
Light amber liquid.
ODOR
Petroleum Naphtha.
BASIC PHYSICAL PROPERTIES
PHYSICAL STATE: Liquid
BOILING POINT: IBP 99-116 F
MELTING POINT: n/av. F n/av. C
VAPOR PRESSURE: 7.3 psi @ 100 F
VAPOR DENSITY (AIR=1): 3 to 4
SPECIFIC GRAVITY: .7 to .8 Water = 1
MOLECULAR WEIGHT: N/A
SOLUBILITY (H2O): Insoluable in water; miscible with most organic solvents
PERCENT VOLATILES:N/A
VISCOSITY: <1 SUS @ 100 F
Physical data may vary slightly to meet specifications.
10. Stability and Reactivity
Chemical Stability: This material is considered stable under normal ambient and anticipated
storage and handling conditions of temperature and pressure.
Incompatibility With Other Materials: May react with strong oxidizing agents, such as
chlorates, nitrates, peroxides, etc.
Hazardous Decomposition Products: None known (None expected)
Hazardous Polymerization: Hazardous polymerization will not occur.
11. Toxicological Information
IMMEDIATE HEALTH EFFECTS
Eye Irritation: The Draize eye irritation mean score in rabbits for a 24-hour exposure was:
0/110.
Skin Irritation: For a 4-hour exposure, the Primary Irritation Index (PII) in rabbits is: 4.8/8.0.
Skin Sensitization: This material did not cause sensitization reactions in a Modified Buehler
guinea pig test.
Acute Dermal Toxicity: 24 hour(s) LD50: >3.75g/kg (rabbit).
Acute Oral Toxicity: LD50: >5 ml/kg (rat)
Acute Inhalation Toxicity: 4 hour(s) LD50: >2000ppm (rat).
ADDITIONAL TOXICOLOGY INFORMATION:
Gasolines are highly volatile and can produce significant concentrations of vapor at ambient
temperatures. Gasoline vapor is heavier than air and at high concentrations may accumulate
in confined spaces to present both safety and heath hazards. When vapor exposures are
� Page 8 11
Print Rev. Date 11/29/2006
MSDS ID MSDS0004
50Fuel
low, or short duration and infrequent, such as during refuelling and tanker
loading/unloading, neither total hydrocarbon nor components such as benzene are likely to
result in any adverse health effects. In situations such as accidents or spills where exposure
to gasoline vapor is potentially high, attention should be paid to potential toxic effects of
specific components. Information about specific components in gasoline can be found in
Sections 2, 8 and 15 of this MSDS. More detailed information on the health hazard of specific
gasoline components can be obtained calling the Chevron Emergency Information Center
(see Section 1 for phone numbers).
NEUROTOXICITY: Pathological misuse of solvents and gasoline, involving repeated and
prolonged exposure to high concentrations of vapor is a significant exposure on which there
are many reports in the medical literature. As with other solvents, persistent abuse
involving repeated and prolonged exposures to high concentrations of vapor has been
reported to result in central nervous system damage and eventually, death. In a study in
which ten human volunteers were exposed for 30 minutes to approximately 200, 500 or 1000
ppm concentrations of gasoline vapor, irritation of the eyes was the only significant effect
observed, based on both subjective and objective assessments. In an inhalation study,
groups of 6 Fischer rats (3 male. 3 female) were exposed to 2056 ppm of wholy vaporized
unleaded gasoline for 6 hours perday, 5 day per week for up to 18 months. Histopathology of
the peripheral nervous system and spinal cord revealed no distal axonal neuropthy of the
type associated with exposure to n-hexane even though gasoline contained 1.9% n-hexane.
The authors concluded that gasoline treatment may have amplified the incidence and
prominence of some naturally occurring age-related (subclinical) in the nervous system.
BIRTH DEFECTS AND REPRODUCTIVE TOXICITY: An inhalation study with rats exposed to
0, 400 and 1600 ppm of wholly vaporized unleaded gasoline, 6 hours per day on day 6
through 16 of gestation, showed no teratogenic effects nor indication of toxicity to either the
mother or the fetus. Another inhalation study in rats exposed to 3000, 6000, or 9000 ppm of
gasoline vapor, 6 hours per day on day 6 through 20 of gestation, also showed no
teratogenic effects nor indications of toxicity to either the mother or the fetus.
CHRONIC TOXICITY/CANCER: Wholly vaporized unleaded gasoline was used in a 3 month
inhalation study. Groups of 40 rats (20 males, 20 female) and 8 squirrel monkeys (4 male, 4
female) were exposed 6 hours per day and 5 days per week for 13 weeks to 384 or 1552 ppm
gasoline. One group of each species served as unexposed controls. The initial conclusion of
this study was that inhalation of gasoline at airborne concentrations of up to 1522 ppm
caused no toxicity in rats or monkeys. However, further histopathological examination of
male rat kidneys on the highest dose group revealed an increased incidence and severity of
regenerative epithelium and dilated tubules containing proteinaceous deposits. Lifetime
inhalation of wholly vaporized unleaded gasoline at 2056 ppm has caused increased liver
tumors in female mice. The mechanism of this response is still being investigated but it is
thought to be an epigenetic process unique to the female mouse. This exposure also
caused kidney damage and eventually kidney cancer in male rats. No
other animal model studied has shown these adverse kidney effects and there is no
physiological reason to believe that they would occur in man. EPA has concluded that
mechanism by which wholly vaporzied unleaded gasoline causes kidney damage is unque to
the male rat. The effects in that species (kidney damage and cancer) should not be used in
human risk assesment. In their 1988 review of carcinogenic risk from gasoline, The
International Agency for Research on Cancer (IARC) noted that, because published
epidemiology studies did not include any exposure data, only occupations where gasoline
exposure may have ocurred were reviewed. These included gasoline service station
attendants and automobile mechanics. IARC also noted that there was no opportunity to
separate effects of combustion products from those of gasoline itself. Although IARC
� Page 9 11
Print Rev. Date 11/29/2006
MSDS ID MSDS0004
50Fuel
allocated gasoline a final overall classification of Group 2B, i.e. possibly carcinogenic to
humans, this was based on limited evidence in experimental animals plus supporting
evidence including the presence in gasoline of benzene and 1, 3-butadiene. The actual
evidence for carcinogenicity in humans was considered inadequate.
MUTAGENICITY: Gasoline was not mutagenic, with or without activation, in the Ames assay
(Salmonella typhimurium), Saccharamyces cerevisesae, or mouse lymphoma assays. In
addition, point mutations were not induced in human lymphocytes. Gasoline was not
mutagenic when tested in the mouse dominant lethal assay. Administration of gasoline to
rats did not cause chomosomal aberrations in their bone marrow cells.
EPIDEMIOLOGY: To explore the health effects of workers potentially exposed to gasoline
vapors in the marketing and distribution sectors of the petroleum industry, the American
Petroleum Institute sponsored a cohort mortality study (Publication 4555), a nested
case-control study (Publication 4551), and an exposure assessment study (Publication
4552). Histories of exposure to gasoline were reconstructed for cohort of more than 18,000
employees from four companies for the time period between 1946 and 1985. The results of
the cohort mortality study indicated that there was no increased mortality from either kidney
cancer or leukemia among marketing and marine distribution employees who were exposed
to gasoline in the petroleum industry, when compared to the general population. More
importantly, based on internal comparisons, there was no association between mortality
from kidney cancer or leukemia and various indices of gasoline exposure. In particular,
neither duration of employment, duration of exposure, age at first exposure, year of first
exposure, job category, cumulative exposure, frequency of peak exposure, nor average
intensity of exposure had any effect on kidney cancer or leukemia mortality. The results of
the nested case-control study confirmed the findings of the original cohort study. That is,
exposure to gasoline at the levels experienced by this cohort of distribution workers is not a
significant risk factor for leukemia (all cell types), acute myeloid leukemia, kidney cancer or
multiple myeloma.
12. Ecological Information
ECOTOXICITY
*The 96 hour(s) LC50 for rainbow trout (Oncorhynchus mykiss) is 2.7 mg/l.
*The 48 hour(s) LC50 for water flea (Daphnia magna) is 3.0 mg/l.
*The 96 hour(s) LC50 for sheepshead minnow (Cyprinodon variegatus) is 8.3 mg/l.
*The 96 hour(s) LC50 for mysid shrimp (Mysidopsis bahia) is 1.8 mg/l.
This material is expected to be toxic to aquatic organisms. Gasoline studies have been
conducted in the laboratory under a variety of test conditions with a range of fish and
invertebrate species. An even more extensive database is available on the aquatic toxicity of
individual aromatic constituents. The majority of published studies do not identify the type of
gasoline evaluated, or even provide distinguishing characteristics such as aromatic content
or presence of lead alkyls. As a result, comparison of results among studies using open and
closed vessels, different ages and species of test animals and different gasoline types, is
difficult. The bulk of the available literature on gasoline relates to the environmental impact
of monoaromatic (BTEX) and diaromatic (naphthalene, methylnaphthalenes) constituents. In
general, non-oxygenated gasoline exhibits some short-term toxicity to freshwater and
marine organisms, especially under closed vessel or flow-through exposure conditions in
the laboratory. The components which are the most prominent in the water soluble fraction
and cause aquatic toxicity, are also highly volatile and can be readily biodegraded by
microorganisms.
� Page 10 11
Print Rev. Date 11/29/2006
MSDS ID MSDS0004
50Fuel
ENVIRONMENTAL FATE
This material is expected to be readily biodegradable. Following spillage, the more volatile
components of gasoline will be rapidly lost, with concurrent dissolution of these and other
constituents into the water. Factors such as local environmental conditions (temperature,
wind, mixing or wave action, soil type, etc), photo-oxidation, biodegradation and adsorption
onto suspended sediments, can contribute to the weathering of spilled gasoline. The
aqueous solubility of non-oxygenated unleaded gasoline, based on analysis of benzene,
toluene, ethylbenzene+xylenes and naphthalene, is reported to be 112 mg/l. Solubility data
on individual gasoline constituents also available.
13. Disposal Considerations
Use material for its intended purpose or recycle if possible. This material, if it must be
discarded, may meet the criteria of a hazardous waste as defined by US EPA under RCRA
(40 CFR 261) or other State and local regulations. Measurement of certain physical
properties and analysis for regulated components may be necessary to make a correct
determination. If this material is classified as a hazardous waste, federal law requires
disposal at a licensed hazardous waste disposal facility.
14. Transportation Information
The description shown may not apply to all shipping situations. Consult 49CFR, or
appropriate Dangerous Goods Regulations, for additional description requirements (e.g.,
technical name) and mode-specific or quantity-specific shipping requirements.
DOT Shipping Name: Flammable Liquid N.O.S. (Contains Gasoline), 3, UN1993, PG II
DOT Hazard Class: 3 (Flammable Liquid)
DOT Identification Number: UN1993
DOT Packing Group: II
MARPOL III Status: Not a DOT" Marine Pollutant per 49 CFR 171.8
15. Regulatory Information
U.S. FEDERAL REGULATORY INFORMATION
SARA 302 Threshold Planning Quantity: NOT APPLICABLE
SARA 304 Reportable Quantity: NOT APPLICABLE
SARA TITLE III - Section 311/312 Hazard classes:
- Immediate/Acute Health Effects: yes
-Delayed/Chronic Health Effects: yes
- Fire Hazard: yes
- Sudden Release of Pressure Hazard: no
- Reactivity Hazard: no
EPA/TSCA Inventory: The components of this product are listed on the
EPA/TSCA inventory of chemicals.
SARA TITLE III - Section 313 Supplier notification:
The following chemicals are subject to the reporting requirements of Section 313 of Title III
of the Superfund Amendments and reauthorization Act of 1986 and 40 CFR Part 372:
� Page 11 11
Print Rev. Date 11/29/2006
MSDS ID MSDS0004
50Fuel
Ethylbenzene CAS # 100-41-4 Up to 4 wt %
Toluene CAS # 108-88-3 Up to 20 wt %
Xylene CAS # 1330-20-7 Up to 18 wt %
1,2,4-Trimethylbenzene CAS # 95-63-6 Up to 4 wt %
Cyclohexane CAS #110-82-7 Up to 3 wt %
n-Hexane CAS # 110-54-3 Up to 8 wt %
Benzene CAS # 71-43-2 Up to 5 wt %
Comprehensive Environmental Response, Compensation and Liability Act (CERCLA):
Component Component RQ Component TPQ Product RQ
**********************************************************************************************
Benzene 10 lbs None 186 lbs
**********************************************************************************************
Ethyl benzene 1000 lbs None 34964 lbs
**********************************************************************************************
This material is considered to be Hazardous by OSHA (29CFR 1910.1200)
CALIFORNIA PROPOSITION 65
This material may contain the following components which are known to the State of
California to cause cancer, birth defects or other reproductive harm, and may be subject to
the requirements of California Proposition 65 (CA Health & Safety Code Section 25249.5):
Gasoline (Wholly Vaporized and Engine Exhaust), Benzene, Toluene, Ethylbenzene
CANADIAN REGULATORY INFORMATION
The components of this product are listed on the Canadian (DSL) Domestic Substances List.
============================
16. Other Information
Other Info
The information contained herin is based upon data available to us, and reflects our best
professional judgement. However, no warranty of merchantability, fitness of any use, or
other warranty is expressed or implied regarding the accuracy such as data, the results to
be obtained from the used thereof, or that any such use does not infringe anuy patent. Since
information contained herein may be applied under conditions of use beyond our control
and with which we may be unfamiliar, we do not assume any responsibility for the results of
such application. This information is furnished upon the condition that the person receiving
it shall make his own determination of the suitability of the material for his particular
purpose.
�
|