PRODUCT INFORMATION
safety and handling guidelines
PRODUCT INFORMATION
safety and handling guidelines
Hydrogen peroxide is well-established as an environmentally-friendly
deodorizing and bleaching agent. Its uses include organic and
inorganic chemical processing, textile and pulp bleaching, metal
treating, cosmetic applications, catalysis of polymerization reactions,
municipal odor control, industrial waste treatment (detoxification),
and control of bulking in wastewaters. These uses are continually
expanding, making it a necessity not only to understand the mode
of hydrogen peroxide application but the safe handling of the
chemical as well.
A basic understanding of the properties of hydrogen peroxide is
essential to the safe handling of this chemical. Hydrogen peroxide
is clear, colorless, waterlike in appearance, and has a characteristic
pungent odor. Nonflammable, it is miscible with water in all
proportions and is sold as a water solution.
The amount of hydrogen peroxide in commercial solutions is expressed
as a percentage of the solution's weight. Thus, a 35% solution
contains 35% hydrogen peroxide and 65% water by weight. Most
municipal and industrial applications call for 35% or 50% concentrations.
The methods available for delivery to bulk storage installations
accommodate shipments of 70% hydrogen peroxide for dilution to
the 35% or 50% storage concentrations. Solutions containing more
than 8% hydrogen peroxide are classified by the U.S. Department
of Transportation (DOT) as an oxidizer.
Under normal conditions hydrogen peroxide is extremely stable
when properly stored. Rate loss in large containers such as tanks
is less than 1% per year at normal ambient temperatures; in small
containers, such as drums, rate loss is less than 2% per year.
The larger the ratio of the storage container surface areas to
the volume of hydrogen peroxide, the greater the rate loss.
Decomposition of hydrogen peroxide liberates oxygen and heat.
In dilute solutions the heat evolved is readily absorbed by the
water present. In more concentrated solutions, the heat raises
the temperature of the solution and accelerates the decomposition
rate. Special stabilizers are added during the manufacture of
all grades of hydrogen peroxide to inhibit the catalytic decomposition
effect of metals and other impurities that may accidentally contaminate
the chemical during shipment, storage, and handling.
However, since no additive will prevent decomposition if excessive
contamination occurs, the best practice is to prevent contamination
through proper handling. All handling procedures must, therefore,
be directed towards maintaining the same degree of purity and
freedom from contamination as is maintained during the manufacturing
process:
Hydrogen peroxide is not considered an explosive. However, when
it is mixed with organic substances at significant concentrations,
hazardous impact-sensitive compounds may result. Small amounts
of other materials that contain catalysts (silver, lead, copper,
chromium, mercury, and iron oxide rust) can cause rapid decomposition
and an explosive pressure rupture of the containing vessel if
it is not properly vented.
In addition to accelerated decomposition through contamination,
the decomposition rate of hydrogen peroxide is increased with
alkalinity, contact with certain materials of construction, and
increasing temperatures. The rate of decomposition increases
approximately 2.2 times for each 10 degrees C rise in temperature
in the range from 20 degrees C to 100 degrees C, or 1.5 times
for each 10 degrees F rise from 68 degrees F to 212 degrees F.
Decreasing temperatures have little effect on hydrogen peroxide
until they drop substantially below 0 degrees C. Crystals do not
begin to appear in 35% and 50% solutions until -33C (-27.4F) and
-52.2C (-62F), respectively.
Hydrogen peroxide and its decomposition products are not systematic
poisons but contact with hydrogen peroxide can be irritating.
Concentrated vapors cause discomfort in the mucous membranes
and the eyes. Contact of the eyes with hydrogen peroxide is particularly
dangerous because corneal burns can occur very rapidly. Therefore,
safety glasses or, preferably, goggles should always be worn when
handling concentrated hydrogen peroxide. If, however, any hydrogen
peroxide does get in the eyes, flush eyes thoroughly with water
and consult a physician promptly.
In addition to eye protection, rubber gloves and suitable protective
clothing such as aprons or coveralls made of polyester acrylic
fiber, polyvinyl chloride, polyethylene, or neoprene should be
worn when handling concentrated hydrogen peroxide. Protective
clothing, which lacks fire resistance, must be washed thoroughly
with water should it come in contact with hydrogen peroxide.
If allowed to dry in the fabric, the chemical may cause fire,
particularly if the clothing is soiled.
Contact with moderate concentrations of hydrogen peroxide will
cause whitening of the skin and stinging sensations. The whitening
is due to the formation of gas bubbles in the epidermal layer
of the skin. The stinging, in most cases, subsides quickly after
thorough washing, and the skin gradually returns to normal without
any damage. Highly concentrated hydrogen peroxide can cause blistering
if left on skin surfaces for any length of time.
Inhalation of hydrogen peroxide vapors can cause irritation and
inflammation of the respiratory tract. For this reason., The
American Conference of Government Industrial Hygienists has determined
a Threshold Limit Value (LTV) or 1 ppm (1.4mg/m3) of hydrogen
peroxide vapor in air as a maximum exposure limit for any eight-hour
workday of a normal 40-hour work week. If hydrogen peroxide vapor
is inhaled, fresh air should be sought at once; if the inhalation
has been prolonged, a physician should be consulted immediately.
Hydrogen peroxide, a mild disinfectant, is useful in counteracting
various microorganisms. Because of their antiseptic action, dilute
hydrogen peroxide solutions (3% or less) are frequently used to
treat open wounds and can be used as a gargle or mouthwash. However,
contact or concentrated solutions (over 3%) with the members of
the mouth is to be avoided. Under no circumstances should hydrogen
peroxide be taken internally. If hydrogen peroxide is swallowed,
drink water immediately to dilute, and contact a physician but
do not attempt to cause vomiting.
In using hydrogen peroxide, safety should be first in the minds
of everyone, and as with any other chemical, initial steps should
be taken to familiarize all personnel with its safe and proper
handling. Acceptance of hydrogen peroxide in a wide variety of
industrial applications is a reflection of its simplicity in use.
Maximum safety in handling hydrogen peroxide is assured through
the use of proper materials of construction, recognition of the
need for venting in storage, and overall avoidance of contamination.
The oxygen and water by-products of decomposition are innocuous,
but splashing, inhaling vapor, and ingesting hydrogen peroxide
must be avoided. If by unusual circumstances an accident should
take place, flushing with large quantities of plain water is the
simple corrective action needed. By adhering to straight-forward
common sense procedures, every aspect of your operation will be
aimed toward safety and a clean environment. ---FMC Pollution Control Release No. 24
Properties of Hydrogen Peroxide
Delivery and Storage
Hydrogen peroxide itself will not burn, but its decomposition
liberates oxygen which supports combustion. Fires involving hydrogen
peroxide are best controlled by using large quantities of water.
Eye Protection
Protective Clothing
Accidental Swallowing
 
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