Transcript Document

H2SiF6
Hexafluorosilicic Acid
Transportation & Safety
Compiled by G. Glasser, R. Gentle & R. Jones for the National Pure Water Association and UK Councils Against Fluoridation. 2005
H2SiF6
Information and documentation on this CD-ROM
were compiled from public domain sources and is
not for sale or resale
Every attempt was made by the researchers to
provide the most current information possible from
the most reliable sources
This presentation is meant only for educational
purposes and in the event of an incident, contact
the appropriate agencies and qualified Physicians
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All Fluorinated/Fluoride Chemicals can be
extremely dangerous when encountered in an
emergency situation:
• Fire and contact with certain chemicals can
cause a release of highly toxic and corrosive
vapours
• Fluoride-based acids and bases are extremely
toxic and can be absorbed through the skin
• Acute exposure can result in death
• Fluoride vapours can cause permanent damage
to the lungs and eyes
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All liquid fluoride acids should
be classified in an unique
category
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Hydrofluoric acid is the most
corrosive and toxic of the
fluoride acids
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Toxicological
The two mechanisms that cause
tissue damage are corrosive burn
from the free hydrogen ions and
chemical burn from tissue
penetration of the fluoride ions
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Fluoride ions penetrate the skin and
form insoluble salts with calcium
and magnesium
Soluble salts are also formed with
other cations in the body but
dissociate rapidly
Consequently, fluoride ions release,
and further tissue destruction
occurs
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Mortality/Morbidity:
Local effects include tissue destruction
and necrosis
Burns may affect underlying bone
Systemic fluoride ion poisoning from severe
burns is associated with hypocalcemia (low
Calcium levels), hyperkalemia (low Potassium
levels), hypomagnesemia (low magnesium
levels), and sudden death
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Inhalation of hydrofluoric acid vapours may
cause severe throat irritation, cough,
dyspnea, cyanosis, lung injury and
pulmonary oedema resulting in death
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While fluoride acids may not react as
rapidly as HF, the end result from
exposures will be the same if prompt
emergency treatment is not available
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NOTICE
Treatment for exposures:
Fluoride acid burns require immediate and specialised
treatment
Speed is of the Essence:
Delay in first aid or improper medical treatment may result
in greater damage or the result may be fatal
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Hydrofluoric acid (HF) is the base
product used to make any fluoride
acid
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What is H2SiF6?
Hydrofluoric Acid
+
Silicon Dioxide (Sand)
Hexafluorosilicic Acid (H2SIF6)
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CHEMICAL NAME OF SUBSTANCE
Fluorosilicic Acid
SYNONYMS:
• Fluorosilicic Acid
• Hydrogen hexafluorosilicate 40%
• Hydrofluorosilicic acid
• Fluosilicic acid
• Hexafluosilicic acid
• Silicofluoric acid
• Sand acid
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Sources
By-product from the manufacture of
phosphate fertiliser and hydrogen fluoride
All H2SiF6 is of a technical/commercial
grade used for drinking water fluoridation
and industrial production
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Appearance and Odour
Water white to straw yellow, fuming liquid, with
pungent odour
If you can smell it you are being OVEREXPOSED!
Technical Grade H2SiF6 can contain up to 2.0% hydrofluoric acid
Typical Concentrations 20% - 36% H2SiF6
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Transport and Storage
• Transport:
TPC class 8.9? b - TPF class 8.9? b - IMCO
class 8 - ADR class 8.8 b - RID class 8.8 b
• Storage:
Polyethylene drums. Rubber-coated tank-trucks
or containers with approximately 20 MT
capacity
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Uses
•
Drinking water fluoridation
•
Cement
•
Latex Foam Rubber
•
Ceramics and Glass: Glass etching
•
Electroplating
•
Sterilization of equipment
•
Tanning of animal hides
•
Commercial Laundry: As a neutralizer for alkalis
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INCOMPATIBLE PRODUCTS
• Metal, glass, stoneware, alkali and strong
concentrated acids
• Separate from strong bases, food and
foodstuffs
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FIRE AND EXPLOSION HAZARDS
• Wear approved self-contained acid suits
• Reacts with many metals to produce flammable and
explosive hydrogen gas
• Decomposition will occur above 22°F and produce
toxic and corrosive fumes of silicon tetrafluoride and
hydrogen fluoride
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SPILL OR LEAK
Emergency Action:
• Keep unnecessary people away
• Stay upwind, keep out of low areas
• Isolate hazard area and deny entry
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Small Spills
• Any personnel in area should wear an approved air
supplied acid suit
• Dike area to contain material
• Do not allow solution to enter sewers or surface water
• Neutralize the spill with water and lime (hydrated lime)
• Take up with sand or non-combustible absorbent material
and place in containers for later disposal
• Provide ventilation and be wary of hydrogen generation
upon reaction with some metals
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Large Spills
• Any personnel in area should wear an approved air
supplied acid suit
• Dike area ahead of spill to contain material. Do not
allow solution to enter sewers or surface water
• Neutralize the spill with water and lime (hydrated
lime)
• Provide ventilation and be wary of hydrogen
generation upon reaction with some metals
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Large Road or Motorway Spill
• Notify hospitals and paramedics of need
for specialised treatment
• Evacuate bystanders upwind 300 yards
• Evacuate residents in about an one-half
mile radius
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DO NOT
• Spray water directly onto acid
• Attempt to add a neutralising agent
directly into the acid
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PERSONAL PROTECTION INFORMATION
Respiratory Protection:
Use an approved cartridge respirator with fullface shield
Chemical cartridge should provide protection
against acid fumes (Hydrogen Fluoride)
For concentrations greater than 20ppm, an
approved self-contained breathing apparatus
with full-face shield should be used
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PERSONAL PROTECTION INFORMATION
Eye and Face Protection:
Use tight-fitting chemical splash goggles and
a full-face shield, 8 inch minimum
Contact lenses should not be worn
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PERSONAL PROTECTION INFORMATION
Hand, Arm and Body Protection:
Prevent contact with skin by use of acid- proof
clothing, gloves and shoes
Use an approved acid proof suit and boots
where liquid or high vapour concentration is
possible
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Symptoms of Exposure
Acute:
Liquid or vapours can cause severe irritation and
burns which may not be apparent for hours
Can cause severe irritation to the lungs, nose and
throat if swallowed, can cause severe damage to
throat and stomach, tetany and death
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Symptoms of Exposure
Chronic:
Prolonged exposure could result in bone changes,
corrosive effect on mucous membranes including
ulceration of nose, throat and bronchial tubes,
cough, shock, pulmonary oedema, Fluorosis
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Aggravated Medical Conditions
Any skin condition and/or pre-existing
respiratory disease including asthma and
emphysema
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EMERGENCY AND FIRST AID PROCEDURES
Inhalation:
Remove exposed person to an uncontaminated area
immediately
If breathing has stopped, start artificial respiration at once
Oxygen should be provided for an exposed person having
difficulty breathing (but only by an authorized person) until
exposed person is able to breathe easily by themselves
Exposed person should be examined by a physician
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EMERGENCY AND FIRST AID PROCEDURES
Skin Contact:
Exposed person should be removed to an
uncontaminated area and subjected immediately to a
drenching shower of water for a minimum of 15 to 20 minutes
Remove all contaminated clothing while under shower
Medical attention should be given as soon as possible for all
burns, regardless of how minor they seem
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EMERGENCY AND FIRST AID PROCEDURES
Eye Contact:
Flush eyes for at least 15 minutes with large amounts of water
Eyelids should be held apart during flushing to ensure contact
of water with all accessible tissue of the eyes and lids
Medical attention should be given as soon as possible
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Notes to Physicians:
Beware of late onset of pulmonary oedema for
up to 48 hours
Treat severe burns and inhalation exposures
the same as hydrofluoric acid exposures
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Notes to Physicians:
Toxicity:
Acute and sub-acute exposures to fluorides
from whatever source can be extremely
dangerous and should be treated with due
diligence
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Notes to Physicians:
Toxicological mechanisms:
1. Fluoride binds to metal-containing enzymes,
thereby inactivating them
2. Fluoride binds to calcium, resulting in severe
hypocalcemia
3. Fluoride binds to potassium and magnesium
ions leading to myocardial irritability and
arrhythmia (affects heart function)
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Notes to Physicians:
Toxicological mechanisms:
4. Fluoride may be directly toxic to the
Central Nervous System
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Notes to Physicians:
Dermal:
Removal or inactivation of the fluoride from
the site of contact is important and absorbed
fluoride must also be inactivated
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Notes to Physicians:
Dermal:
Exposed skin surfaces should be soaked In
a calcium or magnesium salt solution, gel or
paste
Alternatively, quaternary ammonium
compounds (e.g. benzalkonium chloride) may
be used
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Notes to Physicians:
Inhalation:
For serious inhalation exposures the victim
should be placed on a calcium gluconate
nebulizer as soon as possible
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Notes to Physicians:
Patients suffering with serious exposures
should have an immediate assessment of
serum calcium and electrolytes
Intravenous calcium gluconate, magnesium
gluconate and potassium to inactivate serum
fluoride and replenish electrolyte levels
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Notes to Physicians:
Blood calcium and electrolytes should be
measured every 6 hrs for at least the first 24 hrs
in severe cases
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Notes to Physicians:
As soon as possible, patients should be
placed on continuous electrocardiograph
monitoring for signs of hypocalcaemia or
dysrhythmia
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Example Incidents
•
1994 Deltona, Florida
•
2001 Port Avonmouth, Bristol
•
2005 Phoenix, Arizona
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Deltona, Florida, 1994
50 people went to hospital
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Some police and emergency workers
were in hospital for up to six weeks
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In a one mile radius, 2,700 people
were evacuated from their homes for
up to 24 hours
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Clean up required about four days
with crews working round the clock
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The USEPA advised residents not to
drink well water until it had been
tested for contamination
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All ground water in the area was tested
for contamination
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Port Avonmouth, UK, 27 April 2001
• Avonmouth, Bristol, a portable tank of H2SiF6 was
damaged in transit from Bilboa, Spain
• Upon discovering the damaged container, the
Bristol Port Company declared a "Port Emergency"
and a "Major Incident"
• Much of the port was effectively shut down for
about 30 hours
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• The tank had three patches on the liner.
Two were faulty and the third was made of
an incompatible material. The two faulty
patches began to leak
• Within 72 hours, the H2SiF6 ate through an
8.0 mm steel shell and the tank sprung two
leaks
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Corrosion to 8.0 mm tank shell in about 72 hrs
Maritime and Coast Guard Agency, Dutch Navigator Incident report 2003
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The damaged tank carried about 22,000 litres of H2SiF6
Maritime and Coast Guard Agency, Dutch Navigator Incident report 2003
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Phoenix, 03 February 2005
• A spill of 110 gallons of hydrofluosilicic acid occurred from a
leaking tanker lorry in downtown Phoenix, Arizona
• Sixteen people were sent to hospital, including eleven
policeman and three firemen
• 9,554 people were notified by a reverse 911 emergency
service phone system to stay indoors or in some type of
protective shelter
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The Phoenix fire chief issued a statement
to the press saying that, because of the
nature of the spill, inhalation exposure
was a minimal risk
He said, however, skin contact with the
hexafluorosilicic acid could be deadly
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Bulk loads of H2iSF6 and hydrofluoric
acid are being transported on UK roads
and motorways everyday
‘It is not a question’ of if a major incident
will happen, ‘it is only when’
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WARNING
Health and Safety Executive's (HSE)
Conditions for Approval of Examination
Schemes and Programmes set out no detailed
requirements for container condition.
Internationally agreed standards for container
maintenance are not mandatory in the UK
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