Occupational Exposure to Silica
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Transcript Occupational Exposure to Silica
Silica
Special Emphasis Program(SEP)
OSHA’s
Industrial Hygiene initiative
Collaboration of OSHA Compliance
and Consultation Programs
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Why Target Crystalline Silica
Exposure?
Widespread
occurrence and use
Number of related deaths
Number of exposed workers
Health effects
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Occurrence and Use
SiO2
- basic component of sand,
quartz & granite
Quartz - 2nd most common mineral
in the earth’s crust
Airborne silica is produced by:
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Industries
electronics
railroad
foundries
slate
and flint
quarrying and
ceramics, clay,
pottery, stone, and crushing
glass
use and manufacture
of abrasives
construction
mining
agriculture
maritime
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Occurrence and Use
Airborne
silica is
produced by:
–
–
–
–
–
–
sandblasting
rock drilling
foundry work
stone cutting
drilling
quarrying
– tunneling jack
hammering
– concrete manufacturing
– demolition
– asphalt pavement
manufacturing
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General Industry Targeting
Focused
to particular establishments
where overexposures to crystalline
silica are most likely or known.
Records review
– Silicosis diagnosis may include:
pneumoconiosis, fibrosis, respiratory
disease, non- malignant respiratory disease,
congenital heart failure
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Permissible Exposure Limit
(PEL)
10 mg/m3
= ? mg/m3
% Quartz +2
PEL for respirable dust
containing a % silica.
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Respiratory Protection
up to 0.25mg/m3
up to 0.50 mg/m3
PAPR, SAR
up to 1.25 mg/m3
up to 2.5 mg/m3
up to 50 mg/m3
APR w/HEPA, tightPAPR w/HEPA, full face
SAR or SCBA
SAR pressure demand
dust respirator
dust/mist,SAR, SCBA,
no single use or quarter
mask
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Silicosis Prevention Program
Medical surveillance program
– baseline examination
medical and occupational history
prior to exposure
– every 5 years if < 20 years of exposure
– every 2 years if > 20 years of exposure
– baseline chest x-ray
– pulmonary function tests (PFT)
– x-ray upon termination of employment
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Source: OSHA SEP
Silicosis Prevention Program
Personal
air monitoring program
Training and information on crystalline
silica
Availability of air and medical
surveillance data to workers
Respiratory protection program
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Source: OSHA SEP
Silicosis Prevention Program
Hygiene
facilities and clothing change
areas
Recordkeeping
Personal exposures below the PEL OR
facility has an abatement program that
provides interim worker protection
Housekeeping program
Regulated areas
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Source: OSHA SEP
Prevention of Silica Related
Diseases
250
Worker deaths per year
Silicosis
Silicosis/TB
Lung Cancer
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Health Effects
Acute
- intense crystalline silica
exposure
– acute silicosis (silico-proteinosis)
– inflammation in the gas exchange area
of the lung
– fibrosis
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Health Effects
Accelerated - more intense exposure over 5 to 15
years
– silicosis
– smaller fibrotic nodules
– massive fibrosis in the mid-zones of the lungs
– shortness of breath
– fever
– bluish skin at ear lobes or lips
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Health Effects
Chronic - 20 to 45 years prolonged exposure to
crystalline silica
– silicosis
– nodular lesions in upper lobes
– shortness of breath with exertion
– cough and expectoration
– fatigue
– loss of appetite
– chest pain (airway obstruction)
* x-ray (after 15-20 years) *
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Common Hazard
Abrasive
Paint
Blasting
Removal
Renovation
Road
& Demolition
Repair
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Exposure Controls
Substitution
Coal
slag (black beauty)
Steel grit
Aluminum oxide
Wild stuff (frozen co2,
walnut shells, baking soda)
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Exposure Controls
Wet Methods
Water
suppression of dust
Very effective method
May be less efficient
Requires supply of water and clean
up
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Exposure Controls
Power
tools with HEPA exhaust
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