OCCUPATIONAL
NOISE
AMI Environmental
Environmental Health & Safety
Dan Taylor
www.amienvironmental.com
BIO
AMI Environmental
 AMI Environmental is a full-service environmental consulting and
remediation firm, specializing in facility-based environmental problems
affecting facility operations, renovation and demolition activities.
Established in 1986 and headquartered in Omaha, Nebraska, AMI
services clients nationally and internationally.
 Dan Taylor, CEO
 Over 25 years Environmental Health &
Safety Experience
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SUMMARY
How We Got Here
 1969-DOL issued the Walsh-Healey noise standard 90 dBA for 8 exp.
Federal contracts of $10,000 or more.
 1970- DOL issues Bulletin 334. “Continuous, Effective Conservation
Program”
 1970 Congress passes OSH Act. “Every Man and Women”
 1971-OSHA made the Walsh-Healey noise standard an OSHA standard.
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DID YOU KNOW?
 Noise induced hearing loss is the most common
occupational hazard for American workers.
 Hearing loss from noise is slow and painless; you can
develop a disability before you notice it.
 If you must raise your voice to speak
with someone only 3 feet away, you are
in high (hazardous) noise.
 It is 100% preventable.
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WHAT IS NOISE?
 Noise is defined as:
• Sound or a sound that is loud, unpleasant, unexpected,
or undesired.
• By product of many industrial processes (ex. operating
machinery)
• Exposure to high levels of
noise may lead to
hearing loss
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HOW MUCH NOISE IS TOO MUCH?
 85 Decibels (dB) - the "Action Level" where hearing
protection is required.
 90 dB - the OSHA, 8 hour average exposure limit.
 100 dB - exposures longer than 15 minutes are not
recommended.
 110 dB - regular exposure of more than 1 minute risks
permanent hearing loss
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NOISE PERMISSIBLE EXPOSURE LIMITS
(PEL)
• Utilize administrative or engineering controls
when sound levels exceed Noise permissible
Exposure Levels.
(8 hours permitted duration per workday for
90 dBA sound level)
• Provide hearing protection if above controls fail
to reduce sound levels within Permissible
exposure levels
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NOISE REGULATIONS
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HEARING CONSERVATION PROGRAM
 Implemented whenever employee noise exposures equal or exceed an
8 hour time-weighted average (TWA) of 85 dBA without attenuation
from use of hearing protection.
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ELEMENTS OF HEARING CONSERVATION
PROGRAM
 Noise Monitoring
 Hearing Protection
 Audiometric Testing
 Training
 Record Keeping
HEARING CONSERVATION PROGRAM GUIDELINE
OSHA Noise Standard and Hearing Conservation Amendment 29 CFR 1910.95
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RULE OF THUMB
When you feel the need to shout in
order to be heard 3 feet away, the
noise levels are probably 85 dB or
more and hearing protection is
recommended.
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ANATOMY & PHYSIOLOGY OF THE EAR
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SOUND PRESSURE LEVEL
Definition: the local pressure deviation from the ambient (average, or equilibrium) atmospheric
pressure caused by a sound wave.
 Sound waves are energy produced by vibrating objects
 The larynx vibrates to produce the voice
 The vibrations create a pattern, which the ear translates into
sound
 As you double the distance from a noise source loudness
decreased by half
 Strong vibrations from very loud noises can damage the ear
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HOW WE HEAR SOUNDS
 Sound waves enter the ear canal striking the eardrum.
 When the eardrum vibrates, ossicles conduct vibrations to the cochlea.
 Tiny hair like cells in cochlea respond to vibrations by generating nerve
impulses.
Healthy hair cells are the key to good hearing. Although, some die off
naturally as you age, many more are killed early from unprotected exposure
to hazardous noise.
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EFFECTS OF NOISE ON HEARING
 How quickly hearing loss takes place depends on the intensity of the
noise, its duration, and how often the exposure occurs.
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SYMPTOMS OF OVEREXPOSURE TO NOISE
 Temporary Threshold Shift
 Muffled sound after noise exposure
 If continued overexposure, this can worsen and become permanent.
 Tinnitus
 Ringing in the ears
 If continued overexposure, this can become permanent.
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HOW HEARING IS DAMAGED
 Hair like cells are flattened
 You don’t get used to noise; you gradually loose your hearing
 Once hearing is damaged it can not be repaired.
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SIGNS OF HEARING LOSS
 Difficulty hearing people speak
 Inability to hear certain high pitched or soft sounds
 Noise or ringing in the ears
 Complaints that the
radio or tv is too loud
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TYPES OF HEARING LOSS
 Conductive
 Caused by something that stops sound from reaching the outer or
middle ear (infection, foreign bodies, fluid, earwax, malformation of ear)
 Sensorineural
 Hearing loss that occurs when there is a problem with the nerve in
the middle ear.
 Caused by birth injury, disease, noise exposure, trauma, and ageing
 Mixed
 Hearing loss that includes both conductive and sensorineural
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NOISE INDUCED HEARING LOSS
 Noise induced hearing loss occurs from exposure to loud noises.
 Constant exposure over a period of time
 Exposed to sound levels over 140 dBA
 Tinnitus
 Age induced hearing loss
 Hereditary
 Nerve damage
 Exposure to high sound levels
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OCCUPATIONAL/NON OCCUPATIONAL
HEARING LOSS
 Occupational Hearing Loss
 Results from constant exposure to sound levels above 85 dBA TWA
 Damage to hair cells in cochlea
 Non-Occupational Hearing Loss
 Results from constant exposure to sound levels above 85 dBA TWA
 Results from damage to outer, middle or inner ear, hereditary,
ototoxic drugs
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STATISTICS ON OCCUPATIONAL
HEARING LOSS
 Four million workers go to work each day in damaging noise. Ten million
people in the U.S. have a noise-related hearing loss. Twenty-two million
workers are exposed to potentially damaging noise each year.
 In 2008, approximately 2 million U.S. workers were exposed to noise levels
at work that put them at risk of hearing loss.
 In 2007, approximately 23,000 cases were reported of occupational hearing
loss that was great enough to cause hearing impairment.
Reported cases of hearing loss accounted for 14% of occupational illness in
2007.
 In 2007, approximately 82% of the cases involving occupational hearing loss
were reported among workers in the manufacturing sector.
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EFFECTS OF NOISE ON HEARING
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RECOGNIZING OCCUPATIONAL
HAZARDOUS NOISE
 Operating fork lift
 Cutting Wood
 Cutting Lawn
 Welding
 Grinding
 Chipping Concrete
 Working near Generator
 Operating Chop Saw
 Stationary Power Tools
 Screw Gun, Drill
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RECOGNIZING NON OCCUPATIONAL
NOISE
 Household Noises
 Vacuum
 Lawn mower
 Power tools
 Ipod Boombox
 Noisy Hobbies
 Loud music
 Firearms
 Car/motorcycle race track
 Sporting events
 Loud speakers
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NOISE MONITORING
 Used to identify work locations where hazardous noise levels exist.
 Exposures to noise monitored periodically with:
 Sound level meter (area noise level)
 Noise Dosimeter
(personal noise exposure level)
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NOISE MAPPING (AREA MONITORING)
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NOISE DOSIMETRY (PERSONAL
MONITORING)
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PERMISSIBLE EXPOSURE LIMITS
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IMPACT OR IMPULSIVE NOISE
 Exposure to impact of impulsive noise should not exceed
140 dB peak
sound pressure level.
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AFFECTED EMPLOYEES
 Employees subjected to noise exceeding permissible noise limits shall be
provided hearing protection devices, if feasible administrative or
engineering controls failed to reduce noise levels.
 Employee exposed to noise at or above the 8 hour TWA of 85 dB, or
equivalently, a dose of 50% shall be notified and enrolled in HCP.
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NOISE CONTROL
 Administrative Control
 Engineering Control
 Personal Protective Equipment (hearing protective devices)
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ADMINISTRATIVE CONTROL
 Operate noisy equipment on second or third shifts.
 Rotate employees through high noise areas.
 Modify existing machinery
 Place noise limit specs on new equipment
 Maintain equipment, keep in good condition
 Report noisy equipment to supervisor for repair.
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ENGINEERING CONTROLS
 Reduce noise at the source
 Interrupt the noise path
 Reduce reverberation and structural vibration
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PERSONAL PROTECTIVE EQUIPMENT
(HEARING PROTECTION DEVICES HPD)
 Employers shall provide employees exposed to 8 hr TWA of 85 dB at
no cost.
 Employers shall ensure being worn:
 By employees exposed to 8 hr TWA of 90 dB or greater
 By employees exposed to 8 hr TWA of 85 dB or greater and
 Whose baseline audiogram has not been established
 Who have experienced a threshold shift
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HEARING PROTECTION DEVICE HPD
NOISE REDUCTION
 HPD must reduce employee noise exposure below PEL (8 hr TWA of
90 dB)
 Employees with standard threshold shift (STS) HPD must reduce
employees noise exposure below an 8 hr TWA of 85 dB.
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HEARING PROTECTION USE
 Voluntary Use
 Exposed to an 8 hr TWA of 85 dB
 Mandatory Use
 Exposed to an 8 hr TWA of 90 dB
 Exposed to an 8 hr TWA of 85 dB but have not had a baseline hearing test
 Employees who have suffered STS hearing loss an dare exposed to an 8 hr TWA of
85 dBA
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EMPLOYEE RESPONSIBILITY
 Understand the need for hearing protection devices
 Wear HPDs and seek replacements
 Encourage co workers to wear HPDs
 Communicate problems to supervisors
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MANAGEMENT RESPONSIBILITY
 Provide occupational noise training
 Provide hearing protection devices
 Demonstrate commitment (wear HPDs)
 Enforce the use of HPDS
 Keep up to date with HPD selection and use.
 Encourage questions and resolve problems.
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PURPOSE OF HEARING PROTECTORS
 Reduction of sound waves traveling to the inner ear.
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ADVANTAGES AND DISADVANTAGES OF
DIFFERENT TYPES OF HEARING
PROTECTORS
Earplugs
Earmuffs
Advantages
Small & easily carried, convenient to use
with other PPE, more comfortable in
hot, humid work areas and convenient
for use in confined work areas.
Advantages
Less attenuation variably among users,
designed so that one size fits most hat
sizes, may be worn with minor ear
infections and not easily misplaced or
lost.
Disadvantages
Require more time to fit, difficult to
insert or remove, may irritate the ear
canal, easily misplace, more difficult to
see and monitor use, get dirty when
your hands are dirty.
Disadvantages
Heavier, less portable, inconvenient for
use with other PPE, uncomfortable in
hot humid work areas, inconvenient for
use in confined areas.
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ATTENUATION OF DIFFERENT TYPES OF
HEARING PROTECTORS
 Ear Plugs
 Reduce noise by as much as 30 decibels
 Ear Canals
 Reduce noise by as much as 30 decibels
 Used when individual is unable to use traditional ear plugs
 Ear Muffs
 reduce noise by as much as 15-30 decibels
 Use in conjunction with ear plugs when exposed to high noise levels (105+ decibels)
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INSTRUCTIONS ON SELECTION, FITTING,
USE, AND CARE OF HEARING
PROTECTORS
 Earplugs
 Keep clean and free of materials
 Wash in mild liquid detergent and warm water
 Squeeze excess water and air dry
 Discard plugs when hardened or do not re expand
 Ear Canals
 Clean like normal ear plugs
 Do not tamper with the headband and the acoustic seal
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INSTRUCTIONS ON SELECTION, FITTING,
USE, AND CARE OF HEARING
PROTECTORS
 Ear Muffs
 Keep clean and free of debris
 Clean cushions with warm soapy water
 Do not tamper with the acoustic seal between the cushions and the headband
 Do not modify the ear muffs in any way
 Do not stretch or abuse the headband
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TRAINING
 Provide annually to employees who are exposed to noise at or above 8
hr TWA of 85 dB.
 Topics must include
 Effects of Noise on Hearing
 Purpose of Hearing protectors
 Advantages and Disadvantages of Different Types of Hearing Protectors
 Instruction on Selection, Fitting, Use, of Hearing Protectors
 Purpose of Audiometric Testing
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QUESTIONS & ANSWERS
Q &A
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