1 / 34

Samar El-Sayed

Samar El-Sayed. Noise. Sound is Vibrational Energy. Travels in Waves from a Source. FREQUENCY INTENSITY. Cycles per Second Hertz (Hz). loudness of the sound Decibels (dB). How We Hear. Sound waves enter the ear canal striking the eardrum.

sadah
Download Presentation

Samar El-Sayed

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Samar El-Sayed Noise

  2. Sound is Vibrational Energy Travels in Waves from a Source FREQUENCY INTENSITY Cycles per Second Hertz (Hz) loudness of the sound Decibels (dB)

  3. How We Hear • Sound waves enter the ear canal striking the eardrum. • When eardrum vibrates, ossicles conducts vibrations to the cochlea. • Tiny hairlike cells in cochlea respond to vibrations by generating nerve impulses. • Brain interprets nerve impulses as sound. Chem/Elec Acoustical Hydraulic Mechanical

  4. What is Noise? • Unwanted or undesired sound. • Sound that has potential to cause hearing impairment. • An intense sound capable of damaging the inner ear

  5. Effectsof Noise • Auditory • Acute acoustic trauma Sudden, permanent SNHL caused by single exposure to an intense Impulse sound, 130-140dB • Noise-induced hearing loss • Extra – auditory • Interfere with communication • Physiological effects • Annoyance

  6. Auditory effects of Noise Temporary threshold shift (TTS) • Temporary loss of hearing shortly after exposure to noise. • Resolves over a period of hours or days • Permanent threshold shift (PTS) • Permanent hearing loss due to damage of sensory cells.

  7. Hearing and Frequencies • Nerve cells in the cochlea are tuned to specific frequencies • Base of the cochlea is sensitive to high frequency sounds(red dots) • Tip of the cochlea is sensitive to low frequency sounds(green dots)

  8. Low noiseNormal cochlea At safe noise levels, sound waves move along the cochlea without damaging receptor cells • Safe Noise Levels

  9. High noiseDamaged cochlea High noise levels damage the first turn of the cochlea – where high frequency sounds are heard…and lost • Loud Noise Levels

  10. Is Permanent + 100% Preventable Noise-Induced Hearing Loss • Causes no pain • Causes no visible trauma • Leaves no visible scars • Is unnoticeable in its earliest stages • Takes years to notice a change

  11. Time-linked to noise exposure • High-frequency hearing loss • Usually bilateral (both ears) • Gradual progression over time • mostly irreversible • Appropriate symptoms (tinnitus, muffled hearing) • Indicators of NIHL

  12. Noise + Acoustics • Hearing Conservation Program • Action Level – 85 dB • Hearing Conservation Program implemented • Hearing protectors made available • Annual audiometric testing & training Permissible Exposure Limit – 90 dB • Hearing protectors required 90 95 85 dB TWA

  13. Elements of Hearing Conservation Program • Noise control measures • Engineering • Administrative • Hearing Protectors • Workers education • Noise Monitoring • Periodic audiometric evaluation

  14. ENGINEERING CONTROLS • Vibration Pads • Enclosures • Barriers • Isolation • ADMINISTRATIVE CONTROLS • Rotate Workers • Extended Breaks • 2nd/3rd Shift PERSONAL PROTECTIVE EQUIPMENT Hierarchy of Controls

  15. Time Weighted Average Permissible Exposure Limits

  16. Time Weighted Average 4 95 Permissible Exposure Limits

  17. Hearing Protection SelectionEarplugs • Advantages • Comfortable for extended use • Free head movements • Good for tight work spaces • Worn with hats, eye protection, respirators • Disadvantages • Must be replaced periodically • Small and can easily be lost • Hygiene issues in dirty environments

  18. Hearing Protection SelectionBands • Advantages • Very convenient for intermittent noise • Readily available around neck when not in use • Disadvantages • Lower attenuation than most earplugs • Some noise transmission through band

  19. Hearing Protection SelectionEarmuffs • Advantages • Easy to get proper fit • Good for intermittent noise • Advantages • Can feel hot/heavy with extended wear • Compatibility with other PPE

  20. The right hearing protector should feel comfortable • One protector may not satisfy all workers • Offer a variety of earplugs or earmuffs to meet varying worker needs and preferences • Proper care and maintenance can extend life and performance of HPDs • Examine and clean all multiple-use earplugs daily • Clean and replace ear cushions on earmuffs every 4-6 months • Select HPDs that can work with other PPE without compromise • Cap-mounted earmuffs for hard hats • Multiple-position earmuffs for full-brim hard hats • Ultraslim neckband earmuffs with welding shields Comfort Noise Reduction • Selecting HPDs with suitable attenuation for noise environment • Avoid overprotection in marginal noise environments • Consider banded earplugs for intermittent noise or electronic earmuffs for impact noise. • Every ear canal has its own shape and size • Ensure proper fit with variety of earplug sizes and shapes • Sized multiple-use earplugs • Low-pressure foam earplugs for smaller ear canals • Consider job requirements in HPD selection • Detectable earplugs for process industries • Hi-visibility earmuffs for dark/high traffic areas • Dielectric HPDs for electrical environments Size • Keep workers connected to their environment • Uniform attenuation allows speech/signals to be hear more naturally • Sound amplification earmuffs for workers with hearing impairment Communication Job Requirements Hygiene Use with Other PPE Hearing Protection Selection Factors

  21. 0 dB 0 dB 33 dB EAR #1 EAR #2 EAR #3 How much protection?

  22. Workers education • Effects of noise on hearing • Purpose of hearing protectors • Advantages and disadvantages of different types of hearing protectors • Attenuation of different types of hearing protectors • Instructions on selection, fitting, use, and care of hearing protectors • Purpose of audiometric testing

  23. Noise Measurement Devices PERSONAL DOSIMETER Sound “averaged” throughout day for sample employee/job SOUND LEVEL METER Sound is measured immediately in a specific area

  24. Pure tone audiometry • Basic test to find out if a hearing loss is present or not. • During the test the test person wears a headphone or insert ear phones through which pure tones at different frequencies are being presented. • level at which tones are barely audible is found, is the hearing threshold levels

  25. .

  26. Speech audiometry • A speech reception threshold (SRT) • Two-syllable words like "hotdog," baseball," and "cupcake" are presented at various intensity levels and the worker repeats them or point to a picture. • SRT is determined by the lowest level of sound intensity needed for the patient to correctly identify 50% of these words.

  27. Speech audiometry • Speech discrimination test • Evaluates the patient's ability to comprehend a list of single-syllable words presented at a comfortable listening level. • The percentage of words the worker is able to correctly repeat or identify is then recorded.

More Related