aln about nrr - a little noise about noise reduction ratings presented at the 2007 “tidewater ls...
TRANSCRIPT
ALN about NRR - A Little Noise about Noise Reduction
Ratings
Presented at the 2007 “Tidewater LS AIHA Fall PDC” on Nov 16, 2007 by Christopher D. Jones,
MS, CIHNAVMEDCEN Portsmouth, IH
Department
November 16, 2007
BACKGROUND Think back, way back, to your early career
education in industrial hygiene or safety, to the time you first heard about "the hierarchy of controls"
November 16, 2007
BACKGROUND Remember them?
Engineering controls; then Administrative controls; and finally Personal Protective Equipment
We are all pretty comfortable with this method of prioritization to respond to occupational stressors in our workplace when we are assessing personnel exposures to odds and ends
November 16, 2007
BACKGROUND For some reason, it is second nature for us to
recommend an engineering control for paint mist before we jump on a respirator ….
November 16, 2007
BACKGROUND But we forget all about this when we are
dealing with noise; put plugs in their ears or muffs on their head is often choice #1, not choice #3
November 16, 2007
BACKGROUND If we put someone in a half mask respirator for
protection against dust, what is the assigned protection factor for that mask/filter combination?
Ten - regardless of respirator manufacturer
If, on the other hand, you put earplugs inside the ear canal of an employee, what is the "assigned protection factor" for that plug?
It depends on who made the plug
November 16, 2007
WHAT'S AN NRR? The EPA requires that HPDs be labeled with
their noise reduction rating, the NRR; a single number rating of the hearing protection; the higher the NRR, the higher the attenuation for a specific ideal situation ("The Occupational Environment - Its Evaluation and Control", aka., the "White Book", AIHA, 1997)
Two kinds, A = the one on the box; and B = a subject/fit NRR, a special one, hard to find
Test frequencies = 125, 250, 500, 1000, 2000, 3150, 4000, 6300 and 8000 Hz
November 16, 2007
WHAT'S AN NRR? The NRR doesn't provide an accurate estimate
of the true attenuation provided to the wearer, because it can be affected by fit, insertion technique, and the noise level in the work environment
Since the NRR isn't a solid number to hang your hat on, how do you use it?
"Derate" it - adjust it in some fashion to better reflect a "real world" level of protection that the HPD provides
November 16, 2007
DERATING AN NRR - the OSHA way Adjust or derate the NRR, then compare the new #
to your measured noise exposure In Appendix B of OSHA's general industry noise
standard, 29 CFR 1910.95, OSHA recommends a method to derate the NRR to determine the adequacy of selected HPD:
Estimated Exposure (dBA) = TWA (dBA) - (NRR -7) If using dBC values, Estimated dBA = TWA (dBC) - NRR
Example: TWA = 100 dBA; NRR = 19 X = 100 - (19 - 7) = 88 dBA
November 16, 2007
DERATING AN NRR - the OSHA way How do you derate double hearing protection? OSHA says 5 dB can be added to the NRR of
the most protective device
Example: Noise TWA = 100 dBA; NRR = 19 for a muff, 30 for a plug; the assigned NRR for this combo is 30 + 5 = 35
Estimated Exposure (dBA) = TWA (dBA) - (NRR -7)
X = 100 - (35 - 7) = 72 dBA
November 16, 2007
DERATING AN NRR - the OSHA way, Part II OSHA directs inspectors to take into consideration
the relative performance of HPDs; derate the NRR by 50% (E.A.R Log 20, "The Naked Truth About NRRs", Cabot Safety, 1993; also found on OSHA's web site at www.osha.gov/dts/osta/otm/noise/hcp/
attenuation_estimation.html) This derating has no relationship to the just
mentioned 7 dB correction spelled out in 1910.95; this derating adjusts NRRs to "real world" performance, whereas the 7 dB correction adjusts the NRR to a dBA measurement
November 16, 2007
DERATING AN NRR - the OSHA way, Part II So here's how OSHA inspectors derate HPDs to
determine the relative performance of HPDs; they cut it in half!
Estimated Exposure (dBA) = TWA (dBA) - [(NRR -7) X 50%]
Example: TWA = 100 dBA; NRR = 19 Estim. Exposure = 100 - [(19 - 7) X 50%] = 94 dBA The relative performance of an NRR of 19 is 6
November 16, 2007
DERATING AN NRR - the NIOSH way NIOSH has an even more exciting way to
determine a "true" NRR; the NRR is adjusted by the type of protection you are getting ready to wear (see "Criteria for a Recommended Standard, Occupational Noise Exposure, Revised Criteria 1998 " NIOSH, 1998)
Earmuffs = subtract 25% from the MFR NRR Formable plugs = subtract 50% from the MFR
NRR All other plugs = subtract 70% from the MFR
NRR
November 16, 2007
DERATING AN NRR - the NIOSH way So here's how NIOSH asks you to derate HPDs
Effective A-weighted noise level (ENL, dBA) = dBA - (derated NRR -7)
Example ENL: TWA = 100 dBA; NRR = 19 Muffs = 100 - [(19 X .75 = 14) - 7] = 93 dBA Form. plugs = 100 - [(19 X .50 = 10) - 7] = 97 dBA Other plugs = 100 - [(19 X .30 = 6) - 7] = 101 dBA ?
Whoa, it got louder???
November 16, 2007
REAL WORLD CYPHERIN' WITH DERATED NRRs We (NAVMEDCEN Portsmouth IH Dept) have
started collecting noise dosimetry data and paying more attention to the brand of HPD in use by the sampled individual
We can take our measured TWA (dBA), compare it to the derated NRR, and calculate a "corrected TWA"
This will help us make determinations about HPD effectiveness; might cause us to pursue new brands of HPDs instead of the brands currently in use
November 16, 2007
REAL WORLD CYPHERIN' WITH DERATED NRRs There are multiple OELs in our IH world
OSHA = 90 dBA, 5 dB exchange rate ACGIH = 85 dBA, 3 dB exchange rate DOD = 85 dBA, 3 dB exchange rate US Navy = 84 dBA, 4 dB exchange rate
We measured five TWAs at one facility (an aircraft squadron) and three were > Navy OEL or 84 dBA; after derating, two of the exposures were still above the Navy OEL
Let's look ….
November 16, 2007
REAL WORLD CYPHERIN' WITH DERATED NRRs Adjusted TWAs after derating MFR NRRs
Sam # TWA dBA
MFR NRR
Derated NRR
Adjust. TWA
1 92.0 30* 12 80
2 75.2 14 3.5 71.7
3 71.1 21 7.0 64.1
4 92.0 14 3.5 88.5
5 96.3 14 3.5 92.8
November 16, 2007
DERATING AN NRR - the super cool 21st Century way You can have an NRR that is specific to you and a
particular insert plug - personalized just for you Takes into consideration the way you inserted the
plug, the shape of your ear canal, and your hearing thresholds at the testing frequencies
A new hardware/software combo, "Fit Check" from Michael and Associates (michaelassociates.com) allows you to insert plugs (or wear muffs), put on some headphones, and get an audiometric test while wearing those plugs; results given as a personal attenuation rating (PAR);
November 16, 2007
DERATING AN NRR - the super cool 21st Century way Three plugs, one head (mine), four ways of
looking at them; PAR = personal attenuation ratingModel NRR NRR - 7 NRR -7
X 50%PAR
Spark-plug
33 26 13 14
EAR UltraFit
25 18 9 3
Elvex Quattro
25 18 9 22
November 16, 2007
WHAT DOES THIS ALL MEAN? We probably ought to take a closer look at the
brands and types of HPDs that are being worn in our facilities; an NRR in single digits is not doing anyone any favors
If you routinely use insert plugs, grab moldable plugs; they usually have an NRR of around 30
If you use the OSHA 1910.95 Appendix B protocol, (NRR -7), then a 30 is a 23 If you use the OSHA 50% derating protocol, [(NRR -7) X 50%], then a 30 is a 12
November 16, 2007
WHAT DOES THIS ALL MEAN? If turtles could fly and we all had budgets that
are appropriate for what we do … we'd determine PARS for each of our employees so we could give them the best plug possible
Just three grand puts the Fit Check system in your hand!
Perfect plugs prevent poor performance!
November 16, 2007
CONCLUSION Any questions? Now go forth and measure,
brothers and sisters …