![Noise regulation
Noise regulation includes statutes or guidelines relating to
sound transmission established by national, state or
provincial and municipal levels of government. After a
watershed passage of the U.S. Noise Control Act of
1972[1], the program was abandoned at the federal level,
under President Ronald Reagan, in 1981 and the issue was
left to local and state governments. Although the UK and
Japan enacted national laws in 1960 and 1967 respectively,
these laws were not at all comprehensive or fully
enforceable as to address (a) generally rising ambient noise
(b) enforceable numerical source limits on aircraft and
motor vehicles or (c) comprehensive directives to local
government.](https://image.slidesharecdn.com/noisepollution-231214052836-cb42f6fa/85/Noise-pollution1Noise-pollutionNoise-pollution-ppt-12-320.jpg)
![Local noise regulation
Dr. Paul Herman wrote the first comprehensive noise codes in 1975 for Portland, Oregon with
funding from the EPA (Environmental Protection Agency) and HUD (Housing and Urban
Development). The Portland Noise Code became the basis for most other ordinances for major
U.S. and Canadian metropolitan regions.[18]
Most city ordinances prohibit sound above a threshold intensity from trespassing over property line
at night, typically between 10 p.m. and 6 a.m., and during the day restricts it to a higher sound
level; however, enforcement is uneven. Many municipalities do not follow up on complaints. Even
where a municipality has an enforcement office, it may only be willing to issue warnings, since
taking offenders to court is expensive.
The notable exception to this rule is the City of Portland Oregon which has instituted an aggressive
protection for its citizens with fines reaching as high at $5000 per infraction, with the ability to cite a
responsible noise violator multiple times in a single day.
Many conflicts over noise pollution are handled by negotiation between the emitter and the
receiver. Escalation procedures vary by country, and may include action in conjunction with local
authorities, in particular the police. Noise pollution often persists because only five to ten percent of
people affected by noise will lodge a formal complaint. Many people are not aware of their legal
right to quiet and do not know how to register a complaint](https://image.slidesharecdn.com/noisepollution-231214052836-cb42f6fa/85/Noise-pollution1Noise-pollutionNoise-pollution-ppt-13-320.jpg)
Noise pollution1Noise pollutionNoise pollution.ppt
- 1. NOISE MEASUREMENT & ABATEMENT J (Hans) van Leeuwen CE/AE/EnSci 524
- 2. The nature of sound Sound, a manifestation of vibration, travels in wave patterns through solids, liquids and gases. The waves, caused by vibration of the molecules, follow sine functions, typified by the amplitude and wavelength (or frequency) Sound waves of equal amplitude with increasing frequency from top to bottom
- 6. Sound power and intensity
- 8. Sound pressure for known sounds
- 9. How sound is measured •Pressure, P, usually Pascals •Frequency, f, usually Hertz •Intensity, I, usually W/m2 •Bels, L’, derived from logarithmic ratio •Decibels, L, derived from bels P = 1/f I = W/A L’ = log (Q/Qo) L = 10*log (Q/Qo) E.g. Implications of the decibel scale: doubling sound level would mean that the sound will increase by 10*log2 = +3dB Ten times the sound level = 10*log10 = +10dB
- 10. Exposure to high sound levels
- 11. Reflecting on noise “Noise" derived from "nausea," meaning seasickness Noise is among the most pervasive pollutants today Noise is unavoidable for many machines We experience noise in a number of ways environmental cause and victim generated by others “second-hand” Noise negatively affects human health and well-being The air into which second-hand noise is emitted and on which it travels is a "commons“, a public good
- 12. Noise regulation Noise regulation includes statutes or guidelines relating to sound transmission established by national, state or provincial and municipal levels of government. After a watershed passage of the U.S. Noise Control Act of 1972[1], the program was abandoned at the federal level, under President Ronald Reagan, in 1981 and the issue was left to local and state governments. Although the UK and Japan enacted national laws in 1960 and 1967 respectively, these laws were not at all comprehensive or fully enforceable as to address (a) generally rising ambient noise (b) enforceable numerical source limits on aircraft and motor vehicles or (c) comprehensive directives to local government.
- 13. Local noise regulation Dr. Paul Herman wrote the first comprehensive noise codes in 1975 for Portland, Oregon with funding from the EPA (Environmental Protection Agency) and HUD (Housing and Urban Development). The Portland Noise Code became the basis for most other ordinances for major U.S. and Canadian metropolitan regions.[18] Most city ordinances prohibit sound above a threshold intensity from trespassing over property line at night, typically between 10 p.m. and 6 a.m., and during the day restricts it to a higher sound level; however, enforcement is uneven. Many municipalities do not follow up on complaints. Even where a municipality has an enforcement office, it may only be willing to issue warnings, since taking offenders to court is expensive. The notable exception to this rule is the City of Portland Oregon which has instituted an aggressive protection for its citizens with fines reaching as high at $5000 per infraction, with the ability to cite a responsible noise violator multiple times in a single day. Many conflicts over noise pollution are handled by negotiation between the emitter and the receiver. Escalation procedures vary by country, and may include action in conjunction with local authorities, in particular the police. Noise pollution often persists because only five to ten percent of people affected by noise will lodge a formal complaint. Many people are not aware of their legal right to quiet and do not know how to register a complaint
- 14. Aircraft noise FA-18 Hornet breaking sound barrier
- 15. Adding noise sources and subtracting background noise 10 log 2 = 3 dB
- 16. Chart method – adding decibels
- 17. Chart method – subtracting background noise
- 19. Sound and human hearing People generally hear sounds between the “threshold of hearing” and the “threshold of pain” In terms of pressure, this is 20 μPa – 100 Pa The decibel scale was developed from this fact and makes numbers more manageable The decibel scale generally ranges from approximately 0 to 130
- 20. How Sound is Heard
- 21. Human hearing and Frequency 0 16 Hz 20 kHz 5 MHz
- 22. Sound and human hearing – Frequency Humans are less sensitive to low frequency sound and more sensitive to high frequency sound. Therefore, sometimes the dB scale is adjusted to take this into account: A-weighting (db(A)): adjusts overall scale so it better matches what the human ear would hear C-weighting (dB(C)): adjusts scale for loud or low frequency sounds B-weighting (dB(B)): adjusts by factors that are “in between” the A-weighted factors and C- weighted factors (rarely used)
- 23. The filters used for dBA and dBC The most widely used sound level filter is the A scale, which roughly corresponds to the inverse of the 40 dB (at 1 kHz) equal-loudness curve. The sound level meter is thus less sensitive to very high and very low frequencies. Measurements made on this scale are expressed as dBA. The C scale (in dBC) is practically linear over several octaves and is thus suitable for subjective measurements only for very high sound levels.
- 24. Loudness in phons The phon is related to dB by the psychophysically measured frequency response. Phons = dB at 1 kHz. For other frequencies, the phon scale is determined by loudness experience by humans.
- 25. Loudness in sones The sone is derived from psychophysical tests where humans judge sounds to be twice as loud. This relates perceived loudness to phons. A sone is 40 phons. A 10 dB increase in sound level corresponds to a perceived doubling of loudness. So that approximation is used in the definition of the phon: 0.5 sone = 30 phon, 1 sone = 40 phon, 2 sone = 50 phon, 4 sone = 60 phon, etc.
- 26. Other descriptors of sound Equivalent sound level – the level of sound that has the same acoustical energy as does a time-varying sound over a stated time period. Percentile sound level – the sound level exceeded “n” percent of the observation time interval. Day-night average sound level – the equivalent sound level for a 24-h period that incorporates a decibel penalty during night hours.
- 28. Typical suburban sound and their levels
- 30. Major transportation sources of noise pollution: rail, road, and air
- 31. Rail Noise: A Case Study The city of Ames, Iowa, began operation of three automated horn warning systems (AHS) in September of 1998. These systems were installed after nearby residents repeatedly expressed concerns over the disturbance created by the loud train horns. The automated horn system provides a similar audible warning to motorists and pedestrians by using two stationary horns mounted at the crossing. Each horn directs its sound toward the approaching roadway. The horn system is activated using the same track signal circuitry as the gate arms and bells located at the crossing.
- 32. Sound Level Train Horn AHS Horn Reduction (dBA) Area (acres) Area (acres) > 70 265 37 86% > 80 171 5 97% > 90 31 < 1 98% Train Horn Noise Reduction
- 33. Intersection of railroad with North Dakota Avenue: A graphical depiction of the reduction Before 70 dBA 80 dBA 90 dBA 70 dBA 80 dBA 90 dBA After
- 34. Ames Train Horn Noise Survey
- 35. Roadway Noise • An example of a “line source” of noise pollution (as opposed to a “point source”) • Level of noise is a function of volume, type of vehicle, and speed
- 36. Roadway Noise - Solutions • Regulations limit the amount of noise some vehicles can produce • Some regulations require vehicles to be properly operated and maintained • Despite regulations, the noise levels are usually only reduced by 5 to 10 dBA
- 37. Roadway Noise - Solutions Barriers •Buffer zones •Earth berms/wooden fences/concrete walls •Vegetation (if dense enough)
- 38. Aesthetic noise barrier: Highway in Melbourne, Australia
- 39. Roadway Noise - Solutions Pavement type Certain asphalts, such as those containing rubber or stone, can be less noisy than other pavements. However, some studies have shown the reduction in noise is only a few decibels, not enough to be significant. More research is needed before pavement type can be an effective noise-reducing technique
- 40. Noise contours around an airport calculated using INM (Integrated Noise Modeling) based on previous noise measurements 55 - 60 dB = Light blue 60 - 70 dB = Dark blue 70 - 75 dB = Red 75 - 80 dB = Green 80 - 85 dB = Yellow > 85 dB = Pink Airport Noise
- 41. Airport Noise
- 42. Other sources of noise pollution that need to be addressed • Boat noise, especially jet skis • Construction noise • Snow mobiles • Industry
- 43. Davis and Masten, Chapter 15 Brüel & Kjær Sound & Vibration Measurement A/S Steve J. Gent, P.E., Research Coordinator, Iowa Department of Transportation FHWA References
- 44. Assignment A2 Please do Problems 15-2, 15-4, 15-8, 15-15 and 15-17 In Davis and Masten, Principles of Environmental Engineering and Science, Chapter 15.