Hvac Noise: Solving a Common Noise Problem

Hvac Noise: Solving a Common Noise Problem

Author: Murray Stacy

Noise pollution caused by rooftop and ground-level HVAC equipment including chillers, boilers, and air handlers has become one of the most annoying as well as dangerous environmental problems in cities worldwide. As urban noise increases and residential growth multiplies, residents and communities are demanding better noise reduction solutions for heating, ventilation and air conditioning equipment. Outdoor community noise problems caused by commercial and industrial HVAC systems may require an acoustically engineered Sound Barrier Wall.

Sound barrier walls have been used extensively for years in the transportation and industrial fields. A sound barrier wall is an exterior structure, normally made of masonry or earth, designed to protect sensitive land uses, such as residential areas from noise pollution. These noise pollution abatement products are now being used to help eliminate unwanted noise from HVAC systems as well.

Traditional material for noise barrier walls for HVAC systems has been reflective products. Reflective products, like concrete or brick, simply redirect the unwanted sound waves in other directions, and can actually increase noise by unintentionally reflecting sound waves. There is a better solution. Absorptive sound enclosures and architectural screens actually absorb the unwanted sound waves, minimizing the risk of unintentional reflected noise. Absorptive sound walls reduce reflections and are able to maintain the effectiveness of the barrier. Therefore, the overall noise level is reduced. The advanced materials found in absorptive barrier walls present a much more effective noise barrier solution. There are different solutions for this problem such as the LSE System, an absorptive sound barrier created by Sound Fighter Systems, that actually absorbs the sound waves that hit it, thereby eliminating unwanted noise.

So, if you are facing problems with noisy HVAC equipment an absorptive sound barrier wall is obviously the most effective noise mitigation solution available for this very demanding application. Absorptive walls outperform and outlast all other noise reduction products. Plus, many systems such as the LSE System are an aesthetically pleasing HVAC sound wall with the added benefit of noise pollution reduction.

Article Source: http://www.articlesbase.com/environment-articles/hvac-noise-solving-a-common-noise-problem-73974.html

About the Author:
Murray Stacy is Vice President of Sound Fighter Systems, LLC, which has been researching, designing and manufacturing highly efficient absorptive noise barrier walls since 1973, making it the oldest established manufacturer of such products in America. Sound Fighter walls have been produced for unique noise mitigation applications around the world, and several of the company's walls are in their 30th year of effective service. http://www.soundfighter.com


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Firearms Suppressors for Preventing Noise Induced Hearing Loss

Firearms Suppressors for Preventing Noise Induced Hearing Loss
Author: Jay J. Quilligan, M.D.

Silencers, or more properly 'suppressors', were originally designed by Hiram Maxim so that people could enjoy shooting in their backyards without disturbing their neighbors. During the Great Depression there was some concern on the part of the government that suppressed firearms would be used for poaching livestock by those in need during these trying years. Suppressors were thus included in the NFA Act of 1934 and subject to registration as well as a 200.00 transfer tax. Silencers have since been used by gangsters, spies and assassins in the movies and this has given them a somewhat unsavory image. Most people are of the opinion that silencers are illegal, when in fact they are quite legal in most states. In many foreign countries they are not only unregulated, but considered quite important for hearing protection and reducing noise pollution.

While suppressors certainly offer a tactical advantage as far as disguising the location of a shooter by both noise and flash reduction, we feel that a much more important aspect of suppressor use is hearing protection at the source of the noise. My background as an ear, nose and throat physician has given me significant knowledge and exposure to both the causes and effects of noise exposure with attendant permanent hearing loss. During my tenure in the U.S. Army, one of the most frequent problems that we faced was high frequency hearing loss secondary to noise exposure. While many of these individuals sustained their hearing loss in actual battle, others were only exposed in training situations. Even though supposedly adequate hearing protection was provided, these individuals still had hearing loss over time.

Research has shown that individuals regularly exposed to small arms fire in training situations are over ten times more likely to sustain noise induced hearing loss than individuals not so exposed. This is despite regular use of protective ear devices, which are supposed to reduce noise levels to below damaging thresholds. The cause for this phenomenon is most likely due to bone conduction of the noise directly into the middle and inner ears. While bone conduction hearing is certainly less sensitive than conduction through the normal ear canal, nonetheless the noise levels produced by repeated gunshots are certainly great enough to cause hearing loss over time.

Use of a properly designed sound suppressor on a firearm is no different than putting a muffler on your car. A sound suppressor on, for example, a 223 rifle can reduce the noise level from over 160 dB, which is quite harmful, to under 140 dB, which is the OSHA limit for noise exposure. This cuts off the noise at the source and eliminates dependence on ear protection devices, which are prone to failure. It also eliminates the risk of bone conduction hearing loss from excessive noise.

Article Source: http://www.articlesbase.com/diseases-and-conditions-articles/firearms-suppressors-for-preventing-noise-induced-hearing-loss-293925.html

About the Author:
Jay J. Quilligan, M.D.
Quicksilver Manufacturing LLC
www.qsmsilencers.com

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Noise Pollution Can Hurt You

Noise Pollution Can Hurt You
Author: Phyllis Wasserman

Car alarms, screeching subway cars, loud bars and barking dogs are only a few of the annoyances that can harass people on a daily basis. In a large metropolitan city, these things are the norm and are actually harmful to your ears.

If you are exposed to this constantly you can suffer permanent hearing loss. A rock concert has the noise level of 110 decibels. Even a crowded restaurant can be as much as 96 decibels. And if the sound was not enough, it can damage your ears immediately. When noise is loud it can kill the nerve endings in the inner ear. There is no way to restore nerve endings that are dead. Hearing loss happens gradually, so you would not know about it unless you have your ears tested. By then it can be too late.

Noise also has other detrimental factors. It can cause high blood pressure, fatigue and headaches. It can cause anxiety and difficulty focusing on chores.

New York city became the first city in the United States to adopt a noise code in 1972. It is still in effect today. The law says that no car alarm can ring for more than 3 minutes and that construction can only occur weekdays between 7 A.M. and 6 P.M. and weekends 10 A.M. to 4 P.M. The only way it is enforced is through complaints. You can be fined $45 for "unreasonable noise" and as much as $8,000 for larger violations (say, in a nightclub).

Listening to an iPod? Don't spin the dial up more than two thirds. Earbuds can increase the volume and put your ears in constant danger.

The average rock concert has 115 decibels, fifteen minutes is the most you can handle without ear plugs. If they are properly fitted, ear plugs work very well. Foam earplugs are made to last only a couple of days. Wax ones are stronger. There are also custom made silicon-rubber earplugs, which you can wash and re-use for years. They can cost as much as $125.

Sound proofing your home is a good idea as well. Hang heavy window curtains and use acoustical tile where possible. If you really need some quiet time, go to the beach, swim, or go to the library.

Article Source: http://www.articlesbase.com/health-articles/noise-pollution-can-hurt-you-1559.html

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Who Has Heard the Wind - Do Wind Farms Produce Noise Pollution?

Who Has Heard the Wind - Do Wind Farms Produce Noise Pollution?
Author: Jules Smith

Standing in a home a kilometer away from the nearest wind turbine --one of seventeen at the Pubnico Point Wind Farm in Yarmouth County, Nova Scotia --Tony experiences a sensation that he describes as "similar to being close to a high power car audio sound system playing drums. Both situations cause problems that I would say resemble arrhythmia."

Wind farms have obvious advantages over more conventional power sources. Unlike nuclear reactors, there's no radioactive waste to dispose of, no risk of catastrophic meltdown. Unlike coal-fire plants, there are no greenhouse gases to choke the atmosphere, no open-pit mines scarring the countryside. And unlike hydro plants, there are many more suitable locations compared to the relatively few available for dams.

Yet, no system is perfect.

One potential problem associated with wind power is noise, like that experienced by Tony. In some locations, residents living near wind farms find the sound to be an annoyance. A few, reporting acute and persistent health problems, have abandoned their homes, unable to sell them.

But are the reported problems justified? If they are, what's causing them? And what can be done to solve them, or at least to prevent them in the future?

Different Kinds of Noise

The study of acoustics is a complex science, but we can simplify the issue at hand to address a few major components that affect the perception of noise. One is the pressure of the sound, typically measured in decibels.

Stand next to a large turbine turning in a strong breeze and you'll likely hear little more than a gentle whoosh with each rotation of the blades, and perhaps a buzz from the gearbox and the generator. In all, it's not much louder than the wind in the trees. Even at a wind farm consisting of dozens of turbines, the audible noise level is usually much less than that from other commercial or industrial facilities. If the farm is near a major roadway, the traffic noise will probably drown out anything you hear from the turbines. Wind speed and direction also play a role; if the wind is blowing toward you and is very strong, the noise will be louder.

To put some numbers to it, a study by the British Wind Energy Association (http://www.bwea.com) reported that the sound from a wind farm 350 meters away (a typical setback distance) was less than that of an automobile moving at 65 km/h a hundred meters away.

A second component to consider is frequency.

Sound, like light, can be described by a spectrum. In the middle of the spectrum we have audible sound, that which most people can hear, in the range of 20 to 20,000 Hz. Above this is ultrasound, like that produced by a bat's echolocation system. Below the audible range is infrasound.

It is this low-frequency sound that seems to cause most of the complaints about noise. Higher frequency sound in the audible range drops off quickly as the distance increases. Lower frequency sound travels further.

But how can noise you can't hear hurt you?

Wind Turbine Syndrome

Symptoms reported by some residents near wind farms include sleep disorders, headaches, dizziness, nausea, tinnitus, and even the arrhythmia Tony experienced. Some physicians group these under the label Wind Turbine Syndrome.

Like most maladies that acquire the "syndrome" label, a degree of controversy surrounds this condition. Exact causes are not always clear. In some cases where residents have claimed to be bothered by audible noise from nearby turbines, sound measurements have indicated little or no noise above normal background levels. There may be no measurable levels of infrasound either.

Of course it is possible that those reporting the symptoms of Wind Turbine Syndrome are more sensitive to sound and vibration than most people, or even than detection instruments.

It's also possible that other factors are at work. Could the illness be, to some extent, psychosomatic in nature? Attitude clearly influences how our bodies handle stress. Hugh Piggott, editor of the Scoraig Wind Electric site (http://www.scoraigwind.co.uk) comments, "Experience has shown that the degree of irritation or pleasure derived from the odd little noises made by wind turbines depend to a large extent on the perceived benefits therefrom .... Noise is one of the few byproducts of wind energy production. For some it is music and for others it is not."

Whether the underlying cause is psychosomatic or not doesn't change how sufferers feel. Their symptoms certainly are real. And if noise from turbines is the cause, it should be addressed.
Better Designs, Better Locations

As with any technology, designs usually improve over time. This is true of wind turbines. The BWEA study mentioned earlier noted that older turbine designs often placed the blades downwind of the tower. As wind passed the tower it created turbulence that interacted with the passing blades, causing a low frequency pulse. Newer designs place the blades upwind of the tower and increase the distance between the blades and the tower, reducing interaction between the two, further minimizing noise generation.

Other innovations have been introduced as well. Norm Kienitz, President of Cape Breton Power Limited in Nova Scotia (http://www.capebretonpower.com) explains, "More advanced blade designs are more efficient and less noisy. Most modern utility scale wind turbines are pitch controlled rather than stall controlled, this is often (but not always) less noisy. Finally, there is a trend toward direct drive machines, which are typically quieter through variable speed operation, fewer mechanical components and especially no gearbox."

Since even the most sophisticated turbine design will still produce some noise and vibration, it's important to situate turbines, and especially large scale wind farms, a suitable distance from residential areas. How far is a matter of debate. Some groups have proposed measurements based on multiples of the length of the turbine blades, while others suggest fixed distances ranging from 300 meters to 2500 meters. Still others insist that wind turbines should only be placed offshore, but that would severely limit the number of available sites and present other obstacles including access to transmission lines and interference with shipping lanes. A more objective approach would necessitate a detailed site survey taking into account the local terrain, predominant wind speed and direction, existing noise levels, and the proposed turbine design.

Cape Breton Power Limited employs this approach before implementing a new project. In addition to choosing sites carefully and applying reasonable setback distances, they also conduct ambient noise studies to assess for impact before it occurs. As Kienitz notes, "These types of problems are easier to prevent than to cure."

Still, there are other considerations. Kienitz goes on to explain. "Proximity to residences often influence turbine location, but this also needs to be considered in the project milieu: access to the grid, availability of infrastructure and access, environmental concerns, wind resource, and geotechnical issues."

That may mean that an otherwise ideal location for a wind farm will be close to some residential neighbors. At some point proceeding with a wind farm may mean accepting the fact that it's impossible to please everyone.

Accepting a Compromise

No solution is perfect, so if we wait for the ideal answer we'll never move beyond our present situation. Eventually we'll find ourselves in the dark. Kienitz observes, "Wind power will never be the whole answer to our energy problems, but it can be a part of it. We have to make choices as a society of what we want. We need to be solution oriented, and that means deciding what the compromises are that we are willing to accept - aesthetically, financially, environmentally. I have run into people who bemoan the aesthetics of wind power, the environmental impact of hydro, the pollution of thermal plants (coal, oil) and are horrified at the thought of nuclear energy. But they still want their lights to work when they flick the switch."

Keeping the lights on may mean accepting a compromise. Kienitz concludes, "When it comes right down to it, I would rather have a wind turbine in my backyard than a coal fired station in my neighborhood."
Article Source: http://www.articlesbase.com/technology-articles/who-has-heard-the-wind-do-wind-farms-produce-noise-pollution-222758.html
About the Author:
Jules Smith is the principal of LightningStrike Studios , a professional business and technical writing firm.

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Noise Pollution and Fighting it With Acoustic Foam

Noise Pollution and Fighting it With Acoustic Foam
Author: Stephen Morgan

Noise pollution (or environmental noise in technical areas and venues) is termed as displeasing or annoying human or mechanically caused sound that is or can be described as alien to the environment.

I guess to most of us the major source of this pollution would come from transportation systems, as anyone who has tried to hire a car from the main AVIS car rental depot at Heathrow Airport would testify to. Based on the perimeter road at Heathrow sometimes the noise of landing 747’s can make it a little difficult explaining to the attendant what problems you may have had (or not) with the car you are returning.

However before we all start to assume that noise pollution is purely something that occurs in major cities let us consider the effect of noise pollution in rural communities. Now noise from recreational vehicles has become quite a major issue with the rural communities. Quad Bikes or All Terrain Vehicles (ATV’s) have become a serious problem in the countryside. They have increased massively in popularity and are joining the more traditional two wheeled bikes as the vehicle of choice for off road riding.

The bottom line is that we live in a noisy world and by that I mean not just the sound of cars and traffic etc but the way we live our lives and perhaps more importantly where we are now living and the density of the accommodation we provide ourselves.

In the old days when basically all you had to worry about was the old cottage in the middle of the field 6 miles away from the nearest neighbour you could make as much noise as you wanted and it wasn’t a problem. Nowadays basically we have people living on top of each other, underneath each other and in fact all over the place and more importantly interfacing with modern day technologies in ways that hitherto would have thought to have been impossible. As such the use of the acoustic foam and the noise dampening systems are essential.

If we take for example the situation in many cities nowadays when we have whole plethoras of modern communication links such as underground railway systems, over ground railway systems, modern two-way flyovers and in fact transports communications and residential accommodation right next to each other. Without adequate noise reduction systems in place and incorporated within the structure of the residential and work accommodation than pretty quickly life within these new cities would become pretty intolerable.

As we have said before, enter stage left acoustic foam. Without these new technologies providing the noise insulation, the quality of life in most built up areas would be appalling.

At this point it becomes pretty obvious to all concerned quite what a debt we owe to noise reduction systems and soundproofing in general that quite often mere words on no longer enough.

Having lived in the centre of London and also spent time on the northwest coast of County Donegal in Ireland, when it comes to noise pollution I know which one I prefer.

Article Source: http://www.articlesbase.com/science-articles/noise-pollution-and-fighting-it-with-acoustic-foam-150365.html

About the Author:
Stephen Morgan writes about a number of industrial issues such as acoustic foam and soundproofing . A keen proponent of all aspects of free and independent services available, he advises those who are interested in investigating further to look at sound proofing

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How to Stop Hearing Loss?

How to Stop Hearing Loss?
By: Rudy Silva


My mother is almost 90 years and has a hearing loss problem. Her problem started when she was around 70 years. But, most health or physical issues start much earlier. They start from the early twenties or sooner. As you age, your various organs and physical structures start to weaken and deteriorate and become less active. The deterioration rate depends on your emotional and physical health.

Your health depends on your eating habits and the nutrients that you supply to your body.

Loud Noises

How can you tell if you will have hearing loss when you get older? First you have to protect your ears from over stimulation. Listening to loud music with or without ear phone can damage your ear and make them less sensitive as you age. It is best to keep the volume natural. If you work in a high noise surrounding, then you need to use protective ear covers.

Next, when you clean your ears of ear wax, is the wax hard or soft? If it is hard, then you need to eat more good oils - omega 3, omega 6, and omega 9. These oils - olive oil, fish oil, flax oil, hemp oil, caster oil, and primrose oil - help keep ear wax softer and easier to clean out of your ears. Hard wax is hard to clean out of your ears and tends to deposit on your ear drum, slowly over time, making it stiff and less able to vibrate.

Anti-oxidants

Make sure your diet is high in anti-oxidants. This can be in the form of food - fruits and vegetables - or supplements. But keep in mind that only a certain amount of the supplements you take are absorbed. So you normally need to take more than is recommended. A good anti-oxidant will help fight off and eliminate free radicals that damage the tissue in your ear drum and surrounding areas. Free radicals can damage your ear by causing ear inflammation. This inflammation can cause loss of hearing and permanent damage to your ear.

MSM Remedy

One other remedy that you can use to keep your ears healthy is to use MSM eye drops. A few drops in both ears, just before bedtime, will keep your ear drum from hardening and permeably. MSM accumulate in cell walls to make them soft and flexible which allows nutrients to enter the cell and toxins to move out of the cell. MSM is also an anti-oxidant since it will tie up protein that can accumulate in your ear tissue and damage it.

MSM eye drops are available on the internet and are inexpensive. Just a side note, use them for your eyes and give yourself more health benefits. Using MSM in your eyes will insure that you will never have Glaucoma. Again MSM will make tissue permeable and the will release pressure form the eyeball - Glaucoma- or release pressure from behind the eardrum bring the eardrum back to normal.

So, protect your ears from loud noises, especially if these noises are heard for long periods at time. Then eat a lot of fruits and vegetables or chose a good anti-oxidant supplement to get the anti-oxidants that will protect your ears from free radical damage. Finally, use MSM eye drops in your ears to keep your ear drum flexible so it can vibrate and give you hearing.

Article Source: http://www.article-exposure.com

Rudy Silva, nutritionist, writes and researches health issue. To get more tips and information on health remedies subscribe to his weekly newsletter at: www.natural-remedies-thatwork.com and get a special free health report.


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Understanding How Aviation Headsets Reduce Noise

Understanding How Aviation Headsets Reduce Noise
By Chris Spears

Purchasing aviation headsets is a crucial step in protecting your hearing and flying safely, especially in smaller aircraft. Some people simply choose by reputation, buying either a Telex headset or Peltor headset because these are well-known brands popular in the aviation industry, but it isn’t that simple.

Both brands produce quality products, but they also each offer a variety of headsets that work in different ways and may suit different needs. To choose the right style and model of aviation headset, you need to first understand what the manufacturers are talking about when they describe how their products work.

Both Telex and Peltor headsets come in a wide range of styles that offer varying levels of hearing protection. In fact, each offers different types of hearing protection as well. The three types are usually referred to as Passive Noise Reduction, Active Noise Reduction and Digital Noise Reduction. Some people refer to noise reduction as “noise attenuation,” but the terms are interchangeable.

Passive Noise Reduction – These are sometimes referred to as NNR headsets, and are the least expensive. They use insulation and thick padding to cut down on cockpit noise. The earphones are designed to create a tight seal around the ears. With these, you’ll receive about 25 decibels of noise reduction. Most of this will be high-frequency noise.

Active Noise Reduction – Like NNR, active noise reduction (ANR) headsets use insulation to protect hearing. In addition, there is an electronic signal that “cancels out” incoming noise to provide noise reduction in the low-frequency range. The electronic signal is not an audible sound, but a frequency pulse that matches incoming sound as an opposite signal. Quality ANR Peltor Headsets can provide up to 30 decibels of noise reduction depending on the brand.

Digital Noise Reduction – The most expensive option also gives you the most protection because it adds a final level of protection beyond even ANR. In these, electronics monitor the actual surrounding sounds and mimic them with opposing signals to cancel the noise. Telex headsets and most other quality brands also feature a filtering system that prevents cancellation of non-repeating noises so that the wearer will be aware of changes in engine sound that could signal an emergency.

Digital noise reduction provides the most protection in the mid-frequency ranges.

You should find out what decibel level of noise you are going to routinely be exposed to before shopping for any kind of aviation headset. (Smaller aircraft generally produce more noise than larger craft, and any prop plane will be significantly louder in the cockpit than a jet airplane) This will help guide you in your choice, since all Telex headsets and Peltor headsets clearly indicate the level of decibel protection provided.

You will also want to consider the type of microphone you prefer, the fit of the ear cups and other factors. If you visit aviation supply websites, you can also download detailed specifications for any number of headsets, including the most popular brands such as Peltor and Telex headsets; so that you can compare features side by side to find out which ones best suit your needs.

About the Author: Kevin Hall is a fitness guru. Kevin buys all his Diet Supplements & Fat Burners at the interactive website retailer http://SupplementstoGo.com.
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Do You Suffer From Squeaking Floorboards?

Do You Suffer From Squeaking Floorboards? - This Article Helps Users Understand The Best Solutions To Cure This Annoying Noise!
By Stuey Stephens

I'll start by explaining how squeaking floorboards starts.

Quite often, over a period of time, the flexing of the floor or expansion and contraction of the timber may loosen floorboard nails.

It is the resulting movement of the wood against the nails or against the neighbouring boards that produces the typical irritating squeak.

The simplest cure is to drive the floorboard nails in deeper with a nail punch, which allows the tapered edges of the nails to grip the wood more securely.

We have found that sometimes, however, this may not be a lasting solution.

If the problem persists, use either a larger or ring-shank nails. You can buy all of the items I talk about from general DIY stores - I'm sure that you will have a local store to you. Alternatively companies like Screw Fix or B&Q or other DIY stores should be able to help.

Using larger nails or ring shank nails will give a better grip as they are designed for situations like creaking floor boards; however they need to have clearance holes drilled through the boards. I would recommend you use a normal electric or hand-drill to do this.

The clearance holes must be slightly larger than the diameter of the nail to ensure that they grip the bottom of the board securely.

After you have put the nails in make sure that you fill any redundant holes with matching wood filler - the closer the colour match the better. You can almost completely disguise the nail heads this way.

If the boards can't be re-nailed satisfactorily (for example, because of twisting or bowing), use countersunk stainless-steel woodscrews.

Remember that you need to bury the heads of the screws deep enough to cover them with filler or with matching wooden plugs. I also recommend that you dampen the wood thoroughly before fixing - this makes the wood 'give' and allows the screw heads
to essentially be countersunk as the boards are screwed down.

About the Author: Visit Stuey at http://www.stueysblog.co.uk He is a full-time blogger on electronics, technology and DIY.
Source: http://www.isnare.com
Permanent Link: http://www.isnare.com/?aid=53803&ca=Advice

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Noise In Air Purifiers

Noise In Air Purifiers
By Jason Uvios

The sale of air purifiers across the United States has skyrocketed over the past few years. With research showing that indoor air pollution is 2 to 10 times more than outdoor pollution, there are valid reasons for people to get worried. The only option they now have to deal with the pollution is to install air purifiers in their homes.

Air purifiers are mainly of two variants – the ionic air purifier and the HEPA air purifier. The technology in the two are different and so is the method they work. An ionic air purifier just draws the neutrally charged particulates to the charged plates inside the purifier. This technology ensures that there is little or no sound during the cleansing process.

A HEPA air purifier works on a completely different principle where a filter is used to collect pollutants from the air. To do so a fan revolves at high speed to draw in the air form the room and the pollutants floating in the air gets deposited on the filter. The HEPA filters are effective for particulates as small as 0.3 microns. It would make sense here to pint out that the width of human hair is about 100 microns.

However there is a drawback to the HEPA air purifier. While at work the HEPA ones actually produce some sound which can be annoying for many. The sound is produced because of the fan inside revolving at high speed. While for some it would not be
too much of a bother, and some even may actually like the white noise produced, there would be individuals who will hate a constant buzzing sound.

When you are buying an air purifier you expecting some clean air, and not a gadget which produces inconsistent noise. You can obviously do something to tackle this problem. When we buy air purifiers we take a note of our room size. Now, if we buy a
purifier which just has the capacity to clean our room then we must have it working to its utmost. This means that fan will always be revolving at the highest speed. The result would be the noise.

However, if we take a purifier with the capacity of cleaning a 800 square feet room for a room of size 200 square feet, then we can always have the fan inside the purifier work at low or medium levels. This will result in less noise. The purifier, all of a sudden will sound quieter. The only thing that would be of concern is the size of the purifier might be too big for the room.

About the Author: Jason Uvios Writes about on Noise in Air Purifiers to visit :- http://www.air-purifiers-canada.info, http://www.air-purifiers-usa.info and
http://www.air-purity-now.info
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