Respirator
Usage
Respirator
Usage
You know, I've been hearing a lot about respirators and respiratory
protection. Are these really useful for protecting me from radioactive
and other materials that are in the air?
Yes they are. A respirator is one important method of protecting workers
from airborne hazards, whether chemical, physical, biological, or radiological.
From what I know, they sound like simple solutions to me, and that everyone
should have one.
Unfortunately, respirator selection and usage is not as simple as it sounds.
Let me walk you through the process so you can see what I mean.
Okay.
First of all, a respirator should only be used by persons who have been trained
in their proper usage, and who understand the limitations of the equipment
they are using. It is important that the person be able to recognize changing
conditions in the work place, and his or her body's response to wearing such
a device. If ambient conditions change significantly, or if the concentrations
of hazardous materials in the air increases by quite a bit, the protective
properties of the respirator might be overwhelmed. More importantly, however,
is the fact that respirators should be the "last line of defense" against
the airborne hazard. Those responsible for health and safety in the work
place should make every effort to contain the contaminant before it becomes
airborne or provide ventilation systems like fans and exhaust ducts to remove
it from the breathing zone of the employee, before respirator usage is even
considered.
Well, that makes sense. But what if the work area requires the use of
a respirator? What happens then?
First you need to know the physical form of the airborne hazardous material
so that you can select the proper equipment.
You mean there is more than one type?
Yes indeed. There are two functional types of respirators to choose from,
air purifying and supplied air respirators. For airborne solids, for example,
an air purifying respirator is very capable and can provide quite a bit of
protection. For vapors and gases, the air purifying respirator has some
significant limitations, thus it is used sparingly. Some gases can travel
straight through a respirator cartridge and be inhaled by the user almost
immediately. Other gases and vapors are absorbed or adsorbed easily as long
as the cartridge has available capacity. So you can see you need to know
what form the material is in, how much is there, and what type of work is
going to be performed.
I thought a respirator was a respirator. How much of a difference can
there be between an air supplied respirator and an air purifying
respirator?
There are big differences! Both respirators are designed to protect your
lungs from airborne hazardous materials, but they provide that protection
in different ways. Let's start first with their names. Can you pick up on
the means of protection from their names?
Well, I would guess that an air supplied respirator supplies air,
right?
You're correct. The best examples are fire fighters. They use air supplied
respirators because they are routinely exposed to hazardous concentrations
of toxic gases, vapors and smoke in areas where there are no available
engineering controls to reduce the hazard. Those tanks that you see them
wearing contain a supply of air that is stored under high pressure. But when
the bottle is empty, there is no more air available.
How long does a bottle last?
Well, it depends upon whether the delivery system of the respirator is a
"demand" or "pressure demand" mode . Generally speaking, however, a single
bottle should hold a 30-minute supply of air for a person who is in good
physical condition and who conserves their air by breathing at a steady pace.
What if that person isn't in such good condition?
That same 30 minute supply may only last 10 minutes for a person who "gulps"
their air quickly or is working very hard . . . like trying to carry an injured
victim out of a burning building. Unless the air supply is replaced, there
will be no more good air available for the user.
Well then, how do they replace the air in the bottles?
Generally speaking, the bottle is exchanged outside of the burning building.
Once the exchange is made for a full bottle, the fireman goes back in.
It seems to me, then, that any work using air supplied respirators can
only last 30 minutes or less, and that users spend more time traveling in
and out of the work area than they do getting the work done.
Well, for some people, that might be the case. However, in certain conditions,
these same respirators can be connected to an air hose or pressurized line
to a larger air supply.
That sounds easy enough.
It is, but the hoses must be protected from the hazards inside the building.
They can't be pinched or punctured, and the user has to be careful they aren't
melted in a fire. Because of these potential problems, sometimes the only
thing that will work is a self contained breathing apparatus with that 30-minute
limit.
You mentioned that the other basic type of respirator is an air purifying
respirator. How does it purify the air?
An air purifying respirator is much simpler than an air supplied respirator.
In this case, the hazardous components in the work place are filtered or
adsorbed before the air gets to your lungs. And while the air supplied respirator
is easily recognizable by the bottles attached to the wearer's back, air
purifying respirators are recognized by the cartridges that are firmly attached
to the base of the respirator face piece.
A face piece . . . isn't that the respirator?
Well, it's part of the entire system. A face piece is used to create a seal
around your nose and mouth, if it is a "half-face respirator". If a seal
around the entire face is necessary, the device is called a "full-face
respirator". Creative names, huh?
Right.
Sorry. Let's press on. In both cases, the face piece prevents
the contaminated outside air from leaking around its seal, and getting in
where it can be breathed by the user. You can see that anything interfering
with the seal prevents the respirator from doing its job correctly.
What do you mean?
Well, here's a good example. If you wear glasses, the bows holding the lens
on your face will create a gap in the seal. So no glasses are permitted when
respirators are used.
But what about those of us that need glasses to see clearly?
There's a solution to that. For these folks, a set of prescription glasses
are attached to the face piece. No bows necessary to hang on their ears.
Okay. But what about my beard. How does the face piece seal around my
beard?
Sorry, the beard has to go too. No hair or other things on our faces, such
as side burns and long hair, that might interfere with the seal. In fact,
some people with facial scars or other facial irregularities cannot wear
a respirator at all just because they can't maintain a good fit.
Gee. I had no idea that fitting the face piece was so important.
It is so important that you must actually test for a good seal and measure
the ability of the respirator to protect you and your face from the conditions
that are outside the mask. Without this type of testing, you just can't be
sure the respirator is doing you any good.
Air purifying respirators sound much simpler to use than air supplied
respirators. Are there any other choices to make when selecting an air purifying
respirator?
Of course. There are many different types of air purifying respirators. In
addition to the half-face and full-face respirators I mentioned a bit ago,
there are also mouth bit emergency respirators and powered air purifying
respirators. Each of these are best suited under some well-specified conditions,
with the biggest difference being the amount of protection provided.
Wow. So once I select the proper face piece, am I done?
No. It doesn't stop there. You also have to match the respirator face piece
with a disposable cartridge that is "approved" for the airborne chemical
to which you are about to be exposed. In addition, the face piece has a capacity
rating, as does the cartridge.
Gosh. How do I know if I have made the right selection?
Well, it is not as arbitrary as you might think. Respirators and cartridges
are tested in the United States by the National Institute for Occupational
Safety and Health (NIOSH). Respirators that pass the NIOSH test criteria
are "approved" for certain uses and durations. The listing can be found in
Title 42, Code of Federal Regulations, Part 84, "Approval of Respiratory
Protective Devices".
What about OSHA? Doesn't it have any requirements for respiratory
protection?
Yes. That agency's rules are found in Title 29, Code of Federal Regulations,
Part 1910.134, "Respiratory Protection". This law, called the "Respirator
Standard", requires that each employer establish written procedures for the
correct use of respirators, evaluate the workplace for airborne hazards,
provide medical evaluations for the employees that wear respirators, select
the correct respirator system for the hazard that is going to be encountered,
provide fit testing to measure the capacity of the face piece for each
individual, provide for cleaning and inspection of all equipment, and ensuring
respirators and ancillary equipment are stored properly. In addition, the
standard requires that people be trained in the limitations of the respirators
they are authorized to use, and in how to recognize that a problem might
exist.
Whew. I thought you could just put one on your face and you were good
to go. Obviously not.
You are absolutely correct. Inappropriate selection and use of respiratory
protection equipment, at best, gives you a false sense of security. At worst,
it can be downright dangerous.
Lately I have been hearing quite a bit about biological agents, like anthrax.
When I see people testing and decontaminating areas on the television, I
always see them wearing respirators. Why is that?
A properly-fitting air purifying respirator equipped with a high efficiency
particulate air filter is a good tool for protection against a particulate,
like the anthrax spore. But remember, the respirator will only protect your
lungs. What you may not see on the television are the procedures people follow
to minimize the spread of contamination on clothing and work surfaces, the
removal and decontamination procedures for the equipment, the skin protection
methods, and a host of others. In these cases, a respirator by itself is
not a complete solution.
What if I wanted to learn more about respiratory protection and respirator
usage. Is there somewhere I could look on the internet?
Absolutely. OSHA (www.osha.gov) has a lot of technical information about
the correct use and selection of respirators. And almost all of the equipment
manufacturers provide information not only about their products but recommended
criteria for selection and evaluation. You might start with MSA, Inc.
(www.msanet.com) or Survivair (www.survivair.com), as just a couple of examples.
However, I'm not giving you any recommendations here, as there are many
manufacturers of approved respirators for many applications.
What about in an emergency? You know, there has been all this terrorist
fear lately. Is my only protection to airborne hazards, whether
radiological or biological, dependent upon having a stockpile of a variety
of respirators and cartridges?
Actually, that would be a bit inefficient, and quite expensive. However,
you already have some supplies in your house that can be very effective for
short duration respiratory protection.
Really? Like what?
A wetted, cotton handkerchief placed around your nose and mouth provides
some pretty good protection from airborne particulates. A damp bath towel
is pretty effective as well. And don't forget that water is a great tool
for removing particulates from surfaces, including your body, and from keeping
them out of the air.
You mean a shower?
Exactly. Even a shower can be helpful in reducing inhalation exposures.
But what about the fit aspect you talked about?
You're learning fast. Yes, one of the biggest problems with household remedies
is maintaining a good seal around your nose and mouth.
Any suggestions?
Yes. You might consider using bandanas, stocking type ski masks or even "female
hosiery" to hold the towel or handkerchief over your nose and mouth.
What a good idea! Any last words for me on this topic?
I think there are two important things to keep in mind when it comes to
respirators. The first is that respiratory protection alone does not assure
complete protection from airborne radioactivity or other particulates. And
the second is that even when respirators are used as one part of a comprehensive
protection program, they must be selected properly, tested for a good fit,
and cleaned, stored, and maintained appropriately. Ignoring either of these
two can be detrimental . . . in more ways than one.
So if I want to use respiratory protection, I really should speak with
a professional in this area rather than marching off on my own,
right?
That would be a wise decision. A health physicist or an industrial
hygienist would be an excellent place to start. And don't forget to "Ask
a CHP" if you still have questions.
I won't! Thank you.
You're welcome.
Copyright © Integrated Environmental Management, Inc., 2001