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A gas mask is a mask worn over the face to protect the wearer from inhaling "airborne pollutants" and toxic gases. The mask forms a sealed cover over the nose and mouth, but may also cover the eyes and other vulnerable soft tissues of the face. Some gas masks are also respirators, though the word gas mask is often used to refer to military equipment (e.g. Field Protective Mask, etc.) (The user of the gas mask is not protected from gas that the skin can absorb.)

Airborne toxic materials may be gaseous (for example the chlorine gas used in World War I) or particulate (such as many biological agents developed for weapons such as bacteria, viruses and toxins). Many gas masks include protection from both types. During riots where tear gas or CS-gas is employed by riot police, gas masks are commonly used by police and rioters alike.

Aside from serving their functional purposes, gas masks are also used as emblems in Industrial music, and by graffiti taggers because the mask protects them from the graffiti canister's toxic fumes. Also closely related is the eroticization of gas masks as a sexual fetish.

The traditional gas mask style with two small circular eye windows originated when the only suitable material for these eye windows was glass or perspex; as glass is notoriously brittle, glass eye windows had to be kept small and thick. Later, discovery of polycarbonate allowed gas masks with a big fullface window. Some have one or two filters attached to the face piece. Some have a large filter connected to the face piece by a hose.

Contents

Safety of old gas masks

Gas masks have a limited useful lifespan that is related to the absorbent capacity of the filter. Once the filter has been saturated with hazardous chemicals, it ceases to provide protection and the user may be injured. Most gas masks use sealing caps over the air intake to prevent the filter from degrading before use, but the protective abilities also degrade as the filter ages or if it is exposed to moisture and heat. Very old unused gas mask filters from World War II may not be effective at all in protecting the user, and can potentially cause harm to the user due to long-term changes in the filter chemical composition.

It is important to note that World War II gas masks contained blue asbestos in their filters, and this material continued to be used until at least 1956. Breathing blue asbestos in the factories resulted in death from mesothelioma of 10% of workers, and between 2.5 and 3.2 times the normal incidence of lung or respiratory cancers[1]. Current advice is never to wear any gas mask of uncertain military origin.

Modern gas masks are quite safe and do not use asbestos, but it is still important to be careful when using a modern gas mask. Typically masks using 40mm connections are more recent design. Rubber also degrades with time so new in box "Modern type" masks can be cracked and leak.

Principles of construction

Absorption is the process of being drawn into a (usually larger) body, or substrate, and adsorption is the process of deposition upon a surface. This can be used to remove both particulate and gaseous hazards. Although some form of reaction may take place, it is not necessary; the method may work by attractive charges, for example, if the target particles are positively charged, use a negatively charged substrate. Examples of substrates include activated carbon, and zeolites. This effect can be very simple and highly effective, for example using a damp cloth to cover the mouth and nose whilst escaping a fire. While this method can be effective at trapping particulates produced by combustion, it does not filter out harmful gases which may be toxic or which displace the oxygen required for survival.

Reaction and exchange

This principle relies upon the fact that substances that can do harm to humans are usually more reactive than air. This method of separation will use some form of generally reactive substance (for example an acid) coating or supported by some solid material. An example is resins. These can be created with different groups of atoms (usually called functional groups) that exhibit different properties. Thus a resin can be tailored to a particular toxic group. When the reactive substance comes in contact with the resin, it will bond to it, removing it from the air stream. It may also exchange with a less harmful substance at this site.

Though it was crude, the hypo helmet was a stopgap measure for British troops in the trenches that offered at least some protection during a gas attack. As the months passed and the use of poison gas occurred more frequently, more sophisticated masks were developed and introduced. There are two main difficulties with gas mask design:

  • The user may be exposed to many different types of toxic material. Military personnel are especially prone to being exposed to a diverse range of toxic gases. However if the mask is for a particular use (such as the protection from a specific toxic material in a factory), then the design can be much simpler and the cost lower.
  • The protection will wear off over time. Filters will clog up, substrates for absorption will fill up, and reactive filters will run out of reactive substance. This means that the user only has protection for a limited time, and then they must either replace the filter device in the mask, or use a new mask.

History and development of the gas mask

An early type of rudimentary gas mask was invented in the 9th century by the Banu Musa brothers in Baghdad, Iraq. They described it in their Book of Ingenious Devices,[2] mainly for protecting workers in polluted wells.[3]

Primitive respirator examples were used by miners and introduced by Alexander von Humboldt already in 1799, when he worked as a mining engineer in Prussia, as well as a Plague Doctor's bird beak shaped mask/face piece.

The gas mask was patented on June 12, 1849, by the American, Lewis Haslett, in Louisville, Kentucky. It was an "Inhaler or Lung Protector," issued for an air purifying respirator. Haslett's device filtered dust from the air.[4]

Early versions were constructed by the Scottish chemist John Stenhouse in 1854 and the physicist John Tyndall in the 1870s.

One such design began as a "Safety Hood and Smoke Protector" invented by African American inventor, Garrett A. Morgan in 1912, and patented in 1914. It was a simple device, consisting of a cotton hood with two hoses which hung down to the floor, allowing the wearer to breathe the safer air found there. In addition, moist sponges were inserted at the end of the hoses in order to better filter the air. Morgan won acclaim for his device when in 1916 he, his brother, and two other volunteers used his device to rescue numerous men from the gas and smoke-filled tunnels beneath Lake Erie in the Cleveland Waterworks.

The first use of poison gas on the Western Front was on 22 April 1915, by the Germans at Ypres, against Canadian and French colonial troops. The initial response was to equip troops with cotton mouth pads for protection. Soon afterwards the British added a long cloth which was used to tie chemical-soaked mouth pads into place, and which was called the Black Veil Respirator. Dr. Cluny MacPherson of Royal Newfoundland Regiment brought the idea of a mask made of chemical absorbing fabric and which fitted over the entire head to England,[5] and this was developed into the British Hypo Helmet of June 1915. This primitive type of mask went through several stages of development before being superseded in 1916 by the canister gas mask of 1916.[6] This had a mask connected to a tin can containing the absorbent materials by a hose.

In 1915, American chemist and inventor credited with the invention of the gas mask [7] James Bert Garner read a newspaper article describing a gas attack on British forces which he hypothesized had employed chlorine gas. Remembering experiments he had performed while teaching at the University of Chicago, he set about creating the first gas mask which he tested on two of his associates in a gas filled chamber. Following the successful completion of the test, he provided the results to the British government.[8]
Garner's mask was the first to be used on the Western front during World War I.[9] Also in World War I, since dogs were frequently used on the front lines, a special type of gas mask was developed that dogs were trained to wear.[10]

The British Royal Society of Chemistry claims that British scientist Edward Harrison developed the first practical gas mask for mass production, a claim supported by a thank-you note written by Winston Churchill.[11]

In America thousands of gas masks were produced for American as well as Allied troops. Mine Safety Appliances was a chief producer. This mask was later used widely in industry.[8]

Gas masks development since has mirrored the development of chemical agents in warfare, filling the need to protect against ever more deadly threats, biological weapons, and radioactive dust in the nuclear era. However, where agents that cause harm through contact or penetration of the skin occurs, such as blister agent or nerve agent, a gas mask alone is not sufficient protection, and full protective clothing must be worn in addition, to protect from contact with the atmosphere. For reasons of civil defense and personal protection, individuals often purchase gas masks in the belief that they protect against the harmful effects of an attack with nuclear, biological, or chemical (NBC) agents; which is only partially true, as gas masks protect only against respiratory absorption. Whilst most military gas masks are designed to be capable of protection against spectrum of NBC agents, they can be coupled with filter canisters that are proof against those agents (heavier) or just against riot control agents and smoke (lighter, and often used for training purposes); likewise there are lightweight masks solely for use in riot control agents and not for NBC situations.

Although thorough training and the availability of gas masks and other protective equipment can render the casualty-causing effects of an attack by chemical agents nullified, troops who are forced to operate in full protective gear are less efficient in completing their given tasks, tire easily, and may be affected psychologically by the threat of attack by these weapons. During the Cold War era, it was seen as inevitable that there would be a constant NBC threat on the battlefield, and thus troops needed protection in which they could remain fully functional; thus protective gear, and especially gas masks have evolved to incorporate innovations in terms of increasing user-comfort, and in compatibility with other equipment (from drinking devices to artificial respiration tubes, to communications systems etc). The gas mask has thus now arrived at a 'fourth generation' of development.

History of absorbents and neutralizers

Activated charcoal is a common component of gas masks. It is a carbon with an extremely high surface area and which attracts all manner of pollutants from air and water. Pollutants do not react with the carbon but are bonded to it in a process called adsorption. Over time the activated carbon becomes thoroughly coated and it ceases to remove pollutants. However, the charcoal can be reactivated and restored to its original state by baking the charcoal with high heat, which either evaporates or burns off the pollutants.

In the first gas masks of World War I, it was initially found that wood charcoal was a good absorbent of poison gases; it was found that urinating on the gas masks also enhanced the absorption of poisonous gases. In about 1918 it was found that charcoals made from the shells and seeds of various fruits and nuts such as coconuts, chestnuts, horse-chestnuts, and peach stones performed much better than wood charcoal. These waste materials were collected from the public in recycling programs to assist the war effort.[12]

See also

References

  1. ^ (British Medical Journal 19 September 2006 oem.bmj.com/cgi/reprint/39/4/344.pdf)
  2. ^ Donald Routledge Hill, "Mechanical Engineering in the Medieval Near East", Scientific American, May 1991, p. 64-69. (cf. Donald Routledge Hill, Mechanical Engineering)
  3. ^ Young, M. J. L. (1990), The Cambridge history of Arabic literature, Cambridge University Press, p. 264, ISBN 0521327636 
  4. ^ "Gas Masks - History". Mary Bellis. http://inventors.about.com/od/gstartinventions/a/gasmask.htm. Retrieved 2008-06-12. 
  5. ^ Victor Lefebure (1923). The Riddle of the Rhine: Chemical Strategy in Peace and War. The Chemical Foundation Inc.. http://www.gutenberg.org/dirs/etext98/rrhin10.txt. 
  6. ^ "The UK". The Gas Mask Database. http://www.gasmasks.net/database/uk/uk.htm. 
  7. ^ Who Was Who in America, Vol. V, 1969-1973
  8. ^ a b Pittsburgh Post-Gazette, November 30th, 1960
  9. ^ PG-13.eps
  10. ^ Gas-Masks for Dogs / Dumb Heroes of the Fighting Front, Popular Science monthly, December 1918, page 75, Scanned by Google Books: http://books.google.com/books?id=EikDAAAAMBAJ&pg=PA75
  11. ^ "Gas mask inventor Harrison honoured in death by Churchill". Royal Society of Chemistry. http://www.rsc.org/AboutUs/News/PressReleases/2008/HarrisonLetter.asp. Retrieved 2008-06-12. 
  12. ^ Once Worthless Things that have Suddenly Become of Value, Popular Science monthly, December 1918, page 80, Scanned by Google Books: http://books.google.com/books?id=EikDAAAAMBAJ&pg=PA80

External links


Simple English

A Gas mask is a kind of mask that fits over the face area and nose. Protecting from poisonous gases, gasoline spills, and tear gas are just a few things a gas mask is used for.









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