Cigarette filter

Filters in a new and used cigarette
Filter cigarette:
1. Cigarette filter
2. Imitation cork tip paper
3. Cigarette paper
4. Tobacco
5. Capsule (optional, not shown)
6. Ink (not shown)
7. Glue (not shown)

A Cigarette filter is a component of a cigarette, along with cigarette paper, capsules and adhesives. The filter may be made from cellulose acetate fibre, paper or activated charcoal (either as a cavity filter or embedded into the cellulose acetate). Macroporous phenol-formaldehyde resins and asbestos have also been used in cigarette filters.[1][2] The acetate and paper modify the particulate smoke phase by particle retention (filtration), and finely divided carbon modifies the gaseous phase (adsorption).[3] Filters can reduce "tar" and nicotine smoke yields up to 50%, with a greater removal rate for other classes of compounds (e.g., phenols), but are ineffective in filtering toxins such as carbon monoxide.[4] Most factory-made cigarettes are equipped with a filter; those who roll their own can buy them from a tobacconist.

History

In 1925, Hungarian inventor Boris Aivaz patented the process of making a cigarette filter from crepe paper.[5]

From 1935, a British company began to develop a machine that made cigarettes incorporating the tipped filter. It was considered a speciality item until 1954, when manufacturers introduced the machine more broadly, following a spate of speculative announcements from doctors and researchers concerning a possible link between lung diseases and smoking. Since filtered cigarettes were considered "safer", by the 1960s, they dominated the market. Production of filter cigarettes skyrocketed from 0.5 percent in 1950 to 87.7 percent by 1975.[6]

Between the 1930s and the 1950s, most cigarettes were 70 mm long. The modern cigarette market includes mainly filter cigarettes that are 80 mm (in boxes), 85 mm (in softpack), 100, or even 120 mm long.[7]

Manufacture

Spent cigarette filter

Cellulose acetate is made by esterifying bleached cotton or wood pulp with acetic acid. Of the three cellulose hydroxy groups available for esterification, between two and three are esterified by controlling the amount of acid (degree of substitution (DS) 2.35-2.55). The ester is spun into fibers and formed into bundles called filter tow. Flavors (menthol), sweeteners, softeners (triacetin), flame retardants (sodium tungstate), breakable capsules releasing flavors on demand, and additives colouring the tobacco smoke may be added to cigarette filters.[8][9] The five largest manufactures of filter tow are Hoechst-Celanese and Eastman Chemicals in the United States, Rhodia Acetow in Germany, Daicel in Japan, and Courtaulds in the United Kingdom.[10]

Starch glues or emulsion-based adhesives are used for gluing cigarette seams. Hot-melt and emulsion-based adhesives are used for filter seams. Emulsion-based adhesives are used for bonding the filters to the cigarettes.[11]

Health risks

In the 1970s epidemiologic evidence relative to tobacco-related cancers and data for coronary heart disease have indicated a reduced risk among filter smokers for these diseases.[12] Between 1970 and 1980 some studies showed a 20-50 % reduction in risk of lung cancer for long-term smokers of filter cigarettes as compared to smokers of non-filter cigarettes (IARC, 1986) but later studies indicated a similar risk for lung cancer in smokers of filter and non-filter cigarettes.[13]

Various add-on cigarette filters ("Water Pik", "Venturi", "David Ross") are sold as stop-smoking or tar-reduction devices. The idea is that filters reduce tar-nicotine levels permitting the smoker to be weaned away from cigarettes.[14]

Light cigarettes

The tobacco industry has reduced tar and nicotine yields in cigarette smoke since the 1960s. This has been achieved in a variety of ways including use of selected strains of tobacco plant, changes in agricultural and curing procedures, use of reconstituted sheets (reprocessed tobacco leaf wastes), incorporation of tobacco stalks, reduction of the amount of tobacco needed to fill a cigarette by expanding it (like puffed wheat) to increase its "filling power", and by the use of filters and high-porosity wrapping papers. However, just as a drinker tends to drink a larger volume of beer than of wine or spirits, so many smokers tend to modify their smoking pattern inversely according to the strength of the cigarette being smoked. In contrast to the standardized puffing of the smoking machines on which the tar and nicotine yields are based, when the smoker switches to a low-tar, low nicotine cigarette, he smokes more cigarettes, takes more puffs and inhales more deeply. Conversely, when smoking a high-tar, high-nicotine cigarette there is a tendency to smoke and inhale less.[15]

A cigarette butt littered on the ground

In spite of all changes in cigarette design and manufacturing over the last 50 years, the use of filters and "light" cigarettes did neither decrease the nicotine intake per cigarette, nor did it lower the incidence of lung cancers (NCI, 2001; IARC 83, 2004; U.S. Surgeon General, 2004).[16] The shift over the years from higher- to lower-yield cigarettes may explain the change in the pathology of lung cancer. That is, the percentage of lung cancers that are adenocarcinomas has increased, while the percentage of squamous cell cancers has decreased. The change in tumor type is believed to reflect the higher nitrosamine delivery of lower-yield cigarettes and the increased depth or volume of inhalation of lower-yield cigarettes to compensate for lower level concentrations of nicotine in the smoke.[17]

Structure formula of cellulose diacetate with one of the acetate groups on the cellulose backbone shown by the red circle.

Safety

Cellulose acetate is non-toxic, odorless, tasteless, and weakly flammable. It is resistant to weak acids and is largely stable to mineral and fatty oils as well as petroleum. It is biodegradable and the raw material is a renewable natural polymer expected to find application for other uses in the future.[10] Smoked cigarette butts contain 5–7 mg nicotine (about 25% of the total cigarette nicotine content), children ingesting >2 whole cigarettes, 6 cigarette butts or a total of 0.5 mg/kg of nicotine should be admitted to a hospital.[18] Cellulose acetate is hydrophilic and retains the water-soluble smoke constituents, of which many are irritating (acids, alkali, aldehydes, and phenols), while letting through the lipophilic aromatic compounds.

Smoked cigarette butts and cigarette tobacco are toxic to water organisms such as Marine topsmelt (Atherinops affinis) and freshwater Fathead minnow (Pimephales promelas).[19]

Atmospheric moisture, gastric acid, light, and enzymes hydrolyze cellulose acetate to acetic acid and cellulose. Cellulose may be further hydrolyzed to cellobiose or glucose in an acidic medium, and eventually form valuable humus. Humans cannot digest cellulose and excrete the fibers in feces, because, unlike ruminant animals, termites, and some bacteria and fungi, they lack cellulolytic enzymes such as cellulase. Like wood, paper and cotton, cigarette filters in soil rot slowly over months to years.

Litter

Cigarette butts are the most common form of anthropogenic (man-made) litter in the world, as approximately 5.6 trillion cigarettes are smoked every year worldwide.[20] Of those it is estimated that 4.5 trillion cigarette butts become litter every year.[21]

Many governments have sanctioned stiff penalties for littering of cigarette filters; for example Washington state imposes a penalty of $1,025 for littering cigarette filters.[22] Another option is developing better biodegradable filters, much of this work lies heavily on the research in the secondary mechanism for photodegradation as stated above. The next option is using cigarette packs with a compartment to discard cigarette butts in, implementing monetary deposits on filters, increasing the availability of butt receptacles, and expanding public education. It may even be possible to ban the sale of filtered cigarettes altogether on the basis of their adverse environmental impact.[23] Recent research has been put into finding ways to utilizes the filter waste, to develop a desired product. One research group in South Korea have developed a simple one-step process that converts the cellulose acetate in discarded cigarette filters into a high-performing material that could be integrated into computers, handheld devices, electrical vehicle and wind turbines to store energy. These materials have demonstrated superior performance as compared to commercially available carbon, graphene and carbon nano tubes. The product is showing high promise as a green alternative for the waste problem.[24] Another group of researchers has proposed adding tablets of food grade acid inside the filters. Once wet enough the tablets will release acid that accelerates degradation to around two weeks (instead of using cellulose triacetate and besides of cigarette smoke being quite acidic).[25]

See also

References

  1. Francois de Dardel; Thomas V. Arden (2007), "Ion Exchangers", Ullmann's Encyclopedia of Industrial Chemistry (7th ed.), Wiley, pp. 1–74, doi:10.1002/14356007.a14_393
  2. Seymour S. Chissick (2007), "Asbestos", Ullmann's Encyclopedia of Industrial Chemistry (7th ed.), Wiley, p. 1-18, doi:10.1002/14356007.a03_151
  3. T. C. Tso (2007), "Tobacco", Ullmann's Encyclopedia of Industrial Chemistry (7th ed.), Wiley, pp. 1–26, doi:10.1002/14356007.a27_123
  4. Robert Kapp (2005), "Tobacco Smoke", Encyclopedia of Toxicology 4 (2nd ed.), Elsevier, pp. 200–202, ISBN 0-12-745354-7
  5. "The History of Filters". tobaccoasia.com. Retrieved 2008-05-18.
  6. Leonard M. Schuman (1977), "Patterns of Smoking Behavior", in Murray E. Jarvik; Joseph W. Cullen; Ellen R. Gritz; Thomas M. Vogt; Louis Jolyon West, Research on Smoking Behavior (PDF), NIDA Research Monograph 17, pp. 36–65
  7. Lynn T. Kozlowski (1983), "Physical Indicators of Actual Tar and Nicotine Yields of Cigarettes", in John Grabowski; Catherine S. Bell, Measurement in the Analysis and Treatment of Smoking Behavior (PDF), NIDA Research Monograph 48, U.S. Dept. of Health and Human Services, pp. 50–61
  8. Ralf Christoph; Bernd Schmidt; Udo Steinberner; Wolfgang Dilla; Reetta Karinen (2007), "Glycerol", Ullmann's Encyclopedia of Industrial Chemistry (7th ed.), Wiley, pp. 1–16, doi:10.1002/14356007.a12_477.pub2
  9. Erik Lassner; Wolf-Dieter Schubert; Eberhard Luderitz; Hans Uwe Wolf (2007), "Tungsten, Tungsten Alloys, and Tungsten Compounds", Ullmann's Encyclopedia of Industrial Chemistry (7th ed.), Wiley, pp. 1–37, doi:10.1002/14356007.a27_229
  10. 1 2 Klaus Balser; Lutz Hoppe; Theo Eicher; Martin Wandel; Hans-Joachim Astheimer; Hans Steinmeier (2007), "Cellulose Esters", Ullmann's Encyclopedia of Industrial Chemistry (7th ed.), Wiley, pp. 1–45, doi:10.1002/14356007.a05_419.pub2
  11. Werner Haller; Hermann Onusseit; Gerhard Gierenz; Werner Gruber; Richard D. Rich; Günter Henke; Lothar Thiele; Horst Hoffmann; Dieter Dausmann; Riza-Nur Özelli; Udo Windhövel; Hans-Peter Sattler; Wolfgang Dierichs; Günter Tauber; Michael Hirthammer; Christoph Matz; Matthew Holloway; David Melody; Ernst-Ulrich Rust; Ansgar van Halteren (2007), "Adhesives", Ullmann's Encyclopedia of Industrial Chemistry (7th ed.), Wiley, pp. 1–70, doi:10.1002/14356007.a01_221
  12. Ernst L. Wynder (1977), "Interrelationship of Smoking to Other Variables and Preventive Approaches", in Murray E. Jarvik; Joseph W. Cullen; Ellen R. Gritz; Thomas M. Vogt; Louis Jolyon West, Research on Smoking Behavior (PDF), NIDA Research Monograph 17, pp. 67–95
  13. K. Rothwell; et al. (1999), Health effects of interactions between tobacco use and exposure to other agents, Environmental Health Criteria (211), World Health Organization
  14. Jerome L. Schwartz (1977), "Smoking Cures: Ways to Kick an Unhealthy Habit", in Murray E. Jarvik; Joseph W. Cullen; Ellen R. Gritz; Thomas M. Vogt; Louis Jolyon West, Research on Smoking Behavior (PDF), NIDA Research Monograph 17, pp. 308–336
  15. Michael A. H. Russell (1977), "Smoking Problems: An Overview", in Murray E. Jarvik; Joseph W. Cullen; Ellen R. Gritz; Thomas M. Vogt; Louis Jolyon West, Research on Smoking Behavior (PDF), NIDA Research Monograph 17, pp. 13–34
  16. Anthony J. Alberg; Jonathan M. Samet (2010), "Epidemiology of Lung Cancer", in Robert J. Mason; V. Courtney Broaddus; Thomas R. Martin; Talmadge E. King, Jr.; Dean E. Schraufnagel; John F. Murray; Jay A. Nadel, Murray and Nadel's Textbook of Respiratory Medicine 1 (5th ed.), Saunders, ISBN 978-1-4160-4710-0
  17. Neal L. Benowitz; Paul G. Brunetta (2010), "Smoking Hazards and Cessation", in Robert J. Mason; V. Courtney Broaddus; Thomas R. Martin; Talmadge E. King, Jr.; Dean E. Schraufnagel; John F. Murray; Jay A. Nadel, Murray and Nadel's Textbook of Respiratory Medicine 1 (5th ed.), Saunders, ISBN 978-1-4160-4710-0
  18. Jerrold B. Leikin; Frank P. Paloucek, eds. (2008), "Nicotine", Poisoning and Toxicology Handbook (4th ed.), Informa, pp. 494–496, ISBN 978-1-4200-4479-9
  19. Sluaghter E, Gersberg RM, Watanabe K, Rudolph J, Stransky C, Novotny TE (2011). "Toxicity of cigarette butts, and their chemical components, to marine and freshwater fish". Tobacco Control 20: 25–29. doi:10.1136/tc.2010.040170.
  20. Novotny TE, Lum K, Smith E; et al. (2009). "Cigarettes butts and the case for an environmental policy on hazardous cigarette waste". International Journal of Environmental Research and Public Health 6: 1691–705. doi:10.3390/ijerph6051691.
  21. "The world litters 4.5 trillion cigarette butts a year. Can we stop this?". The Houston Chronicle. Retrieved 2014-09-16.
  22. "Accidents, fires: Price of littering goes beyond fines". Washington: State of Washington Department of Ecology. 2004-06-01.
  23. "Cigarette Butts and the Case for an Environmental Policy on Hazardous Cigarette Waste". Retrieved 2009-09-21.
  24. Minzae L, Gil-Pyo K, Hyeon DS, Soomin P, Jongheop Y (2014). "Preparation of energy storage material derived from a used cigarette filter for a supercapacitor electrode". IOP Science 25: 34.
  25. . Environmental Health News. 2012-07-14 http://www.environmentalhealthnews.org/ehs/newscience/2012/06/2012-0725-biodegradable-cigarette-filters. Missing or empty |title= (help)
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