Obecność związków lotnych w kabinach nowych i używanych samochodów osobowych : źródła i metody badań

• Autorzy: Faber J.

Warianty tytułu

EN

The presence of volatile compounds in new and used vehicles‘ interiors : their sources and test methods

• Języki publikacji: PL

Abstrakty

PL

W pracy przedstawiono aktualny stan wiedzy na temat jakości powietrza w kabinie samochodu. Zamieszczony został przegląd literatury dotyczący badań lotnych związków organicznych w kabinach nowych i używanych samochodów. W kabinach nowych samochodów związki organiczne pochodzą głównie z odgazowania materiałów, użytych do wyposażenia kabiny, a ich stężenie maleje z czasem użytkowania samochodu. W samochodach używanych miejsce związków organicznych, wyemitowanych z materiałów, zajmują substancje pochodzące głównie ze spalania paliwa. Badania jakości powietrza w kabinach samochodów używanych w ruchu są prowadzone na szerszą skalę, niż badania jakości powietrza w samochodach nowych i mają głównie na celu ocenę narażenia ludzi na szkodliwe związki z grupy BTEX (benzen, toluen, etylobenzen, izomery ksylenu). Znacznie mniej badań prowadzonych jest w kabinach samochodów nowych, czego powodem jest różnorodność dostępnych materiałów, możliwych do zastosowania w kabinie samochodu, oraz modeli samochodów. W pracy przedstawiono również podsumowanie stosowanych procedur badawczych. Próbki powietrza były głównie pobierane metodą aktywną na adsorbenty stałe oraz analiza metodą chromatografii gazowej po wcześniejszej desorpcji temperaturowej.

EN

The state of current knowledge on air quality in vehicle’s interior is presented. The literature overview on volatile organic compounds research in the cabins of new and used vehicles is presented. In new vehicles’ cabins organic compounds originate from the off-gassing of materials which were used to equip vehicle’s interior, and their concentration decreases with time of usage. In used vehicles, the place of organic compounds, which were emitted from materials, take substances originating mainly from fuel combustion. Air quality investigation in traffic-used vehicles are conducted on larger scale than air quality investigation in new vehicles and aim mainly on human exposure to harmful compounds from the group of BTEX (benzene, toluene, ethylbenzene, isomers of xylene). Significantly less research are conducted in cabins of new vehicles, due to both variety of available materials used to equip vehicle’s interior, and car models. The summary of research procedures is also described. Air samples were mainly collected by active method on solid sorbents and analysed by gas chromatography after thermal desorption.

Słowa kluczowe

PL

jakość powietrza; lotne związki organiczne; samochód nowy; samochód używany; kabina

EN

air quality; volatile organic compounds; new vehicle; used vehicle; cabin

• Wydawca: Sieć Badawcza Łukasiewicz - Poznański Instytut Technologiczny
• Czasopismo: Logistyka
• Rocznik: 2015
• Tom: nr 3
• Strony: 1244--1253, CD 1
• Opis fizyczny: Bibliogr. 44 poz., rys.

Twórcy

autor

Faber J.

• Instytut Badań i Rozwoju Motoryzacji BOSMAL Sp. z o.o., ul. Sarni Stok 93, 43-300 Bielsko-Biała ; Tel: +48 33 813 04 04

Bibliografia

• 1. Mandalakis M., Stephanou E. G., Horii Y., Kannan K., Emerging contaminants in car interiors: evaluating the impact of airborne PBDEs and PBDD/Fs. Environmental Science and Technology 2008, nr 42 (6431-6436).
• 2. Yoshida T., Matsunaga I., A case study on identification of airborne organic compounds and time courses of their concentration in the cabin of a new car for private use. Environment International 2006, nr 32 (58-79).
• 3. Weisel C. P., Automobile, bus and rail passenger air quality. HdbEnvChem 2005, nr 4, część H (317-334).
• 4. Chan Ch. – Ch., Özkaynak H., Spengler J. D., Sheldon L., Driver exposure to volatile organic compounds, CO, ozone and NO2 under different driving conditions. Environmental Science and Technology 1991, nr 25 (964-972).
• 5. Parra M. A., Elustondo D., Bernejo R., Santamaria J. M., Exposure to volatile organic compounds (VOC) in public buses of Pamplona, Northern Spain. Science of the Total Environment 2008, nr 404 (18-25).
• 6. Johansson I., The role of volatile organic compounds in the assessment of indoor air quality. Karolinska Institutet, Sztokholm 1999.
• 7. Jones A. P., Indoor air quality and health. Atmospheric Environment 1999, nr 33 (4535-4564).
• 8. Zabiegała B., Organic compounds in indoor environments. Polish Journal of Environmental Studies 2006, nr 15 (383-393).
• 9. Tucker W. G., Volatile organic compounds w: Indoor Air Quality Handbook. J. D. Spengler, J. M. Samet, J. F. McCarthy, The McGraw – Hill Companies Inc. 2001, (31.1-31.20).
• 10. Van der Wal J. F., Hoogeveen A. W., Wouda P., The influence of temperature on the emission of volatile organic compounds from PVC flooring, carpet, and paint. Indoor Air 1997, nr 7 (215-221).
• 11. Levin H., Building materials and indoor air quality. Occupational Medicine: State of the Art Reviews 1989, nr 4 (667-693).
• 12. Geiss O., Tirendi S., Barrero – Moreno J., Kotzias D., Investigation of volatile organic compounds and phthalates present in the cabin air of used private cars. Environment International 2009, nr 35 (1188-1195).
• 13. Yoshida T., Matsunaga I., Tomioka K., Kumagai S., Interior air pollution in automotive cabins by volatile organic compounds diffusing from interior materials: I. Survey of 101 types of Japanese domestically produced cars for private use. Indoor and Built Environment 2006, nr 15,5 (425-444).
• 14. Chien Y. – Ch., Variations in amounts and potential sources of volatile organic chemicals in new cars. The Science of the Total Environment 2007, nr 382 (228-239).
• 15. Zhang G. – S., Li T. – T., Luo M., Lin J. – F., Lin Z. – R., Bai Y. – H., Air pollution in the microenvironment of parked new cars. Building and Environment 2008, nr 43 (315-319).
• 16. Indoor air quality hazards of new cars. Air Quality Sciences, Inc. 2006.
• 17. You K. – W., Ge Y. – S., Hu B., Ning Z. – W., Zhao S. – T., Zhang Y. – N., Xie P., Measurement of in-vehicle volatile organic compounds under static conditions. Journal of Environmental Sciences 2007, nr 19 (1208-1213).
• 18. Cho Y., Park D. – S., Kwon S. – B., Characterization of VOC emissions from interior materials of railroad passenger cabin and preparation of environment-friendly interior materials. Korea Railroad Research Institute
• 19. Fedoruk M. J., Kerger B. D., Measurement of volatile organic compounds inside automobiles. Journal of Exposure Analysis and Environmental Epidemiology 2003, nr 13 (31-41).
• 20. Grabbs J. S., Corsi R. L., Torres V. M., Volatile organic compounds in new automobiles: screening assessment. Journal of Environmental Engineering 2000 (974-977).
• 21. Fung W., Hardcastle M., Textiles in automotive engineering. The Textile Institute, Cambridge, England. Woodhead Publishing Ltd 2001.
• 22. Schupp T., Bolt H. M., Hengstler J. G., Maximum exposure levels for xylene, formaldehyde and acetaldehyde in cars. Toxicology 2005, nr 206 (461-470).
• 23. Yoshida T., Matsunaga I., Tomioka K., Kumagai S., Interior air pollution in automotive cabins by volatile organic compounds diffusing from interior materials: II. Influence of manufacturer,specifications and usage status on air pollution, and estimation of air pollution levels in initial phases of delivery as a new car. Indoor and Built Environment 2006, nr 15,5 (445-462).
• 24. Buters J. T. M., Schober W., Gutermuth I., Jakob T., Aguilar-Pimentel A., Huss-Marp J., Traidl-Hoffmann C., Mair S., Mair S., Mayer F., Breuer K, Behrendt H., Toxicity of parked motor vehicle indoor air. Environmental Science and Technology 2007, nr 41 (2622-2629).
• 25. Leung P. – L., Harrison R. M., Roadside and in-vehicle concentrations of monoaromatic hydrocarbons. Atmospheric Environment 1999, nr 33 (191-204).
• 26. Jo W. K., Lee J. H., Naphthalene and benzene levels in microenvironments associated with potential exposure: new and old apartments with moth repellents, and cabins of passenger cars. International Journal of Environmental Analytical Chemistry 2011, nr 91 (1412-1424).
• 27. Som D., Dutta C., Chatterjee A., Mallick D., Jana T. K., Sen S., Studies on commuters’ exposure to BTEX in passenger cars in Kolkata, India. The Science of the Total Environment 2007, nr 372 (426-432).
• 28. Rahman Md. M., Kim K. – H., Exposure to hazardous volatile pollutants back diffusing from automobile exhaust systems. Journal of Hazardous Materials 2012, nr 241-242 (267-278).
• 29. Dor F., Le Moullec Y., Fresty B., Exposure of city residents to carbon monoxide and monocyclic aromatic hydrocarbons during commuting trips in the Paris metropolitan area. Journal of the Air and Waste Management Association 1995, nr 45 (103-110).
• 30. Kim Y. M., Harrad S., Harrison R. M., Concentrations and sources of VOCs in urban domestic and public microenvironments. Environmental Science and Technology 2001, nr 35 (997-1004).
• 31. Kingham S., Meaton J., Sheard A., Lawrenson O., Assessment of exposure to traffic-related fumes during the journey to work. Transportation Research 1998, Part D 3 (271-274).
• 32. Fromme H., Oddoy A., Piloty M., Krause M., Lahrz T., Polycyclic aromatic hydrocarbons (PAH) and diesel engine emission (elemental carbon) inside a car and a subway train. The Science of the Total Environment 1998, nr 217 (165-173).
• 33. Jo W. – K., Yu Ch. – H., Public bus and taxicab drivers’ exposure to aromatic work-time Volatile Organic Compounds. Environmental Research Section A 2001, nr 86 (66-72).
• 34. Jo W. K., Choi S. – J., Vehicle occupants’ exposure to aromatic Volatile Organic Compounds while commuting on an urban-suburban route in Korea. Journal of the Air and Waste Management Association 1996, nr 46 (749-754).
• 35. Jo W. – K., Park K. – H., Concentrations of volatile organic compounds in automobile’s cabins while commuting along a Korean urban area. Environmental International 1998, nr 24 (259-265).
• 36. Jo W. – K., Park K. – H., Concentrations of volatile organic compounds in the passenger side and the back seat of automobiles. Journal of Exposure Analysis and Environmental Epidemiology 199, nr 9 (217-227).
• 37. Jo W. – K., Park K. – H., Commuter exposure to volatile organic compounds under different driving conditions. Atmospheric Environment 1999, nr 33 (409-417).
• 38. Jo W. – K., Song K. – B., Exposure to volatile organic compounds for individuals with occupations associated with potential exposure to motor vehicle exhaust and/or gasoline vapor emissions. The Science of the Total Environment 2001, nr 269 (25-37).
• 39. Jo W. – K., Lee J. – W., In-vehicle exposure to aldehydes while commuting on real commuter routes in a Korean urban area. Environmental Research Section A 2002, nr 88 (44-51).
• 40. Batterman S. A., Peng Ch. – Y., Braun J., Levels and composition of volatile organic compounds on commuting routes in Detroit, Michigan. Atmospheric Environment 2002, nr 36 (6015-6030).
• 41. Riediker M., Williams R., Devlin R., Griggs T., Bromberg P., Exposure to particulate matter, volatile organic compounds and other air pollutants inside patrol cars. Environmental Science and Technology 2003, nr 37 (2084-2093).
• 42. Chan Ch. – Ch., Spengler J. D., Özkaynak H., Lefkopoulou M., Commuter exposures to VOCs in Boston, Massachusetts. Journal of the Air and Waste Management Association 1991, nr 41 (1594-1600).
• 43. Lawryk N. J., Weisel C. P., Concentrations of Volatile Organic Compounds in the passenger compartments of automobiles. Environmental Science and Technology 1996, nr 30 (810-816).
• 44. Ilgen E., Levsen K., Angerer J., Schneider P., Heinrich J., Wichmann H.-E., Aromatic hydrocarbons in the atmospheric environment. Part III: personal monitoring. Atmospheric Environment 2001, nr 35 (1265-1279).