Rambler's Top100

Rambler's Top100

Yandex.CN    ,     .

  • 1, 2015

    1. Columbia University Waste Map. Available at: www.seas.columbia.edu/earth/recycle (accessed 10 December 2014).

    2. Municipal solid waste in the United States: 2011 facts and figures. United States Environmental Protection Agency, 2013. Available at: www.epa.gov/osw/nonhaz/municipal/pubs/MSWcharacterization_fnl_060713_2_rpt.pdf.

    3. Termicheskoe obezvrezhivanie otkhodov: teorija i praktika, mify i legendy-2 [Thermal treatment waste neutralization: theory and practice, myths and legends 2]. Available at: www.ecologcontrol.ru/termicheskoeobezvrezhivanie-othodov-teoriya-i-praktika-mify-i-legendy-2 (accessed 10 December 2014).

    4. Recycling remains a rarity in Eastern Europe. Available at: www.statista.com/chart/1312/recyclingremains-a-rarity-in-eastern-europe (accessed 10 December 2014).

    5. Yunker M. B., Macdonald R. W., Vingarzan R. et al. PAHs in the Fraser River basin: a critical appraisal of PAH ratios as indicators of PAH source and composition. Organic Geochemistry, 2002, Vol. 33, pp. 489515.

    6. Rovinsky F. Ya, Teplitskaja . ., Alekseeva . . Fonovyj monitoring politsiklicheskikh aromaticheskikh uglevodorodov [Polycyclic aromatic hydrocarbons monitoring], Saint Petersburg, Gidrometeoizdat, 1988, 226 p.

    7. Sakari M. Depositional history of polycyclic aromatic hydrocarbons: Reconstruction of petroleum pollution record in peninsular Malaysia. Organic pollutants ten years after the Stockholm Convention. Environmental and analytical update. Edited by T. Puzyn and A. Mostrag-Szlichtyng, InTech, 472 p.

    8. Tig nu D., Coatu V., Laz r L. et al. Identification of the sources of polycyclic aromatic hydrocarbons in sedimentsfrom the Romanian Black Sea sector. Cercet ri Marine, Issue 43, pp. 187196.

    9. Soclo H. H., Garrigues P., Ewald M., 2000. Origin of polycyclic aromatic hydrocarbons (PAHs) in coastal marine sediments: case studies in Cotonou (Benin) and Aquitaine (France) areas. Marine Pollution Bulletin. 40, pp. 387396.

    10. Batoev V. B., Vajsflog L., Ventsel .-D. et al. Zagrjaznenie bassejna ozera Bajkal: poliaromaticheskie uglevodorody [Baykal lake pollution: polyaromatic hydrocarbons], Khimia v interesakh ustojchivogo razvitia, 2003, Vol. 11, no. 6, pp. 837842.

    11. Fandeeva . ., Semenov S. Yu. Razrabotka metoda opredelenija policiklicheskikh aromaticheskikh uglevodorodov v letuchej zole [Method of polyaromatic hydrocarbons detection in fly ashes]. Aktualnye problem ekologii i prirodopolzovania. Iss. 11. Moscow, Energia Publishing House, 2009, pp. 256258.

    12. Sato M., Tojo Y., Matsuo T., Matsuto T. Investigation of polycyclic aromatic hydrocarbons (PAHs) content in bottom ashes from some japanese waste incinerators and simple estimation of their fate in landfill. Sustainable Environment Research, 2011, Vol. 21(4), pp. 216227.

    13. Lee W.-J., Liow M.-C., Tsai P.-J., Hsieh L.-T. Emission of polycyclic aromatic hydrocarbons from medical waste incinerators. Atmospheric Environment, Vol. 36, 2002, pp. 781790.

    14. Incinerator Monitoring Program. 2012 Screening Summary for Organic Constituents. Available at: www.ongov.net/health/documents/2012IncineratorReport-Organics.pdf (accessed 15 February 2014).

    15. Wang L.-C., Lin L.-F., Lai S.-O. Emissions of polycyclic aromatic hydrocarbons from fluidized and fixed bed incinerators disposing petrochemical industrial biological sludge. Journal of hazardous Materials, Vol. 168, 2009, pp. 438444.

    16. Khaustov . P., Redina . . Transformatsya nefteproduktov kak istochnik toksichnykh zagrjaznenij prirodnykh sred [Petroleum products transforming as a source of environment pollution]. Ekologija i promyshlennost Rossii, 2012, no. 12, pp. 3844.



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