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Influence of public financial support on the process of roof covering replacement and safety of civil structures

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Języki publikacji
EN
Abstrakty
EN
This article constitutes an analysis of the influence of public financial support on the process of replacement of the asbestos-cement sheets used as a roof covering for materials safe for the environment. Commonly used asbestos-cement sheets, known under the commercial name of „Eternit”, should be removed of civil structures by 2032 following a program established by the Polish state. However, the carried-out analysis indicates that until present times the products containing asbestos have been properly identified in all municipalities across Poland, and also the amount of financial support that a property owner may obtain for removal of products containing asbestos is relatively low comparing to the costs of the roofing replacement. The cost of roof covering replacement falls within the range. 18.417 – 41.232 PLN/m², so for the roof area of 100 m² and considering the simplest roof structure (gable roof) the cost would total between 18.417 and 41.232 PLN. Therefore the existing system of public financial support providing funds for asbestos removal only will not affect the investor’s decision regarding replacement of roof covering and increase of civil structures safety. The replacement process of dangerous Eternit roof covering is slow and most probably the established programmed will not be completed on time.
Wydawca
Rocznik
Strony
259--267
Opis fizyczny
Bibliogr. 19 poz., tab.
Twórcy
  • Czestochowa University of Technology, Poland
  • Czestochowa University of Technology, Poland
Bibliografia
  • [1] Annex to the Resolution No. 39/2010 of the Council of Ministers of 15 March 2010 - Programme for asbestos abatement in Poland 2009-2032.
  • [2] Asbestos datebase. Available online: https://www.bazaazbestowa.gov.pl/en/ (accessed on 10 November 2019).
  • [3] Bernaciak, A., Bernaciak, A., 2016. The efficiency of systemic solutions for the removal of asbestos in Poland – current status and prospects, Economic and Environmental Studies, 16, 787-801.
  • [4] Domka, L., Domka, L., Kozak, M., 2001. Utilization of asbestos wastes, Physicochemical Problems of Mineral Processing, 35, 83-90.
  • [5] Gualtieri, A., F., Giacobbe, C., Sardisco, L., Saraceno, M., Gualtieri, M. L., Lusvardi, G., Cavenati, C., Zanatto , I., 2011. Recycling of the product of thermal inertization of cement-asbestos for various industrial application, Waste Manage, 31, 91–100.
  • [6] Gualtieri, A., Boccaletti, M., 2011. Recycling of the product of thermalinertization of cement-asbestos for the production of concrete, Constr. Build. Mater., 25, 3561–3569. doi.org/10.1016/j.wasman.2010.07.006
  • [7] Kozawa, T., Onda, A., Yanagisawa, K., Chiba, O., Ishiwara, H., Takanami, T., 2010. Thermal-decomposition of chrysotile-containing wastes in a water vaporatmosphere, J. Ceram Soc. Jpn., 118, 1199–1201. DOI: 10.2109/jcersj2.118.1199
  • [8] Krynke, M., Mielczarek, K., 2016. Problems concerning product quality enhancement, Production Engineering Archives, 10, 17-20. DOI: 10.30657/pea.2016.10.05
  • [9] Kusiorowski, R., Zaremba, T., Piotrowski J., Gerle A., 2013. Thermal decomposition of asbestos-containing materials, J. Therm. Anal. Calorim., 113, 179–188. DOI 10.1007/s10973-013-3038-y.
  • [10] Law from 19 June 1997 on the prohibition of the use of asbestos-containing products (Dz. U. 1997, 101, poz. 628).
  • [11] Li, J., Dong, Q., Yu, K., Liu, L., 2014. Asbestos and asbestos waste management in the Asian-Pacific region: Trends, challenges and solutions, J. Clean. Prod., 81, 218-226.
  • [12] Maciołek, H., Zielińska, A., Domarecki, T., 2012. The impact of asbestos on people and the environment, Journal of Ecology and Health, 16, 112-119.
  • [13] Nam, S. N., Jeong, S., Lim, H., 2014. Thermochemical destruction of asbestos-containing roofing slate and the feasibility of using recycled waste sulfuric acid, J. Hazard. Mater., 265, 151-157.
  • [14] Paglietti, F., Malinconico, S., Conestabile della Staffa, B., Bellagamba, S., De Simone, P., 2016. Classification and management of asbestos-containing waste: European legislation and the Italian experience, Waste Manag., 50, 130-150.
  • [15] Plescia, P., Gizzi, D., Benedetti, S., Camilucci, L., Fanizza, C., De Simone, P., Paglietti, F., 2003. Mechanochemical treatment to recycling asbestos-containing waste. Waste Manag., 23, 209-218.
  • [16] Toyokuni, S., 2009. Mechanisms of asbestos -Induced carcinogenesis, Ngoya J. Med. Sci., 71, 1-10.
  • [17] Ulewicz, R., 2016. Quality management system operation in the woodworking industry, The Path Forward for Wood Products: A Global Perspective - Proceedings of Scientific Papers, 51-56.
  • [18] Ulewicz, R., 2013. Effectiveness assessment of functioning of quality assurance system, Production Engineering Archives, 1, 38-40. DOI: 10.30657/pea.2013.01.12.
  • [19] Wachowski, L., Domka L., 2000. Sources and effects of asbestos and other mineral fibres presence in ambient air, Pol. J. Environ. Stud., 9, 443-454.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-7b46ad46-0138-4363-9486-697e859efd78
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