Metode za procenu održivosti i poboljšanja kvaliteta untrašnjeg vazduha

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Aleksandar Petrovski Aleksandar S. Andjelkovic

Apstrakt

Ljudi provode skoro 90% svog vremena u zatvorenom prostoru, a u određenim zemljama unutrašnji može biti zagađeniji od spoljašnjeg vazduha. Građevinski materijali su glavni izvori isparljivih organskih jedinjenja u unutrašnjem okruženju. Ovi aspekti naglašavaju važnost čistog i održivog unutrašnjeg okruženja. Postoji nekoliko metoda za procenu održivosti koje su uspostavljene i koje uzimaju u obzir aspekt kvaliteta vazduha u zatvorenom prostoru. Ovaj rad ima za cilj da ispita i uporedi relevantne metode za procenu održivosti i liste materijala koji bi pomogli inženjerima tokom procesa projektovanja zgrade da procene predlog projekta i odaberu manje zagađujuće i više održive materijale. Takođe, ovaj rad ima za cilj da analizira korelaciju štetnih jedinjenja sa određenim grupama građevinskih materijala i ispita zamenu materijala za poboljšanje kvaliteta vazduha. Zaključci ovog istraživanja pokazuju da metode procene održivosti pružaju inženjerima snažne smernice u fazi projektovanja kako bi stvorili zdravo unutrašnje okruženje

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Kako citirati
PETROVSKI, Aleksandar; ANDJELKOVIC, Aleksandar S.. Metode za procenu održivosti i poboljšanja kvaliteta untrašnjeg vazduha. Zbornik Međunarodnog kongresa o KGH, [S.l.], v. 54, n. 1, p. 79-83, apr. 2024. Dostupno na: <https://izdanja.smeits.rs/index.php/kghk/article/view/7883>. Datum pristupa: 15 sep. 2024
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Reference

*** WHO Regional Office for Europe. WHO/Europe | WHO guidelines for indoor air quality: dampness and mould. World Health Organization 2009; 2009.
[2] Kubečková D, Kraus M, Šenitková IJ, Vrbová M. The Indoor Microclimate of Prefabricated Buildings for Housing: Interaction of Environmental and Construction Measures. Sustainability 2020;12:10119. https://doi.org/10.3390/su122310119.
[3] McGill G, Oyedele LO, McAllister K, Qin M. Effective indoor air quality for energy-efficient homes: a comparison of UK rating systems. Archit Sci Rev 2016;59:159–73. https://doi.org/10.1080/00038628.2015.1078222.
[4] Levin H. Building materials and indoor air quality. Occup Med Phila Pa 1989;4:667–93.
[5] Altomonte S, Schiavon S, Kent MG, Brager G. Indoor environmental quality and occupant satisfaction in green-certified buildings. Build Res Inf 2017;0:1–20. https://doi.org/10.1080/09613218.2018.1383715.
[6] Salthammer T, Schieweck A, Gu J, Ameri S, Uhde E. Future trends in ambient air pollution and climate in Germany – Implications for the indoor environment. Build Environ 2018;143:661–70. https://doi.org/10.1016/j.buildenv.2018.07.050.
[7] *** EPA U. US Environmental Protection Agency n.d. http://www.epa.gov/ (accessed November 10, 2014).
[8] *** LEED rating system | U.S. Green Building Council 2020. https://www.usgbc.org/leed (accessed August 5, 2019).
[9] *** BREEAM 2015. www.breeam.org.
[10] *** Living Building Challenge 3.1 2018. http://living-future.org/lbc (accessed December 29, 2018).
[11] *** DGNB 2015. www.dgnb.de.
[12] *** Declare - International Living Future Institute 2021. https://declare.living-future.org/ (accessed October 7, 2021).
[13] Mata TM, Oliveira GM, Monteiro H, Silva GV, Caetano NS, Martins AA. Indoor Air Quality Improvement Using Nature-Based Solutions: Design Proposals to Greener Cities. Int J Environ Res Public Health 2021;18:8472. https://doi.org/10.3390/ijerph18168472.
[14] Mata TM, Felgueiras F, Martins AA, Monteiro H, Ferraz MP, Oliveira GM, et al. Indoor Air Quality in Elderly Centers: Pollutants Emission and Health Effects. Environments 2022;9:86. https://doi.org/10.3390/environments9070086.
[15] González-Martín J, Kraakman NJR, Pérez C, Lebrero R, Muñoz R. A state–of–the-art review on indoor air pollution and strategies for indoor air pollution control. Chemosphere 2021;262:128376. https://doi.org/10.1016/j.chemosphere.2020.128376.
[16] Wei W, Ramalho O, Mandin C. Indoor air quality requirements in green building certifications. Build Envi-ron 2015;92:10–9. https://doi.org/10.1016/j.buildenv.2015.03.035.
[17] *** Air Quality Monitoring for LEED Green Building Certification n.d. https://atmotube.com/blog/air-quality-monitoring-for-leed-green-building-certification (accessed October 5, 2023).