Bibliografia

[1] Fisk WJ (2017): The ventilation problem in schools: literature review. Indoor Air 27: 1039–1051

[2] Tang X, Misztal PK, Nazaroff WJ, Goldstein AH (2016): Volatile organic compound emissions from humans indoors. Environmental Science & Technology 50: 12686–12694

[3] Braniš M, Řezáčová P, Domasová M (2005): The effect of outdoor air and indoor human activity on mass concentrations of PM10, PM2.5, and PM1 in a classroom. Environmental Research 99: 143–149

[4] Jacobs JJH, Krop EJM, de Wind S, Spithoven J, Heederik DJJ (2013): Endotoxin levels in homes and classrooms of Dutch school children and respiratory health. European Respiratory Journal 42: 314–322

[5] Wargocki P (2004): Sensory pollution sources in buildings. Indoor Air 14 (Suppl 7): 82–91

[6] Daisey JM, Angell WJ, Apte MG (2003): Indoor air quality, ventilation and health symptoms in schools: an analysis of existing information. Indoor Air 13: 53–64

[7] Bischof W, Wiesmüller GA (2007): Das Sick Building Syndrome (SBS) und die Ergebnisse der ProKlimA Studie. Umweltmedizin in Forschung und Praxis 12: 23–42

[8] European Collaborative Action «Indoor Air Quality & Its Impact on Man» ECA IAQ (1992): Report No. 11: Guidelines for Ventilation Requirements in Buildings, EUR 14449 EN, Publications Office of the European Union, Luxembourg

[9] Zhang X, Wargocki P, Lian Z, Thyregod C (2017): Effects of exposure to carbon dioxide and bioeffluents on perceived air quality, self-assessed acute health symptoms and cognitive performance. Indoor Air 27: 47–64

[10] EN 15251 (2007): Indoor environmental input parameters for design and assessment of energy performance of buildings – addressing indoor air quality, thermal environment, lighting and acoustics. CEN, Brussels (SIA 382.706)

[11] Cain WS, Leaderer BP, Isseroff R, Berglund LG, Huey RJ, Lipsitt ED, Perlman D (1983): Ventilation requirements in buildings—I. Control of occupancy odor and tobacco smoke odor. Atmospheric Environment 17: 1183–1197

[12] Wargocki P, Sundell J, Bischof W, Brundrett G, Fanger PO, Gyntelberg F, Hanssen SO, Harrison P, Pickering A, Seppänen O, Wouters P. (2002): Ventilation and health in non-industrial environments: report from a European Multidisciplinary Scientific Consensus Meeting (EUROVEN). Indoor Air 12: 113–128

[13] Fisk WJ, Mirer MJ, Mendell MJ (2009): Quantitative relationship of sick building syndrome symptoms with ventilation rates. Indoor Air 19: 159–165

[14] Seppänen O, Fisk WJ, Lei QH (2006): Ventilation and performance in office work. Indoor Air 16: 28–36

[15] Wargocki P, Sundell J, Bischof W, Brundrett G, Fanger PO, Gyntelberg F, Hanssen SO, Harrison P, Pickering A, Seppänen O, Wouters P. (2002): The role of ventilation and HVAC systems for human health in non-industrial indoor environments. A supplementary review by EUROVEN group. Proceedings of Indoor Air 2002: 33–38

[16] Annesi-Maesano I, Baiz N, Banerjee S, Rudnai P, Rive S (2013): Indoor air quality and sources in schools and related health effects. Journal of Toxicology and Environmental Health, Part B 16: 491–550

[17] Wargocki P, Wyon DP (2006): Research report on effects of HVAC on student performance. ASHRAE Journal 48: 23–26

[18] Bakó-Biró Zs, Clements-Croome DJ, Kochhar N, Awbi HB, M.J. Williams MJ (2011): Ventilation rates in schools and pupils’ performance. Building and Environment 48: 1–9

[19] Haverinen-Shaughnessy U, Moschandreas DJ, Shaughnessy RJ (2011): Association between substandard classroom ventilation rates and students’ academic achievement. Indoor Air 21: 121–13

[20] Ad-hoc-Arbeitsgruppe Innenraumrichtwerte der Innenraumlufthygiene-Kommission des Umweltbundesamtes und der Obersten Landesgesundheitsbehörde (Ad-hoc AG IRK/AOLG) (2008): Gesund­heitliche Bewertung der Kohlendioxidkonzentration in der Innenraumluft. Bundesgesundheitsblatt – Gesundheitsforschung – Gesundheitsschutz 51: 1358–1369

[21] Pettenkofer M (1858): Über den Luftwechsel in Wohngebäuden. Literarisch-Artistische Anstalt der J.G. Cotta’schen Buchhandlung, München

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