The Pressure Resistance of Odor Traps for Sanitary Appliances and their Impact on the Hygiene of an Indoor Environment

Cheng, L. – Ho, C. – Lu, H. (2004) Current Design of High-Rise Building Drainage System in Taiwan. CIB W062 Symposium pp. 329 - 345. Available at: https://www.irbnet.de/daten/iconda/CIB10515.pdf (accessed at 12/04/2022). Search in Google Scholar

Dobromyslov, A. (1978) Rasčet i konstruirovanije system kanalizacii zdanij (Calculation and construction drainage in buldings). 1st ed., Strojizda, Moscow. Search in Google Scholar

Heinrichs, F. – Rickmann, B. – Sondergeld, K. – Störrlein, K. (2010) Kommentar zum DIN 1986-100 and EN 12056-4. Gebäude und Grund stucksentwässerung (Comment on DIN 1968-100 and EN 12056-4. Drainage of buildings). DIN Deutsches Institut für Normung, pp. 126–127 ISBN 978-3-410-20533-3. Search in Google Scholar

Hung, H. C. – Chan, D. W. – Law, L. K. – Chan, E. H. – Wong, E. S. (2006) Industrial Experience and Research into the Causes of SARS Virus Transmission in a High-Rise Residential Housing Estate in Hong Kong. In: Building Serv. Eng. Res. Tech. 27 (2), 91–102. https://doi.org/10.1191/0143624406bt145oa Search in Google Scholar

Gormley, M. – Kelly, D. – Campbell, D. – Xue, Y. – Stewart, C. (2021) Building Drainage System Design for Tall Buildings: Current Limitations and Public Health Implications. In: Buildings, 11 (2). https://doi.org/10.3390/buildings11020070 Search in Google Scholar

Gormley, M. – Aspray, T. – Kelly, D. (2020) COVID-19: mitigating transmission via wastewater plumbing systems. In: Water Management 173 (6), pp. 271–273. https://doi.org/10.1016/S2214-109X(20)30112-1710429132213325 Search in Google Scholar

Öngören, A. – Materna, R. – Tanner, M. (2005) Investigation of the effect of swept entry configuration on the air entertainment and self-siphoning behavior in gravity drainage systems. CIB W062 Symposium pp. 160 - 170. Available at: https://www.irbnet.de/daten/iconda/CIB12091.pdf, (accessed at 12/04/2022). Search in Google Scholar

Öngören, A. – Weiss, R. (2018) Principles of a genuine high flow wastewater fitting with an in-pipe integrated ventilation. CIB W062 Symposium 2018 pp. 17 - 24. Available at: https://www.irbnet.de/daten/iconda/CIB_DC32021.pdf, (accessed at 12/04/2022) Search in Google Scholar

Pomogaeva, V. – Matechko, L. – Prokofiev, D. – Narezhnaya, T. (2018) Investigation of the motion processes of wastewater in sewerage of high-rise buildings. E3S Web of Conferences pp. 1 – 9. https://doi.org/10.1051/e3sconf/20183302013 Search in Google Scholar

Peráčková, J. (2018) Dimenzovanie splaškových odpadových potrubí (Design of foul water stacks). TZBinfo. Available at: https://voda.tzb-info.cz/kanalizace-splaskova/17916-dimenzovanie-splaskovych-odpadovych-potrubi, (accessed at 12/04/2022). Search in Google Scholar

Scheutz, F. – Strockbine, N. A. (2015) Escherichia. In: Bergey’s Manual of Systematics in Archaea and Bacteria. Eds. M. E. Trujillo, P. Dedysh, B. DeVos, B. Hedlund, P. Kampfer, F. A. Rainey et al. (Hoboken, NJ: John Wiley & Sons, Inc.). https://doi.org/10.1002/9781118960608.gbm01147 Search in Google Scholar

Valášek, J. (1986) Vnútorná kanalizácia. Komentár k ČSN 73 6760. Dimenzovanie potrubia vnútornej kanalizácie (Design of drainage pipes). Vydavatelství úradú pro normalizaci a měrení, Bratislava, SK, pp. 21-30 ISBN 59-313-83. Search in Google Scholar

Valášek, J. (1982) Vodovody a kanalizácia vo vysokých budovách, (Water supply and drainage in high-rise buildings). Bratislava: Alfa, Slovakia, pp. 131-157 ISBN 63-021-82. Search in Google Scholar

Valášek, J. – Peráčková, J. – Žabička, Z. – Kabele, K. – Beňo, S. (2005) Zdravotnotechnické zariadenia budov (Sanitary installations). Bratislava: Jaga group, SK, pp. 317-319 ISBN 80-8076-013-6. Search in Google Scholar

Vrána, J. (2021) Větrání vnitřní kanalizace (Ventilation of drainage). TZBinfo. Available at: https://voda.tzb-info.cz/kanali-zace-splaskova/21769-vetrani-vnitrni-kanalizace (accessed at 12/04/2022). Search in Google Scholar

While, S. – Hill, T. (2015) High-rise Testing of Active Drainage System Compared with Conventional Venting on Two Test Towers. CIB W062 Symposium pp. 11 - 29. Available at: https://www.irbnet.de/daten/iconda/CIB_DC30620.pdf (accessed at 12/04/2022). Search in Google Scholar

Zheng, S. – Fan, J. – Yu, F. – Feng, B. – Lou, B. – Zou, Q., et al. (2020) Viral Load Dynamics and Disease Severity in Patients Infected with SARS-CoV-2 in Zhejiang Province, China, Jan-Mar 2020: Retrospective Cohort Study. In: BMJ 369, m1443. https://doi.org/10.1136/bmj.m1443719007732317267 Search in Google Scholar

Yabe, S. – Otsuka, M. – Kawaguchi, T. – Sugimoto, R. (2015) An Experimental Investigation of the Influence of Different Offset Piping Methods on the Drainage Performance of a Drainage Stack. CIB W062 Symposium pp. 30 - 55. Available at: https://www.irbnet.de/daten/iconda/CIB_DC30620.pdf (accessed at 12/04/2022). Search in Google Scholar

STUDOR (2022) Company documents. Available at: https://studor.net/en/page/ (accessed at 12/04/2022). Search in Google Scholar

STN EN 12056. (2002) Gravity drainage systems inside buildings. Search in Google Scholar

STN 73 6760. (2009) Kanalizácia v budovách (Drainage inside buildings). Search in Google Scholar

TNI CEN/TR 17426. (2019) Sanitary appliances – Drainage systems for the application of sanitary appliances. Search in Google Scholar

Ansys. (2009) User Fluent 12.0 guide. Ansys. Available at: https://www.afs.enea.it/project/neptunius/docs/fluent/html/ug/main_pre.htm (accessed at 12/04/2022). Search in Google Scholar