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Stella Tsoka; Optimizing Indoor Climate Conditions in a Sports Building Located in Continental Europe. Energy Procedia Volume 78 (2015), pp.2802–2807Search in Google Scholar
E. Trianti-Stourna et al.; Energy conservation strategies for sports centers: Part A. Sports halls. Energy and Buildings 1998 Vol.27, pp.109–12210.1016/S0378-7788(97)00040-6Search in Google Scholar
Haidong Wang, Chen Huang, Yezan Cui, Xiaofeng Jia; Research on a Secondary Airflow – Relay System to Improve Ventilation Performance of Nozzle Supply in Large Space Buildings. Procedia Engineering 2015 Vol.121 , pp.816–82310.1016/j.proeng.2015.09.035Search in Google Scholar
O. Bellache, M. Ouzzane, N. Galanis; Numerical prediction of ventilation patterns and thermal processes in ice rinks. Building and Environment, Vol.40, Issue 3, March 2005, pp.417-42610.1016/j.buildenv.2004.08.004Search in Google Scholar
P. Sormunen, T.L. Sundman, S. Lestinen; The design challenges of multipurpose Arenas, Proceedings of Clima WellBeing Indoors, 2007, FinlandSearch in Google Scholar
EN-ISO 7730:2005. Ergonomics of the thermal environment – Analytical determination and interpretation of thermal comfort using calculation of the PMV and PPD indices and local thermal comfort criteriaSearch in Google Scholar
Koper P.; Modeling of the airflow in lecture hall (in Polish). PhD thesis. Gliwice, Poland: Silesian University of Technology; 2013Search in Google Scholar
Nawrocki W., Lipska B.; Podstawy projektowania wentylacji – przykłady. (Basic design of ventilation with examples) Wydawnictwo Politechniki Śląskiej; Gliwice 2006Search in Google Scholar
Awbi H.B.; Ventilation of Buildings. Spon press, London 200310.4324/9780203476307Search in Google Scholar
ANSYS Inc. , ANSYS CFX – Solver theory guide, Release 14.5, Canonsburg, USA, 2012Search in Google Scholar
Ciuman P., Lipska B.; The improvement of numerical modelling of airflow in ventilated room. ACEE Archit. Civ. Eng. Environ. 2014 Vol.7 No.3, pp.77–83Search in Google Scholar
EN-12599:2000. Ventilation for buildings. Tests procedures and measuring methods for handing over installed ventilation and air conditioning systemsSearch in Google Scholar
Palmowska A., Lipska B.; Experimental study and numerical prediction of thermal and humidity conditions in the ventilated ice rink arena Building and Environment, Vol.108, 1 November 2016, pp.171-18210.1016/j.buildenv.2016.08.024Search in Google Scholar
Trzeciakiewicz Z, Koper P., Wąsacz M.; Lodowiska odkryte jako niskotemperaturowe źródła ciepła dla wspomagania potrzeb cieplnych pływalni. (Outdoor ice rinks as a low-temperature additional heat sources for the indoor swimming pools) INSTAL 2014 No.1, pp.21–26Search in Google Scholar
Lipska B., Koper P., Jopert K., Trzeciakiewicz Z.; Badania numeryczne rozdziału powietrza wentyla- cyjnego w hali krytego lodowiska (Numerical study of ventilation air distribution in the indoor icerink) Ciepłownictwo 2011 R.42 No.10, p.431–437Search in Google Scholar
Popiołek Z.; Estimation of mean speed and speed standard deviation from CFD prediction. ACEE Journal 2008;1, p.41–6Search in Google Scholar
EN-ISO 7726:2001. Ergonomics of the thermal environment – Instruments for measuring physical quantitiesSearch in Google Scholar