PERFORMANCE ASSESSMENT OF AIR CONDITIONING INSTALLATION IN MULTIFUNCTIONAL SPORTS HALL USING CFD SIMULATIONS

Sign In

  1. Home
  2. Publications
  3. Architecture, Civil Engineering, Environment
  4. Publication Articles
  5. Article

Publications

Share / Export Citation / Email / Print / Text size:

Architecture, Civil Engineering, Environment

Silesian University of Technology

Subject: Architecture , Civil Engineering , Engineering, Environmental

GET ALERTS

ISSN: 1899-0142

DESCRIPTION

Article Metrics
2
Reader(s)
7
Visit(s)
0
Comment(s)
0
Share(s)

SEARCH WITHIN CONTENT

FIND ARTICLE

Volume / Issue / page

Archive
Volume 12 (2019)
Volume 11 (2018)
Volume 10 (2017)
Volume 9 (2016)
Related articles

VOLUME 9 , ISSUE 4 (December 2016) > List of articles

PERFORMANCE ASSESSMENT OF AIR CONDITIONING INSTALLATION IN MULTIFUNCTIONAL SPORTS HALL USING CFD SIMULATIONS

Piotr KOPER

Keywords : Ventilation, CFD, Sports hall, Ice Rink, Exhibition hall, Thermal comfort

Citation Information : Architecture, Civil Engineering, Environment. VOLUME 9 , ISSUE 4 , ISSN (Online) , DOI: 10.21307/acee-2016-059, December 2016 © 2016.

License : (BY-NC-ND 4.0)

Received Date : 14-March-2016 / Accepted: 26-October-2016 / Published Online: 27-August-2018

  • ARTICLE
  • FIGURES & TABLES
  • REFERENCES
  • EXTRA FILES
  • COMMENTS

ARTICLE

ABSTRACT

The purpose of the paper was testing of the air distribution system performance in the multifunctional hall. The numerical simulations of the airflows were made with the Ansys software. Three cases with two working modes of the installation were simulated: a large sport event with audience on the stalls, an exhibition with presentation boxes and an indoor ice rink. Direct results of the simulations and statistical data were analyzed. The results showed that for the ice rink and exhibition the system performance was very good, but during the large sport event with the full audience the air temperature in the occupied zone was much higher than the desired value.

PDF Share

Content not available PDF Share

FIGURES & TABLES

REFERENCES

[1] Stella Tsoka; Optimizing Indoor Climate Conditions in a Sports Building Located in Continental Europe. Energy Procedia Volume 78 (2015), pp.2802–2807

[2] E. Trianti-Stourna et al.; Energy conservation strategies for sports centers: Part A. Sports halls. Energy and Buildings 1998 Vol.27, pp.109–122

[3] 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.816–823

[4] 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.417-426

[5] P . Sormunen, T.L. Sundman, S. Lestinen; The design challenges of multipurpose Arenas, Proceedings of Clima WellBeing Indoors, 2007, Finland

[6] EN-ISO 7730:2005. Ergonomics of the thermal environment – Analytical determination and interpretationofthermalcomfortusingcalculationofthePMV and PPD indices and local thermal comfort criteria

[7] www.bbosir.bielsko.pl

[8] Koper P.; Modeling of the airflow in lecture hall (in Polish). PhD thesis. Gliwice, Poland: Silesian University of Technology; 2013

[9] PN-82/B-02403.Externaltemperaturesfordesigncalculations.

[10] Nawrocki W., Lipska B.; Podstawy projektowania wentylacji – przykłady. (Basic design of ventilation with examples) Wydawnictwo Politechniki Śląskiej; Gliwice 2006

[11] Awbi H.B.; Ventilation of Buildings. Spon press, London 2003

[12] ASHRAEHandbook(2010)–Refrigeration.Atlanta, GA: 1791 Tullie Circle

[13] ANSYS Inc. , ANSYS CFX – Solver theory guide, Release 14.5, Canonsburg, USA, 2012

[14] 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.77–83

[15] EN-12599:2000. Ventilation for buildings. Tests procedures and measuring methods for handing over installed ventilation and air conditioning systems

[16] 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.171-182

[17] Trzeciakiewicz Z, Koper P ., Wąsacz M.; Lodowiska odkryte jako niskotemperaturowe źródła ciepła dla wspomagania potrzeb cieplnych pływalni. (Outdoor icerinksasalow-temperatureadditionalheatsources for the indoor swimming pools) INSTAL 2014 No.1, pp.21–26

[18] Lipska B., Koper P ., Jopert K., Trzeciakiewicz Z.; Badania numeryczne rozdziału powietrza wentylacyjnegowhalikrytegolodowiska(Numericalstudyof ventilation air distribution in the indoor icerink) Ciepłownictwo 2011 R.42 No.10, p.431–437

[19] Popiołek Z.; Estimation of mean speed and speed standard deviation from CFD prediction. ACEE Journal 2008;1, p.41–6

[20] EN-ISO 7726:2001. Ergonomics of the thermal environment – Instruments for measuring physical quantities

EXTRA FILES

COMMENTS