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Assessment of thermal comfort in a lecture hall with the application of instruments for computational fluid dynamics

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The examinations presented in this article aim at illustrating some possibilities of applying instruments for computational fluid dynamics to assess thermal comfort on the example of a lecture hall in the building of the Institute of Building Engineering at the University of Warmia and Mazury in Olsztyn. The obtained results have been subjected to an analysis according to the guidelines provided in the PN-EN ISO 7730:2006 norm. For the air heating system used in the hall, the distributions of velocity, temperature, as well as the PMV and PDD indices have been subjected to an analysis, with a particular focus on the optimal temperature of the air inflow.
Słowa kluczowe
Rocznik
Tom
Strony
41--58
Opis fizyczny
Bibliogr. 18 poz., rys., tab., wykr.
Twórcy
  • Institute of Building Engineering, University of Warmia and Mazury in Olsztyn
Bibliografia
  • CHLUDZIŃSKA M. 2010. Komfort cieplny człowieka w warunkach wentylacji indywidualnej w pomieszczeniach biurowych. Politechnika Warszawska, Warszawa.
  • DJONGYANG N., TCHINDA R., NJOMO D. 2010. Thermal comfort: A review paper. Renewable and Sustainable Energy Reviews, 14: 2626–2640.
  • FANGER P.O. 1974. Komfort cieplny. Arkady, Warszawa.
  • FloVent User Guid, Software Version 10.1, On line: https://supportnet.mentor.com/docs/201406004/docs/pdfdocs/fv–user.pdf.
  • FRONTCZAK M., WARGOCKI P. 2011. Literature survey on how different factors influence human comfort in indoor environments. Building and Environment, 46: 922–937.
  • KAVGIC M., MUMOVIC D., STEVANOVIC Z., YOUNG A. 2008. Analysis of thermal comfort and indoor air quality in a mechanically ventilated theatre. Energy and Buildings, 40: 1334–1343.
  • MUHIELDEEN M.W., ADAM N.M., SALMAN B.H. 2015. Experimental and numerical studies of reducing cooling load of lecture hall. Energy and Buildings, 89: 163–169.
  • NIELSEN P.V. 2015. Fifty years of CFD for room air distribution. Building and Environment, 91: 78–90.
  • PN-EN 12831 Heating systems in buildings. Method for calculation of the design heat load.
  • PN-EN 15251:2012 Indoor Environmental Input Parameters for Design and Assessment of Energy Performance of Buildings Addressing Indoor Air Quality, Thermal Environment, Lighting and Acoustics.
  • PN-EN ISO 7726 Ergonomics of the Thermal Environment – Instruments for Measuring Physical Quantities.
  • PN-EN ISO 7730:2006 Ergonomics of the Thermal Environment – Analytical Determination and Interpretation of Thermal Comfort Using Calculation of the PMV and PPD Indices and Local Thermal Comfort Criteria.
  • RUPP R.F., VÁSQUEZ N.G., LAMBERTS R. 2015. A review of human thermal comfort in the built environment. Energy and Buildings, 105: 178–205.
  • STAMOU A., KATSIRIS I. 2006. Verification of a CFD model for indoor airflow and heat transfer. Building and Environment, 41: 1171–1181.
  • ŚLIWOWSKI L. 2000. Mikroklimat wnętrz i komfort cieplny ludzi w pomieszczeniach. Oficyna Wydawnicza Politechniki Wrocławskiej.
  • WANG Y., WONG K.K.L., DU H., QING J., TU J. 2014. Design configuration for a higher efficiency air conditioning system in large space building. Energy and Buildings, 72: 167–176.
  • YONGSON O., BADRUDDIN I.A., ZAINAL Z.A., NARAYANA P.A.A. 2007. Airflow analysis in an air conditioning room. Building and Environment, 42: 1531–1537.
  • ZAGROBA M. 2008. Projekt budowlany budynku Wydziału Nauk Technicznych UWM w Olsztynie. Constans Biuro Projektowo-Usługowe dr n. techn. inż. Zenon Drabowicz.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-50aac401-aad9-4598-af3c-32f582508458
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