Open Access

Thermal Comfort Analyses in Naturally Ventilated Buildings

Ioana Udrea
Ioana Udrea
, 
Cristiana Croitoru
Cristiana Croitoru
, 
Ilinca Nastase
Ilinca Nastase
, 
Angel Dogeanu
Angel Dogeanu
 and 
Viorel Badescu
Viorel Badescu
   | Dec 30, 2014
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Published Online: Dec 30, 2014
Page range: 60 - 66
DOI: https://doi.org/10.2478/mmce-2014-0016
© by Ioana Udrea
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

[1]. ASHRAE standard 55-2010. (2010). In: Thermal environmental conditions for human occupancy. ASHRAE Atlanta, GA.Search in Google Scholar

[2]. 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. Brussels: CEN (European Committee for Standardization).Search in Google Scholar

[3]. 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.Search in Google Scholar

[4]. Teli D., Jentsch M. F., James Patrick A. B., Bahaj AbuBakr S., (2012), “Field study on thermal comfort in a UK primary school ”, Proceedings of 7th Windsor Conference: The changing context of comfort in an unpredictable world Cumberland Lodge, Windsor, UK,. London: Network for Comfort and Energy Use in Buildings, http://nceub.org.ukSearch in Google Scholar

[5]. Burrati C., Ricciardi P. (2009). Adaptive analysis of thermal comfort in university classrooms: Correlation between experimental data and mathematical models, Building and Environment, The International Journal of Building Science and its Applications, ISSN 0360-1323, 44, (pp. 674-687).Search in Google Scholar

[6]. Jung G. Y., Song S. K., Ahn Y. C., Oh G. S., Im Y. B. (2011). Experimental research on thermal comfort in the university classroom of regular semesters in Korea, Journal of Mechanical Science and Technology 25 (2) (pp. 503-512)10.1007/s12206-010-1219-1Search in Google Scholar

[7]. ASHRAE, Standard 55.(2004). Thermal Environmental Conditions for Human Occupancy. The American Society of Heating, Refrigeration and Air-Conditioning Engineers (ASHRAE).Search in Google Scholar

[8]. Yao R., Liu J., L B. (2010). Occupants’ adaptive responses and perception of thermal environment in naturally conditioned university classrooms, Applied Energy 87. (pp. 1015-1022)Search in Google Scholar

[9]. C107-2005, Normativ privind calculul termotehnic al elementelor de constructie ale cladirilor, partea a 3-a - Normativ privind calculul performantelor termoenergetice ale elementelor de constructie ale cladirilor, Anexa DSearch in Google Scholar

[10]. Hoyt T., Schiavon S., Piccioli A., Moon D., Steinfeld K. (2013). CBE Thermal Comfort Tool, Center for the Built Environment, University of California Berkeley, http://cbe.berkeley.edu/comforttool/ (Accesed 30.04.2014)Search in Google Scholar

[11]. I5-2010, Normativ pentru proiectarea, executarea si exploatarea instalatiilor de ventilare si climatizare, pp. 11Search in Google Scholar

[12]. Administratia Nationala de Meteorologie, http://www.meteoromania.ro/anm/? (pp.640) (Accesed 07.05.2014)Search in Google Scholar

[13]. EnergyPlus Energy Simulation Software, Weather Data, http://apps1.eere.energy.gov/buildings/energyplus/cfm/weather_data.cfm (Accesed 07.05.2014)Search in Google Scholar

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