References
- [1] Krawczyk N., Piasta Z., Preliminary test results of thermal comfort in a classroom (Wstępne wyniki badań komfortu cieplnego w sali lekcyjnej). Structure & Environment, 11 (4), pp. 281-286.10.30540/sae-2019-021
- [2] Fanger P.O., Komfort cieplny, tł. doc. dr inż. K. Kostyrko, dr A. Kostyrko, Arkady 1974.
- [3] PN-EN ISO 7730:2006, Ergonomics of the thermal environment – Analytical determination and interpretation of thermal comfort Rusing calculation of the PMV and PPD indices and local thermal Comfort criteria
- [4] ASHRAE STANDARD 55 – 2004, Thermal Environmental Conditions for Human Occuoancy
- [5] PN-EN 16798-1:2019, Energy Performance of Buildings-Ventilation for Buildings-Part 1: Indoor Environmental Input Parameters for Design and Assessment of Energy Performance of Buildings Addressing Indoor Air Quality, Thermal Environment, Lighting and Acustics.
- [6] Farraj F., Al-akjmi D., Loveday L., Indoor thermal conditions and thermal comfort in air-conditioned domestic buildings in the dry-desert climate of Kuwait, „Building and Environment” (45), 2010, pp. 704-710.10.1016/j.buildenv.2009.08.018
- [7] Siew C.C., Che-Ani A.I., Tawil N. M., Goh-Abdullah N.A., Utaberta N., Effectiveness of Thermal Comfort Models to Evaluate Occupants’ Satisfaction Levels in Office Buildings, „Building and Environment ”(20), 2011, pp. 372-379.10.1016/j.proeng.2011.11.179
- [8] Ricardo M.S.F. Almeida, Nuno M.M. Ramos, Vasco P. de Freitas, Thermal comfort models and pupils’ perception in free-running school buildings of a mild climate country, „Energy and Buildings” (111), 2016, pp. 64-75,10.1016/j.enbuild.2015.09.066
- [9] Arslanoglu N., Yigit A., Experimental and theoretical investigation of the effect of radiation heat flux on human thermal comfort, „Energy and Buildings” (113), 2016, pp. 23-29.10.1016/j.enbuild.2015.12.039
- [10] Atmaca I., Kaynakli O., Yigit A., Effect of radiant temperature on thermal comfort, „Building and Environment” (42), 2007, pp. 3210-3220.10.1016/j.buildenv.2006.08.009
- [11] Nemec P., Porous Structures in Heat Pipes, IntechOpen, 2017, pp. 141-179.10.5772/intechopen.71763
- [11] Nemec P., Gravity in Heat Pipe Technology, IntechOpen, 2017, pp. 131-166.10.5772/intechopen.71543
- [12] https://comfort.cbe.berkeley.edu/EN (access 05.04.2020).
Language: English
Page range: 127 - 132
Submitted on: May 21, 2020
Accepted on: Aug 8, 2020
Published on: Dec 12, 2020
Published by: Kielce University of Technology
In partnership with: Paradigm Publishing Services
Publication frequency: 4 issues per year
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© 2020 Natalia Krawczyk, Andrej Kapjor, published by Kielce University of Technology
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.