Comparison between different thermal comfort models based on the exergy analysis
Abstract
The paper deals with an analysis of existing thermal
comfort models based on exergy approach and the impact of
models’ input parameters to the calculation results. The aim of
this paper is to present the results of the application of five
different thermal comfort models based on the exergy analysis,
to compare them, and to determine if they coincide with the
results obtained by using Fanger’s model. While models that
are the most commonly used to evaluate and predict thermal
comfort conditions are based on the first law of thermodynamics,
a handful of authors used both the first and the second law
of thermodynamics in order to develop new thermal comfort
models. Even though the optimal comfort conditions according
to these models may not differ by large margin from the optimal
thermal comfort conditions according to Fanger’s model, it is
concluded that justification of using models based on the exergy
analysis to evaluate thermal comfort is very dependent on the
input ...parameters, which should all be taken into consideration
separately.
Keywords:
thermal comfort model / exergy analysis / Fanger’s modelSource:
Proceedings of 7th International Conference on Smart and Sustainable Technologies SpliTech2022, 2022Publisher:
- IEEE
Funding / projects:
- Intelligent Control Systems of the Air-conditioning for the Purpose of Achieving Energy Efficient Exploitation Regimes in the Complex Operating Conditions (RS-MESTD-Technological Development (TD or TR)-33047)
- Research on use of solar energy by vacuum collectors with heat pipes and construction of a demonstration facility (RS-MESTD-Technological Development (TD or TR)-33048)
Collections
Institution/Community
Mašinski fakultetTY - CONF AU - Kerčov, Anton AU - Bajc, Tamara AU - Gojak, Milan AU - Todorović, Maja AU - Pivac, Nikolina AU - Nižetić, Sandro PY - 2022 UR - https://machinery.mas.bg.ac.rs/handle/123456789/4536 AB - The paper deals with an analysis of existing thermal comfort models based on exergy approach and the impact of models’ input parameters to the calculation results. The aim of this paper is to present the results of the application of five different thermal comfort models based on the exergy analysis, to compare them, and to determine if they coincide with the results obtained by using Fanger’s model. While models that are the most commonly used to evaluate and predict thermal comfort conditions are based on the first law of thermodynamics, a handful of authors used both the first and the second law of thermodynamics in order to develop new thermal comfort models. Even though the optimal comfort conditions according to these models may not differ by large margin from the optimal thermal comfort conditions according to Fanger’s model, it is concluded that justification of using models based on the exergy analysis to evaluate thermal comfort is very dependent on the input parameters, which should all be taken into consideration separately. PB - IEEE C3 - Proceedings of 7th International Conference on Smart and Sustainable Technologies SpliTech2022 T1 - Comparison between different thermal comfort models based on the exergy analysis DO - 10.23919/SpliTech55088.2022.9854270 ER -
@conference{ author = "Kerčov, Anton and Bajc, Tamara and Gojak, Milan and Todorović, Maja and Pivac, Nikolina and Nižetić, Sandro", year = "2022", abstract = "The paper deals with an analysis of existing thermal comfort models based on exergy approach and the impact of models’ input parameters to the calculation results. The aim of this paper is to present the results of the application of five different thermal comfort models based on the exergy analysis, to compare them, and to determine if they coincide with the results obtained by using Fanger’s model. While models that are the most commonly used to evaluate and predict thermal comfort conditions are based on the first law of thermodynamics, a handful of authors used both the first and the second law of thermodynamics in order to develop new thermal comfort models. Even though the optimal comfort conditions according to these models may not differ by large margin from the optimal thermal comfort conditions according to Fanger’s model, it is concluded that justification of using models based on the exergy analysis to evaluate thermal comfort is very dependent on the input parameters, which should all be taken into consideration separately.", publisher = "IEEE", journal = "Proceedings of 7th International Conference on Smart and Sustainable Technologies SpliTech2022", title = "Comparison between different thermal comfort models based on the exergy analysis", doi = "10.23919/SpliTech55088.2022.9854270" }
Kerčov, A., Bajc, T., Gojak, M., Todorović, M., Pivac, N.,& Nižetić, S.. (2022). Comparison between different thermal comfort models based on the exergy analysis. in Proceedings of 7th International Conference on Smart and Sustainable Technologies SpliTech2022 IEEE.. https://doi.org/10.23919/SpliTech55088.2022.9854270
Kerčov A, Bajc T, Gojak M, Todorović M, Pivac N, Nižetić S. Comparison between different thermal comfort models based on the exergy analysis. in Proceedings of 7th International Conference on Smart and Sustainable Technologies SpliTech2022. 2022;. doi:10.23919/SpliTech55088.2022.9854270 .
Kerčov, Anton, Bajc, Tamara, Gojak, Milan, Todorović, Maja, Pivac, Nikolina, Nižetić, Sandro, "Comparison between different thermal comfort models based on the exergy analysis" in Proceedings of 7th International Conference on Smart and Sustainable Technologies SpliTech2022 (2022), https://doi.org/10.23919/SpliTech55088.2022.9854270 . .