Research Article | Open Access | Download PDF
Volume 69 | Issue 12 | Year 2023 | Article Id. IJMTT-V69I12P502 | DOI : https://doi.org/10.14445/22315373/IJMTT-V69I12P502
Glass as a Construction Material and its Influence on the
Comfort of Residential Spaces: Mathematical Mode
Lisbeth A. Brandt-Garcia, Edgardo J. Suárez Domínguez, Rocio R. Gallegos-Villela, Alberto A. Trejo-Franco, Josué F. Pérez-Sánchez, Elena F. Izquierdo-Kulich
| Received |
Revised |
Accepted |
Published |
| 12 Oct 2023 |
21 Nov 2023 |
03 Dec 2023 |
18 Dec 2023 |
Abstract
The ubiquitous use of glass in architectural design, whether for windows or to enhance the aesthetic appeal of building
facades, has become a standard practice. Glass serves the dual purpose of allowing natural light to permeate indoor spaces
while offering views of both the interior and exterior, thereby enhancing the overall quality of life. However, a notable drawback
of untreated glass lies in its propensity to permit heat loss without an efficient means of heat retention. This inherent
characteristic underscores the need to comprehensively understand the underlying processes at play and their repercussions on
thermal comfort.
This paper introduces a novel stochastic model founded on Ito Stratonovich differential calculus to address this concern.
This model is specifically engineered to account for the temporal fluctuations in household temperature, influenced by the
stochastic variability of ambient temperature. Its primary objective is to highlight the intricate heat transfer mechanisms within
residential spaces, including conduction and convection. The aim is to quantify the likelihood of maintaining the house's
temperature within the desired thermal comfort range. In essence, this model offers a tool for characterizing dwelling comfort
based on the probability that the temperature remains within a predefined and comfortable range.
Subsequently, the developed model found practical application in the analysis of employing double-glazed glass walls as a
strategy to regulate indoor temperature in house construction. The results underscore the benefits of this approach and delineate
the optimal spacing between the glass layers, ensuring that the best outcomes in terms of thermal comfort are achieved.
Keywords
House comfortability, Thermal stochastic model, Temperature evolution.
References
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Citation :
Lisbeth A. Brandt-Garcia, Edgardo J. Suárez Domínguez, Rocio R. Gallegos-Villela, Alberto A. Trejo-Franco, Josué F. Pérez-Sánchez, Elena F. Izquierdo-Kulich, "Glass as a Construction Material and its Influence on the
Comfort of Residential Spaces: Mathematical Mode," International Journal of Mathematics Trends and Technology (IJMTT), vol. 69, no. 12, pp. 8-16, 2023. Crossref, https://doi.org/10.14445/22315373/IJMTT-V69I12P502
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