Numerical and computer modeling for assessing heat transfer in double-glazed windows
- 作者: Gurina E.I.1, Somova P.A.1
-
隶属关系:
- National Research Tomsk State University
- 期: 卷 71, 编号 2 (2025): Modern Methods of Theory of Boundary Value Problems. Pontryagin Readings — XXXV
- 页面: 221-232
- 栏目: Articles
- URL: https://journal-vniispk.ru/2413-3639/article/view/327827
- DOI: https://doi.org/10.22363/2413-3639-2025-71-2-221-232
- EDN: https://elibrary.ru/MOCMQH
- ID: 327827
如何引用文章
全文:
详细
In this study, we analyze the heat transfer of single-chamber and double-chamber glass units installed in the outer and inner sashes of a composite window unit with the inter-glass space filled with dehumidified air and inert gases. We construct the mathematical model based on the solution of the heat conductivity equation with constant coefficients in a two-dimensional setting, taking into account the layered structure of the structure and using boundary conditions of the III and IV kind. Our numerical implementation of the problem uses the finite difference method on a uniform grid using the C++ programming language. To take into account convective heat exchange through glass units, we perform a series of numerical calculations in ANSYS Fluent software. We show that convective heat loss in glass units can be reduced by increasing the thickness of the spacer frame and using inert gases with low thermal conductivity. We identify the optimal thickness of the gas-filled chamber of a single-chamber glass unit (when filled with air, dry air, argon, krypton, xenon), ensuring maximum thermal resistance.
作者简介
E. Gurina
National Research Tomsk State University
编辑信件的主要联系方式.
Email: elena.gyrina@mail.tsu.ru
Tomsk, Russia
P. Somova
National Research Tomsk State University
Email: polina.somova01@yandex.ru
Tomsk, Russia
参考
- Гныря А. И., Низовцев М. И., Петров Е. В., Терехов В. И. Термическое сопротивление заполнений оконных блоков// Изв. вузов. Строительство. - 1998. - № 11-12. - С. 90.
- Иванова Е. А. Теплоперенос в теплонапряженных элементах многослойных ограждающих конструкций// Дисс. к.ф.-м.н. - Томск: ТГАСУ, 2023. - URL: http://vital.lib.tsu.ru/vital/access/manager/Repository/koha:001009126.
- Овсянников С. Н., Самохвалов А. С. Окна в раздельных переплетах с высокой теплозвукоизоляцией// Строит. матер. - 2012. - № 6. - C. 42-43.
- ГОСТ 24866-2014. Стеклопакеты клееные. Технические условия// Электронный фонд правовых и нормативно-технических документов [электронный ресурс]. - Режим доступа: https://docs.cntd.ru/document/1200120572 (дата обращения: 27.06.2025).
- Basok B., Pavlenko A., Novikov V., Koshlak H., Ciosek A., Moroz M. Comprehensive investigation of the thermal performance of an electrically heated double-glazed window: a theoretical and experimental approach// Energies. - 2024. - 17. - C. 4491. - doi: 10.3390/en17174491.
- Kabore M., Michaux G., Le D. J., Salagnac P., Greffet R. Parametric study of the thermal performance of a single-family house equipped with an airflow window integrating a heated glazing// В сб.: «Proceedings of the 16th IBPSA Conference, Rome, Italy, 2-4 September 2019». - Рим, 2019. - doi: 10.26868/25222708.2019.211049
- Kurnitski J., Jokisalo J., Palonen J., Jokiranta K., Seppnen O. Efficiency of electrically heated windows// Energy Build. - 2004. - 36. - C. 1003-1010. - doi: 10.1016/j.enbuild.2004.06.007.
- Maiorov V. A. Heat transfer through a double-glazed window by convection// IOP Conf. Ser. Mater. Sci. Engrg. - 2020. - 939. - 012049. - doi: 10.1088/1757-899X/939/1/012049.
- ANSYS FLUENT 12.0 User’s Guide// ENEAGRID Projects Web Pages [электронный ресурс]. - Режим доступа: https://www.afs.enea.it/project/neptunius/docs/fluent/html/ug/main_pre.htm (дата обращения: 27.06.2025).
补充文件
