Comparison of the parameters of a flat solar collector with a tubular collector to ensure energy flexibility in smart buildings

Kunelbayev M. Mansurova M. Tyulepberdinova G. Sarsembayeva T. Issabayeva S. Issabayeva D.
2024 Innovative Research Publishing

International Journal of Innovative Research and Scientific Studies
2024 #7 Issue 1 240 - 250 pp.

This study examines the application and implementation of energy-efficient measures and strategies for use in buildings aimed at achieving the goal of virtually zero energy consumption by buildings. In particular, the aim of the study is to introduce integrated solar devices into the building, functioning as a functional component of the structure for heat storage, in order to increase the flexibility of the structure while maintaining comfortable conditions inside. This article discusses an experimental comparison of flat and tubular solar collectors in the southern and northern regions of Kazakhstan. Compared to glass (S = 3), a tubular solar collector has a coefficient of thermal conductivity that is two times lower for single-layer elements and 2.5 times lower for double-layer elements. This means that less heat is lost. A flat solar collector was also developed, a heat-insulating translucent double-glazed window with reduced pressure, and the coolant is made of thin-walled corrugated stainless-steel pipe. In this collector, there is a constant circulation of heat, which increases the efficiency of heat transfer by eliminating additional partitions between the panel and thermal insulation. A calculation was carried out that allowed us to determine the productivity and useful gain for two collectors. The annual increase in the useful energy of flat solar collectors is about 12780000 kJ/hour and 20100000 kJ/hour for tubular solar collectors; therefore, the annual increase in the useful energy of evacuated tubular collectors is 20% more than that of flat plate collectors in the northern region.

Balance equation , Circulation , Flat solar collector , Heat carrier , Solar radiation , Thermal parameters , Tubular solar collector

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Institute of Information and Computing Technologies of the Ministry of Education and Science of the Republic of Kazakhstan, Al-Farabi Kazakh National University, Almaty, Kazakhstan
Department of Artificial Intelligence and Big Data, Al-Farabi Kazakh National University, Almaty, Kazakhstan
Department of University Humanitarian Subjects, Egyptian University of Islamic Culture Nur-Mubarak, Almaty, Kazakhstan
Department of Informatics and Informatization of Education, Kazakh National Pedagogical University named after Abay, Almaty, Kazakhstan

Institute of Information and Computing Technologies of the Ministry of Education and Science of the Republic of Kazakhstan
Department of Artificial Intelligence and Big Data
Department of University Humanitarian Subjects
Department of Informatics and Informatization of Education

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