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Home/ Journals/ ENERGY/ Vol.123, No.4, 2026/ 10.32604/ee.2025.075393

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Evaluation of Solar Thermal Potential for Domestic Integrated Water Heating in the South of Western Siberia

Polina A. Tretyakova*, Alexey P. Belkin, Alexander A. Rumyantsev, Anna A. Menshikova

Department of Industrial Thermal Power Engineering, Industrial University of Tyumen, Tyumen, 625000, Russia

* Corresponding Author: Polina A. Tretyakova. Email: email

(This article belongs to the Special Issue: Advancements in Energy Resources and Their Processes, Systems, Materials and Policies for Affordable Energy Sustainability)

Energy Engineering 2026, 123(4), 15 https://doi.org/10.32604/ee.2025.075393

Received 30 October 2025; Accepted 24 December 2025; Issue published 27 March 2026

Abstract

Limited adoption of solar energy in the Northwestern region of Russia is associated with insufficient data on annual solar radiation indicators and on the potential of solar collectors for water heating. The study aims to evaluate the potential of solar water heating for domestic use in Northwestern Russia, using Tyumen city as the case. In this region, the number of cloudy days ranges from 5% to 50%, with cloud cover increasing in winter. New data on the total solar radiation, availability duration, and cloud cover have been collected. Solar irradiance could reach 900 MJ/m2 during summer months, while decreasing to 50–150 MJ/m2 significantly in winter. Notably, the solar radiation demonstrates predictable and stable characteristics between the hours of 9 a.m. and 3 p.m. Consequently, the heating system is equipped with a gas-supplied boiler as the primary heat source, with the solar collector being the secondary clean energy source to meet the demand of a residential house. A is designed to compensate for the heat losses in the evening and at night. The results of unmatching energy demand and production highlight the need for a water tank for energy storage to facilitate a wider use of solar power. The peak thermal energy requirement for domestic hot water (DHW) occurs in January, amounting to 6046.8 MJ. In summer, from May to August, the thermal energy produced by solar collectors is not utilized due to the lack of heating load. The annual data indicate that the solar collectors contribute approximately 14% of the total heat required for DHW.

Keywords

Alternative energy; clean energy; cloudiness; domestic hot water; economic evaluation; hybrid solar systems; solar collector

Cite This Article

APA Style
Tretyakova, P.A., Belkin, A.P., Rumyantsev, A.A., Menshikova, A.A. (2026). Evaluation of Solar Thermal Potential for Domestic Integrated Water Heating in the South of Western Siberia. Energy Engineering, 123(4), 15. https://doi.org/10.32604/ee.2025.075393
Vancouver Style
Tretyakova PA, Belkin AP, Rumyantsev AA, Menshikova AA. Evaluation of Solar Thermal Potential for Domestic Integrated Water Heating in the South of Western Siberia. Energ Eng. 2026;123(4):15. https://doi.org/10.32604/ee.2025.075393
IEEE Style
P. A. Tretyakova, A. P. Belkin, A. A. Rumyantsev, and A. A. Menshikova, “Evaluation of Solar Thermal Potential for Domestic Integrated Water Heating in the South of Western Siberia,” Energ. Eng., vol. 123, no. 4, pp. 15, 2026. https://doi.org/10.32604/ee.2025.075393
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cc Copyright © 2026 The Author(s). Published by Tech Science Press.
This work is licensed under a Creative Commons Attribution 4.0 International License , which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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