E.V. GORBARENKO1, 2, Сandidate of Sciences (Geography),
P.P. PASTUSHKOV1, 2, Candidate of Sciences (Engineering);
M.D. TYULENEV3, Engineer
1 Research Institute of Building Physics of the Russian Academy of Architecture and Construction Sciences (21, Lokomotivniy Driveway, Moscow,127238, Russian Federation)
2 Lomonosov Moscow State University (1, Leninskie gori, Moscow, 119234, Russian Federation)
3 National Research Moscow State University of Civil Engineering (26, Yaroslavskoe Highway, Moscow, 129337, Russian Federation)
2. Solov’ev A.K. Zerkal’nye fasady: ikh vliyanie na osveshchenie protivostoyashchikh zdanii. Svetotekhnika. 2017. No. 2, pp. 28–31. (In Russian).
3. Kupriyanov V.N., Sedova F.R. Obosnovanie i razvitie energeticheskogo metoda rascheta insolyatsii zhilykh pomeshchenii. Zhilishchnoe stroitel’stvo [Housing Construction]. 2015. No. 5, pp. 83–87. (In Russian).
4. Esquivias P.M., Moreno D., Navarro J. Solar radiation entering through openings: Coupled assessment of luminous and thermal aspects. Energy and Buildings. V. 175. 15 September 2018, pp. 208–218. DOI: https://doi.org/10.1016/j.enbuild.2018.07.021
5. Gagarin V.G., Zubarev K.P. Matematicheskoe modelirovanie nestatsionarnogo vlazhnostnogo rezhima ograzhdenii s primeneniem diskretno-kontinual’nogo podkhoda. Vestnik MGSU. 2020. Vol. 15. No. 2, pp. 244–256. (In Russian).
6. Khan R.J., Bhuiyan Md.Z., Ahmed D. H. Investigation of heat transfer of a building wall in the presence of phase change material (PCM). Energy and Built Environment. 2020, pp. 199–206. DOI: https://doi.org/10.1016/j.enbenv.2020.01.002
7. Vanaga R., Purvins R., Blumberga A., Veidenbergs I., Blumberga D. Heat transfer analysis by use of lense integrated in building wall. Energy Procedia. V. 128. 2017, pp. 453–460. DOI: https://doi.org/10.1016/j.egypro.2017.09.030
8. Agugiaro G., Nex F., Remondino F., Filippi R. De, Droghetti S., Furlanello C. Solar radiation estimation on building roofs and web-based solar cadaster. ISPRS Annals of the Photogrammetry, Remote Sensing and Spatial Information Sciences. Melbourne, Australia. 2012. Vol. 1–2, pp. 177–182. DOI: https://doi.org/10.5194/isprsannals-I-2-177-2012
9. Stadnik V. V., Gorbarenko E. V., Shilovtseva O. A., Zadvornykh V. A. Sravnenie vychislennykh i izmerennykh velichin summarnoi i rasseyannoi radiatsii, postupayushchei na naklonnye poverkhnosti, po dannym nablyudenii v Meteorologicheskoi observatorii MGU. Trudy GGO. 2016. Vol. 581, pp. 138–154. (In Russian).
10. Pivovarova Z.I. Kharakteristika radiatsionnogo rezhima na territorii SSSR primenitel’no k zaprosam stroitel’stva [Characteristics of the radiation regime on the territory of the USSR in relation to construction requests]. Leningrad: Gidrometeoizdat. 1973. 128 p. (In Russian).
11. Shklover A.M., Vasil’ev B.F., Ushkov F.V. Osnovy stroitel’noi teplotekhniki zhilykh i obshchestvennykh zdanii [Fundamentals of construction heat engineering of residential and public buildings]. Moscow: Gosudarstvennoe izdanie literatury po stroitel’stvu i arkhitekture. 1956. 350 p. (In Russian).
12. Nauchno-prikladnoi spravochnik po klimatu SSSR. Se-riya 3. Mnogoletnie dannye [The scientific and application-oriented reference manual on climate of the USSR. Series 3. Long-term data]. Parts 1–6, issue 1–34. Saint-Petersburg: Gidrometeoizdat, 1989–1998. (In Russian).
13. Korkina E.V. Graficheskii metod rascheta postupayushchei na fasad pryamoi solnechnoi radiatsii pri nalichii protivostoyashchego zdaniya. Vestnik MGSU. 2019. Vol. 14. issue 2, pp. 237–249. DOI: https://doi.org/10.22227/1997-0935.2019.2.237-249. (In Russian).
14. Korkina E.V., Shmarov I.A. Analiticheskii metod rascheta rasseyannoi solnechnoi radiatsii, postupayushchei na vertikal’nuyu poverkhnost’ pri chastichno perekrytom nebosvode. Izvestiya vysshikh uchebnykh zavedenii. Tekhnologiya tekstil’noi promyshlennosti. 2018. No. 3 (375), pp. 230–236. (In Russian).
15. Glants S. Mediko-biologicheskaya statistika [Biomedical statistics]. Moscow: Praktika. 1998. 459 p. (In Russian).
For citation: Korkina E.V., Gorbarenko E.V., Pastushkov P.P., Tyulenev M.D. Investigation of the heating temperature of the facade surface from solar radiation under various irradiation conditions. Zhilishchnoe Stroitel’stvo [Housing Construction]. 2020. No. 7, pp. 19–25. (In Russian). DOI: https://doi.org/10.31659/0044-4472-2020-7-19-25