Influence of the temperature and humidity regime of buried volumes on the preservation of architectural monuments with monumental paintings on the example of the transfiguration church in Polotsk

The heat and humidity regime of the buried parts can be essential, and sometimes crucial, for the normalization of the microclimate of the entire monument. The experience of thermophysical studies in church architectural monuments shows a wide range of factors that determine the impact of the temperature and humidity regime of the buried volumes on the formation of conditions for the preservation of the monument as a whole. Currently, the Climate Laboratory of Museums and Architectural Monuments of GOSNIIR conducts research on this problem in order to create a methodology for studying and normalizing the heat and humidity regime of the aboveground and underground parts of the building as a whole to develop design and technological approaches to optimizing the conditions for the preservation of the monument. The article considers a practical example of providing heat and humidity conditions for the preservation of a monument with monumental painting.

1. Tabunschikov Yu.A., Brodach M.M. Optimalniye parametry vnutrennego vozduha istoricheskih zdaniy: metodika opredeleniya [Optimal inside air parameters of historical buildings: determination methods] // АВОК. 2018. No 3. PP. 12-19 (in Russian).

2. Dorokhov V.B., Pintelin N.Yu. Upravleniye temperaturno-vlazhnostnym sostoyaniyem tserkovnyh zdaniy-pamyatnikov arhitektury, kak metod obespecheniya sohrannosty [Control of Temperature and Humidity Conditions of Church Buildings-Architectural Monuments as a Method of Preservation] // International MultiConferenceon Industrial Engineering and Modern technologies IOPConf. Series: MaterialsScienceandEngineering 463 (2018) 032076 IOP Publishing doi:10.1088/1757-899X/463/3/032076 http://iopscience.iop.org/article/10.1088/1757-899X/463/3/032076/pdf (in Russian)

3. Pintelin N.Yu., Dorokhov V.B., Shilkin N.V. Optimizatsiya usloviy sohrannosti monumentalnoy zhivopisi tserkovnogo pamyatnika arhitektury [Optimization of preservation conditions of monumental paintings in a church architecture monument] // AVOK. 2018. No. 8. PP.40-45 (in Russian)

4. Sizov B.T. Teplophisicheckiye aspekty sohraneniya pamyatnikov arhitektury [Thermophysical аspects оf рreservation оf аrchitectural мonuments] // AVOK. 2002. No. 1. Pp. 24-31 (in Russian)

5. Umnyakov P.N., Umnyakova N.P., Aldoshina N.E. Provision of Thermal Conditions for Preserving Ancient Masterpieces of Russian Icon Painting of the Trinity Cathedral of the Holy Trinity-St. SergiusLavra, ZhilishchnoeStroitel'stvo [Residential Construction], 2017. No. 8. Pp. 25-29 (in Russian)

6. Brodach M.M., Shilkin N.V. Inzhenernoye obsledovaniye pamyatnikov arhitektury [Engineering Survey of Architectural Monuments] // AVOK. 2018. No. 2. PР. 40-45 (in Russian)

7. Michel Grabon, JackieAnderson, Peter Bushnell et al. Sikstinskaya kapella. Modernizatsiya sistemy OVK dlya sohraneniya obyekta kulturnogo naslediya [The Sistine Chapel. New HVAC System for Cultural Preservation] // AVOK. 2018. No. 1. Pp. 40-47 (in Russian)

8. Zheldakov D.Yu. The Brick Material Durability in Brickwork // AlfaBuild. 2020. Volume 15. Article No 1504, doi: 10.34910/ALF. 15.4

9. Zheldakov D.Yu. Ximicheskaya korroziya kirpichnoj kladki. Protekanie processa [Chemical corrosion of brick masonry. Processing running] // Stroitel'nye Materialy. 2019. No. 4, Pp. 36-43. (In Russian) DOI: https://doi.org/10.31659/0585-430X-2019-769-4-36-43.

10. Zheldakov D.Yu. Metody` issledovaniya kinetiki processa ximicheskoj korrozii materialov kirpichnoj kladki. [Methods of investigation of kinetics of chemical corrosion process of materials of masonry] // Izvestiya vysshikh uchebnykh zavedenii. Stroitel'stvo. 2019. No. 11 (731). Pp. 78-86. DOI: 10.32683/0536-1052-2019-731-11- 74-86 (In Russian).