The Impact of Humidity on Thermal Protection of Enclosing Structures

##article.authors##

  • Mamuli Grdzelishvili Georgian Technical University
  • Alex Kopaliani Georgian Technical University
  • Ramaz Museridze Georgian Technical University

##semicolon##

https://doi.org/10.52340/building.2026.73.01.01

##semicolon##

building envelopes##common.commaListSeparator## thermal insulation##common.commaListSeparator## thermal resistance##common.commaListSeparator## heat transfer##common.commaListSeparator## moisture penetration##common.commaListSeparator## diffusion##common.commaListSeparator## evaporation##common.commaListSeparator## condensation##common.commaListSeparator## temperature and humidity conditions##common.commaListSeparator## partial pressure##common.commaListSeparator## water vapor##common.commaListSeparator## sanitary and hygienic standards

##article.abstract##

This article examines the temperature and humidity conditions of a thermally insulated building envelope when a thermal insulation layer is placed both internally and externally. The amount of moisture condensing in the building envelope during water vapor diffusion and its harmful effects on both the structure itself and the sanitary and hygienic conditions of the premises are determined. Recommended conditions for removing (evaporating) condensate from building envelopes are presented.

##plugins.generic.usageStats.downloads##

##plugins.generic.usageStats.noStats##

##submission.citations##

1. СП50. 13330,24 - Thermal conditions of buildings, М., 2024

2. СП345.1325800.2017 - Thermal protection design rules М.,2017

3.EN DIN 4108-3:2024-03–Waermeschutz und Energie-Einsparrug in Gebaueden , Teil 3, 2024

4. V. Blazi - Designer's Handbook, Construction Physics, Moscow, 2004

5. Computer program http S// heat calculation

##submissions.published##

2026-07-01

##issue.issue##

##section.section##

Articles

მსგავსი სტატიები

1 2 3 4 5 6 7 8 > >> 

თქვენ ასევე შეგიძლიათ მსგავსი სტატიების გაფართოებული ძიების დაწყება ამ სტატიისათვის.