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Negative effects of humidity in historic buildings can be considered as phenomenon that is perceptible on most of these constructions. Along with the problem of humidity, the salinity of wet walls can also be observed visually, that also in a large extent helps to destroy and gradually degrade particular structural elements and subsequently entire buildings. This article is going to describe the research dealing with the content of water-soluble salts and the degree of wetting on selected historical buildings in Slovakia. In the article are adduced the individual values of humidity measured at several places in the building and also describes the results of laboratory analyses of the amount of water-soluble salts in the investigated constructions. Subsequently, the article describes the technologies used in the rehabilitation of these structures and describes the effectiveness of these interventions against moisture, which are also presented by in situ measurements after the implementation of specific technologies.
Patrik Šťastný; Jozef Gašparík; Oto Makýš. Analysis of moisture and salinity of historical constructions before and after the application of REMEDIATIONS. Journal of Building Engineering 2021, 41, 102785 .
AMA StylePatrik Šťastný, Jozef Gašparík, Oto Makýš. Analysis of moisture and salinity of historical constructions before and after the application of REMEDIATIONS. Journal of Building Engineering. 2021; 41 ():102785.
Chicago/Turabian StylePatrik Šťastný; Jozef Gašparík; Oto Makýš. 2021. "Analysis of moisture and salinity of historical constructions before and after the application of REMEDIATIONS." Journal of Building Engineering 41, no. : 102785.
The article focuses on the description of an innovative solution and application of active thermal protection of buildings using thermal insulation panels with active regulation of heat transfer in the form of a contact insulation system. The thermal insulation panels are part of a prefabricated lightweight outer shell, which together with the low-temperature heating and high-temperature cooling system creates an indoor environment. The energy source is usually renewable energy sources or technological waste heat. Research and development of an innovative facade system with active thermal protection is in the phase of computer simulations and preparation of laboratory measurements of thermal insulation panels with various combinations of energy functions. In the article we present theoretical assumptions, calculation procedure and parametric study of three basic design solutions of combined energy wall systems in the function of low-temperature radiant heating and high-temperature radiant cooling.
Daniel Kalús; Jozef Gašparík; Peter Janík; Matej Kubica; Patrik Šťastný. Innovative Building Technology Implemented into Facades with Active Thermal Protection. Sustainability 2021, 13, 4438 .
AMA StyleDaniel Kalús, Jozef Gašparík, Peter Janík, Matej Kubica, Patrik Šťastný. Innovative Building Technology Implemented into Facades with Active Thermal Protection. Sustainability. 2021; 13 (8):4438.
Chicago/Turabian StyleDaniel Kalús; Jozef Gašparík; Peter Janík; Matej Kubica; Patrik Šťastný. 2021. "Innovative Building Technology Implemented into Facades with Active Thermal Protection." Sustainability 13, no. 8: 4438.