Your search keyword '"wood fiber board"' showing total 3 results

1. Computational Prediction of Susceptibility to Biofilms Growth: Two-Dimensional Analysis of Critical Construction Details

Author

Václav Kočí, Jan Kočí, Jiří Maděra, Jaroslav Žák, and Robert Černý

Subjects

biofilms growth, computational modeling, hygrothermal patterns, brick masonry, interior thermal insulation, climatic data, mineral wool, wood fiber board, Technology

Abstract

Retrofitting of historical and traditional buildings is an effective thermal protection measure. The presence of thermal insulation in the composition of building envelopes might, however, bring some shortages due to a decrease of exterior surface temperatures or possible water vapor condensation. These shortages can improve living conditions for various microorganisms on the exterior surfaces, especially in the case of interior thermal insulation systems that are typical with thermal bridges and thus supply the surface with heat to a greater extent. This paper, therefore, aims at the investigation of hygrothermal conditions in selected critical construction details and evaluates the results from the point of view of potential biofilms growth. Two-dimensional modeling of coupled heat and moisture is applied and the hygrothermal patterns are evaluated based on an adjusted isopleth growth model. The results showed that the duration of favorable conditions for biofilms growth is relatively low, accounting for less than 180 h in the worst-case scenario. It means the exterior surfaces of historical buildings provided with interior thermal insulation systems are not threatened by biofilms growth. Anyway, other negative aspects have been revealed that should be treated individually. Possible wood decay or increased hygrothermal straining are the typical examples in that respect.

Published

2020

2. Computational Prediction of Susceptibility to Biofilms Growth: Two-Dimensional Analysis of Critical Construction Details

Author

Jiří Maděra, Robert Černý, Jan Kočí, Jaroslav Žák, and Václav Kočí

Subjects

computational modeling, Control and Optimization, 020209 energy, Mineral wool, 0211 other engineering and technologies, Energy Engineering and Power Technology, Economic shortage, 02 engineering and technology, lcsh:Technology, Thermal insulation, 021105 building & construction, Thermal, 0202 electrical engineering, electronic engineering, information engineering, Retrofitting, Geotechnical engineering, Electrical and Electronic Engineering, Engineering (miscellaneous), interior thermal insulation, wood fiber board, biofilms growth, Moisture, lcsh:T, Renewable Energy, Sustainability and the Environment, business.industry, Growth model, mineral wool, brick masonry, climatic data, hygrothermal patterns, Environmental science, Thermal protection, business, Energy (miscellaneous)

Abstract

Retrofitting of historical and traditional buildings is an effective thermal protection measure. The presence of thermal insulation in the composition of building envelopes might, however, bring some shortages due to a decrease of exterior surface temperatures or possible water vapor condensation. These shortages can improve living conditions for various microorganisms on the exterior surfaces, especially in the case of interior thermal insulation systems that are typical with thermal bridges and thus supply the surface with heat to a greater extent. This paper, therefore, aims at the investigation of hygrothermal conditions in selected critical construction details and evaluates the results from the point of view of potential biofilms growth. Two-dimensional modeling of coupled heat and moisture is applied and the hygrothermal patterns are evaluated based on an adjusted isopleth growth model. The results showed that the duration of favorable conditions for biofilms growth is relatively low, accounting for less than 180 h in the worst-case scenario. It means the exterior surfaces of historical buildings provided with interior thermal insulation systems are not threatened by biofilms growth. Anyway, other negative aspects have been revealed that should be treated individually. Possible wood decay or increased hygrothermal straining are the typical examples in that respect.

Published

2020

3. Computational Prediction of Susceptibility to Biofilms Growth: Two-Dimensional Analysis of Critical Construction Details.

Author

Kočí, Václav, Kočí, Jan, Maděra, Jiří, Žák, Jaroslav, and Černý, Robert

Subjects

*ARCHITECTURAL details, *HYGROTHERMOELASTICITY, *THERMAL insulation, *BIOFILMS, *WATER temperature, *WOOD decay, *GEOLOGICAL mapping

Abstract

Retrofitting of historical and traditional buildings is an effective thermal protection measure. The presence of thermal insulation in the composition of building envelopes might, however, bring some shortages due to a decrease of exterior surface temperatures or possible water vapor condensation. These shortages can improve living conditions for various microorganisms on the exterior surfaces, especially in the case of interior thermal insulation systems that are typical with thermal bridges and thus supply the surface with heat to a greater extent. This paper, therefore, aims at the investigation of hygrothermal conditions in selected critical construction details and evaluates the results from the point of view of potential biofilms growth. Two-dimensional modeling of coupled heat and moisture is applied and the hygrothermal patterns are evaluated based on an adjusted isopleth growth model. The results showed that the duration of favorable conditions for biofilms growth is relatively low, accounting for less than 180 h in the worst-case scenario. It means the exterior surfaces of historical buildings provided with interior thermal insulation systems are not threatened by biofilms growth. Anyway, other negative aspects have been revealed that should be treated individually. Possible wood decay or increased hygrothermal straining are the typical examples in that respect. [ABSTRACT FROM AUTHOR]

Published

2020