D
2016
Risk Assessment of Airtightness of Building Envelope
KRAUS, Michal, Petra BEDNÁŘOVÁ and Karel KUBEČKA
Basic information
Original name
Risk Assessment of Airtightness of Building Envelope
Name in Czech
Hodnocení rizika vzduchotěsnosti obálky budovy
Edition
Vol. 824 (2016). Curych (Švýcarsko), Applied Mechanics and Materials, p. 657-664, 8 pp. 2016
Publisher
Trans Tech Publications
Other information
Type of outcome
Stať ve sborníku
Field of Study
20101 Civil engineering
Country of publisher
Switzerland
Confidentiality degree
není předmětem státního či obchodního tajemství
Publication form
electronic version available online
Organization unit
Institute of Technology and Business in České Budějovice
Keywords (in Czech)
Rizikový management; analýza rizika; hodnocení rizika; matice rizika; vzduchotěsnost
Keywords in English
Risk management; risk analysis; risk assessment; risk assessment matrix; airtightness; air permeability; energy performance
V originále
The paper deals with risk analysis of insufficient airtightness of the envelope construction. The risk analysis is a systematic and structured data processing to identify potential hazards. The main aim of paper is to qualified risks which arise from the danger, i.e. insufficiently airtight of the building envelope. The quality of airtight building envelope except for low energy consumption also minimizes the risk of damage to the structure associated with the spread of the heat, water vapor in the structure and fungal growth. The qualification of risks consists of choice of method and determinative indicators, input data and simulation of model with drawing results.
In Czech
The paper deals with risk analysis of insufficient airtightness of the envelope construction. The risk analysis is a systematic and structured data processing to identify potential hazards. The main aim of paper is to qualified risks which arise from the danger, i.e. insufficiently airtight of the building envelope. The quality of airtight building envelope except for low energy consumption also minimizes the risk of damage to the structure associated with the spread of the heat, water vapor in the structure and fungal growth. The qualification of risks consists of choice of method and determinative indicators, input data and simulation of model with drawing results.
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