TRUSH, Arsenii, Riccardo CACCIOTTI, Stanislav POSPÍŠIL, Jan KOČÍ and Tomáš NAVARA. Evaluating the Energy Performance of Historic Buildings: Experimental Methodology for the Analysis of Heat Transfer in the Surface Boundary Layers of Wall Assemblies. Online. In Yohei Endo, Toshikazu Hanazato. Structural Analysis of Historical Constructions. Neuveden: Springer, 2023, p. 236-246. ISBN 978-3-031-39603-8.
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Basic information
Original name Evaluating the Energy Performance of Historic Buildings: Experimental Methodology for the Analysis of Heat Transfer in the Surface Boundary Layers of Wall Assemblies
Authors TRUSH, Arsenii (guarantor), Riccardo CACCIOTTI, Stanislav POSPÍŠIL, Jan KOČÍ and Tomáš NAVARA (203 Czech Republic, belonging to the institution).
Edition Neuveden, Structural Analysis of Historical Constructions, p. 236-246, 11 pp. 2023.
Publisher Springer
Other information
Original language English
Type of outcome Proceedings paper
Field of Study 20100 2.1 Civil engineering
Country of publisher Switzerland
Confidentiality degree is not subject to a state or trade secret
Publication form electronic version available online
WWW URL
RIV identification code RIV/75081431:_____/23:00002609
Organization unit Institute of Technology and Business in České Budějovice
ISBN 978-3-031-39603-8
ISSN 2211-0844
Keywords in English Energy Performance; Methodology; Wind Tunnel; Evaluation; Historical Buildings
Tags KST6, RIV23, SCOPUS
Changed by Changed by: Barbora Kroupová, učo 25655. Changed: 27/11/2023 10:00.
Abstract
Energy performance represents a major focus in building engineering, with an increasingly marked urgency arising over the last decades due to growing environmental concerns. The European Union nowadays stresses the importance of energy efficiency and decarbonisation of the existing building stock through the implementation of adequate mitigation strategies addressing climate changes and energy transition [1]. In this perspective, historical constructions, constituting a conspicuous percentage of the built environment, are very relevant and present indeed huge energy-saving potential. This study aims at evaluating the energy performance of buildings with particular insights on adequate optimisation of thermal insulating capabilities of historical constructions. More specifically, the paper focuses on ongoing experiments carried out in a climatic wind tunnel, based on past results [2, 3], where several types of building envelopes are tested monitoring their responses to realistic climatic scenarios. The experimental data obtained ensure describing the interrelationship among various parameters such as temperature, relative humidity, wind velocity and direction as well as heat fluxes in the building component and surface roughness. The main objective is to describe the heat transfer in the mixed velocity-thermal boundary layer near the envelope surfaces. For that purpose, convective heat transfer coefficients for various types of envelopes are determined under different environmental conditions using a combined experimental-computational method, as in e.g. [4]. The obtained outputs are exploited in energy simulation models and heat transfer simulations to achieve higher accuracy than standardized methods. Future work is also outlined in the perspective of bettering energy performance and its evaluation in historic buildings.
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