Naslov: | Thermal characterisation of the cooling phase of post-flashover compartment fires |
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Avtorji: | ID Lucherini, Andrea (Avtor) ID Jovanović, Balša (Avtor) ID Torero, Jose L. (Avtor) ID Van Coile, Ruben (Avtor) ID Merci, Bart (Avtor) |
Datoteke: | URL - Izvorni URL, za dostop obiščite https://www.sciencedirect.com/science/article/pii/S1290072924000553
PDF - Predstavitvena datoteka, prenos (6,40 MB) MD5: C107363B902ECC7121601F15C705C181
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Jezik: | Angleški jezik |
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Tipologija: | 1.01 - Izvirni znanstveni članek |
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Organizacija: | ZAG - Zavod za gradbeništvo Slovenije
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Povzetek: | The main characteristics of the cooling phase of post-flashover compartment fires are studied using a simplified first-principles heat transfer approach to establish key limitations of more traditional methodologies (e.g., Eurocode). To this purpose, the boundary conditions during cooling are analysed. To illustrate the importance of a first-principles approach, a detailed review of the literature is presented followed by the presentation of a simplified numerical model. The model is constructed to calculate first-order thermal conditions during the cooling phase. The model is not intended to provide a precise calculation method but rather baseline estimates that incorporate all key thermal inputs and outputs. First, the thermal boundary conditions in the heating phase are approximated with a single (gas) temperature and the Eurocode parametric fire curves, to provide a consistent initial condition for the cooling phase and to be able to compare the traditional approach to the first- principles approach. After fuel burnout, the compartment gases become optically thin and temperatures decay to ambient values, while the compartment solid elements slowly cool down. For simplicity, convective cooling of the compartment linings is estimated using a constant convective heat transfer coefficient and all linings surfaces are assumed to have the same temperature (no net radiative heat exchange). All structural elements are assumed to be thermally thick. While these simplifications introduce quantitative errors, they enable an analytical solution for transient heat conduction in a semi-infinite solid that captures all key heat transfer processes. Comparisons between the results obtained using both approaches highlight how, even when considering the same fire energy input, the thermal boundary conditions according to the Eurocode parametric fire curves lead to an increase energy accumulated in the solid after fuel burnout and a delay in the onset of cooling. This is not physically correct, and it may lead to misrepresentation of the impact of post-flashover fires on structural behaviour. |
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Ključne besede: | cooling phase, fire decay, fire dynamics, compartment fires, structural fire engineering, fire safety |
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Status publikacije: | Objavljeno |
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Verzija publikacije: | Objavljena publikacija |
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Datum objave: | 02.02.2024 |
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Založnik: | Elsevier |
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Leto izida: | 2024 |
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Št. strani: | str. 1-15 |
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Številčenje: | Vol. 199, [article no.] 108933 |
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PID: | 20.500.12556/DiRROS-18678 |
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UDK: | 620.1/.2 |
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ISSN pri članku: | 1778-4166 |
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DOI: | 10.1016/j.ijthermalsci.2022.107922 |
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COBISS.SI-ID: | 191239939 |
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Avtorske pravice: | © 2024 The Authors. Published by Elsevier Masson SAS. |
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Opomba: | Nasl. z nasl. zaslona;
Opis vira z dne 3. 4. 2024;
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Datum objave v DiRROS: | 15.04.2024 |
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Število ogledov: | 594 |
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Število prenosov: | 272 |
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