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    Simulation of temperature and smoke distribution of a tunnel fire based on modifications of multi-layer zone model

    New search for: Chen, Xiaojun

    Some modifications on Suzuki's multi-layer zone model (MLZ) have been done to predict temperature and smoke distribution of a tunnel fires, i.e., the radiation heat loss of fire source is taken into account and a four-surface radiation heat transfer model is introduced. Like Suzuki's model, as a special long and narrow space, the tunnel space is also divided into a number of layers in vertical direction and regions in longitudinal direction. The physical properties like temperature and species (CO, CO2, etc.) are assumed uniform in every zone like two-zone model. However, the different heat transfer model is introduced. The MLZ model prediction is compared with the experiments of USTC and CFD model (FDS). It shows good agreement between the model prediction, experiments and CFD models (FDS). And the MLZ model needs less time than CFD model.

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    Simulation of temperature and smoke distribution of a tunnel fire based on modifications of multi-layer zone model

    New search for: Chen, Xiaojun

    Some modifications on Suzuki's multi-layer zone model (MLZ) have been done to predict temperature and smoke distribution of a tunnel fires, i.e., the radiation heat loss of fire source is taken into account and a four-surface radiation heat transfer model is introduced. Like Suzuki's model, as a special long and narrow space, the tunnel space is also divided into a number of layers in vertical direction and regions in longitudinal direction. The physical properties like temperature and species (CO, CO2, etc.) are assumed uniform in every zone like two-zone model. However, the different heat transfer model is introduced. The MLZ model prediction is compared with the experiments of USTC and CFD model (FDS). It shows good agreement between the model prediction, experiments and CFD models (FDS). And the MLZ model needs less time than CFD model.

    Access

    Access via TIB
    Check availability in my library
    Order at Subito €

    Simulation of temperature and smoke distribution of a tunnel fire based on modifications of multi-layer zone model

    New search for: Chen, Xiaojun

    Some modifications on Suzuki's multi-layer zone model (MLZ) have been done to predict temperature and smoke distribution of a tunnel fires, i.e., the radiation heat loss of fire source is taken into account and a four-surface radiation heat transfer model is introduced. Like Suzuki's model, as a special long and narrow space, the tunnel space is also divided into a number of layers in vertical direction and regions in longitudinal direction. The physical properties like temperature and species (CO, CO2, etc.) are assumed uniform in every zone like two-zone model. However, the different heat transfer model is introduced. The MLZ model prediction is compared with the experiments of USTC and CFD model (FDS). It shows good agreement between the model prediction, experiments and CFD models (FDS). And the MLZ model needs less time than CFD model.

    Access

    Access via TIB
    Check availability in my library
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    Title:

    Simulation of temperature and smoke distribution of a tunnel fire based on modifications of multi-layer zone model

    Additional title:

    Simulation der Temperatur- und Rauchverteilung eines Tunnelbrandes auf der Grundlage von Modifizierungen des Mehrschichten-Zonenmodells

    Contributors:

    Chen, Xiaojun (author)

    Published in:

    Tunnelling and Underground Space Technology ; 23 ; 75-79

    Publication date:

    2008

    Size:

    5 Seiten, 19 Quellen

    ISSN:

    0886-7798

    DOI:

    https://doi.org/10.1016/j.tust.2006.10.005

    Type of media:

    Article (Journal)

    Type of material:

    Print

    Language:

    English

    Keywords:

    numerische Strömungssimulation , Rechnersimulation , Brand (Feuer) , Wärmeübertragung , Rauch , Temperaturverteilung , Tunnel , Tunnelbau , Tunnelausbau , Brandbekämpfung , Brandschutz , Brandverhalten , Temperatur , Modell , mathematisches Modell , Modellierung

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