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Δευτέρα 3 Ιουλίου 2017

Study on longitudinal temperature distribution of fire-induced ceiling flow in tunnels with different sectional coefficients

This paper proposes two prediction models for the maximum smoke temperature rise and the temperature distribution in tunnel fires, in which sectional coefficient zeta was introduced to describe geometrical characteristic of the tunnel section. At first, the theoretical analysis was conducted. The dimensionless maximum smoke temperature rise was deduced by applying the dimensional analysis method while the smoke temperature exponential decay law was proposed based on the one-dimensional theory. Then, CFD simulations were conducted in nine tunnels with different cross sectional shapes by Fire Dynamics Simulator, version 5.5. With the 'numerical experiments', two prediction models for the maximum smoke temperature and the smoke temperature distribution were obtained. Meanwhile, complementary experiments were conducted in a 1/10 scale tunnel in order to provide a verification. The experiment results show a good agreement with the numerical simulations. Moreover, the proposed prediction models were compared with the prediction models proposed by Kurioka model and Li model. (C) 2016 Elsevier Ltd. All rights reserved.

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