Citation

Li J, Li YF, Bi Q, Li Y, Chow WK, Cheng CH, To CW, Chow CL. Tunn. Undergr. Space Tech. 2019; 84: 56-69.

Copyright

(Copyright © 2019, Elsevier Publishing)

DOI

10.1016/j.tust.2018.10.020

PMID

unavailable

Abstract

Operating fixed water-based firefighting systems (FFFS) might affect the performance of other parts of an integrated tunnel safety system, particularly the longitudinal ventilation system. The interaction of the water spray discharged from two FFFS (with and without foam), with the longitudinal ventilation system in a new city tunnel under construction was studied by full-scale burning tests.

RESULTS of the study under large fires up to 20 MW in diesel pool fires or wood pallet fires are reported in this paper. The impact of longitudinal ventilation, the activation sequences of the ventilation system and the fixed fire-fighting system, and the performance of the two FFFS in suppressing vehicular fires with and without shields to fire sources were evaluated.

RESULTS are expected to be useful for drafting appropriate fire codes on fire suppression systems for controlling urban tunnel fires.

Language: en

Keywords

Fire suppression; Full-scale burning test; Longitudinal ventilation; Tunnel safety; Water-based firefighting system