Litcius/Paper detail

Smoke movement and control in longitudinal ventilated tunnel fires with cross-passages

Yongzheng Yao, Rui Wang, Ziyang Xia, Congling Shi, Fei Ren

2023Case Studies in Thermal Engineering24 citationsDOIOpen Access PDF

Abstract

This paper studies the characteristics of smoke movement and control in longitudinal ventilated tunnel fires with cross-passages through numerical modeling. Previous reports mainly focused on fires in single-hole tunnel, however, tunnels with cross-passages have been widely applied in real life, the cross-passages between main tunnels provide additional path for air and fire smoke, and significantly affect smoke temperature and back-layering length, which has not been studied in the past. Hence, full-scale simulations were conducted considering different heat release rates, fire locations, longitudinal ventilation velocities, and cross-passage intervals in this study. It shows that the smoke temperature distribution with or without cross-passages is almost the same under natural ventilation condition, while the temperature gradually increases with the decrease of interval of cross-passages under longitudinal ventilation condition. Due to the more air leakage, the smoke back-layering length increases with decreasing interval of cross-passage. The air leakage mass through the cross-passage was then characterized by the interval of cross-passages and fire location. Considering fire position and interval of cross-passages, the actual ventilation velocity is used to establish a new smoke back-layering length model. A basic understanding was provided by new findings in this study for smoke movement and control in tunnel fires with cross-passages.

Topics & Concepts

SmokeVentilation (architecture)Environmental scienceNatural ventilationMeteorologyMechanicsPhysicsFire dynamics and safety researchEvacuation and Crowd DynamicsFire effects on ecosystems