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Window ejected thermal plume dispersion and recirculation behavior in urban street canyon with different building height ratios under wind

Linjie Li, Yilin Li, Zhaoguo Wu, Pai Xu, Xiaojuan Peng, Haiyang Wang, Chuangang Fan

2021Case Studies in Thermal Engineering17 citationsDOIOpen Access PDF

Abstract

Fire scenario of street canyon, in which buildings had different heights, was investigated by Large Eddy Simulation (LES). To figure out the impact of street canyon layout on the smoke transportation behavior, side buildings in street canyon with different heights were built in this study. Simulation results showed that two regimes existed in the flow pattern of buoyancy plume. The critical re-entrainment phenomenon was defined as a critical criterion between the regimes. When the horizontal wind velocity exceeded the critical value, fire smoke would re-flow into the street canyon. An improved Froude number (Fr) considering the height difference of street canyon side buildings was proposed to quantify the dispersion pattern of fire smoke plume. The investigation showed that the Froude number was consistent when the critical re-entrainment wind velocities reached in different street canyons.

Topics & Concepts

CanyonFroude numberPlumeMeteorologyEnvironmental scienceLarge eddy simulationStreet canyonEntrainment (biomusicology)Chimney (locomotive)SmokeBuoyancyFlow (mathematics)GeologyAtmospheric sciencesTurbulenceMechanicsGeomorphologyGeographyPhysicsRhythmAcousticsWind and Air Flow StudiesFire dynamics and safety researchFire effects on ecosystems
Window ejected thermal plume dispersion and recirculation behavior in urban street canyon with different building height ratios under wind | Litcius