The early version of the physics-based model, Fire-STORM can be found here: https://t.co/rpd9HTf46U
RT @Ezekoye: Our paper on simulating high-rise smoke transport and opacity is now available at https://t.co/BTjvsh4iFS
RT @Ezekoye: Our paper on simulating high-rise smoke transport and opacity is now available at https://t.co/BTjvsh4iFS
RT @Ezekoye: Our paper on simulating high-rise smoke transport and opacity is now available at https://t.co/BTjvsh4iFS
RT @Ezekoye: Our paper on simulating high-rise smoke transport and opacity is now available at https://t.co/BTjvsh4iFS
Our paper on simulating high-rise smoke transport and opacity is now available at https://t.co/BTjvsh4iFS
RT @GuillermoRein: "While experiments and computational fluid dynamics (CFD) models have been used for such exercises, there is a need for…
RT @GuillermoRein: "While experiments and computational fluid dynamics (CFD) models have been used for such exercises, there is a need for…
Our new computer model Fire-STORM is a fast way of predicting smoke transport in high-rise buildings.
"While experiments and computational fluid dynamics (CFD) models have been used for such exercises, there is a need for fast reduced-order models" *New Computer Model for High-Rise Fire Smoke Simulations*, paper by @UTFireResearch in @FireTechnology https