Extended AbstractRecently buildings tend to be taller and larger, they are more vulnerable to fire from a fire safety and firefighting capability point of view. In particular, such buildings with a large space could be a smoke spread route during the fire, so that it becomes more difficult to create a fire compartmentation which is one of the important smoke control design concept. Consequentially, it leads to difficulties in smoke control caused by temperature, external wind pressure, building structure and internal air flow.When we consider the constant fire growth characteristics in fuel-dominant fire in a building with the large space that accommodates the large number of person, a lot of smokes are generated, so that suffocation due to smoke inhalation could lead to loss of lives. Therefore, it has been pointed out that proper smoke control system is needed to deal with the fire in a large space. The solutions that are able to deal with smoke control and isolation so far might include mechanical smoke eliminating, air supply & exhaust control, air injection, whirlwind technology, fluid bag technology, smoke protection screen, air curtain, smoke temperature lowering technology and water screen technology. Among them, it has been noticed that air curtain technology has not been well studied.Klaus and Horn [1] studied on prevention of the smoke spread from the large space to the surrounding space by use of air curtain, and the smoke isolation effect in channel structure depending on air injection speed was investigated by Stein [2]. Wilkinson [3] conducted the study on smoke spread prevention performance and major design factors for fire smoke rises along the stair, using scale model test and numerical analysis.The performance of air curtain on smoke isolation is evaluated by adjusting the heat source. Smoke spread behavior and the performance of air curtain on prevention of smoke spread was investigated in the escalator structure between floors. ANSYS CFX [4] is chosen as solver which accuracy and feasibility have been proven and is used widely for flow analysis. The dimension of central plaza of the building was 10×10×2.5 m, and the length, width and height of the corridor divided into 4 ways were 6×2×2.5m. The plaza and corridor on 2 nd floor has a same structure as the 1 st floor, where floors are linked with escalator. Air curtain for smoke isolation, comprising of air supply nozzle (inlet) and exhaust hood (outlet), was equipped in front of escalator on 2nd floor in order to analyze the smoke protection characteristics against the smoke from the 1 st floor. The width of air supply nozzle of air curtain, injection speed , the width of exhaust hood and exhaust speed are respectively 0.01m, 30 m/s, 0.3m and 1 m/s. Here, air supply and exhaust flow were set equally (Q in = Q out ). The end of corridor except for the side to escalator was set as opening, initial indoor temperature was given as 20℃. The fire source sized 1x1m was located at the center of the plaza on the 1 st floor and numerical analysis was ...
