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Analysis on Temperature Distribution and Smoke Reflux of a Fire Road Tunnel by the FDS Numerical Simulation

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ã€Authorã€‘ Wang Song;Wang Ziyun;Liang Yuan;Ding Pei;College of Architecture and Environment, Sichuan University;China Rail Fifth Survey and Design Institute Group Co., Ltd;Institute of Disaster Management and Reconstruction, Sichuan University;

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ã€Abstractã€‘ Temperature distribution of vertical section and smoke flow when ventilation is at critical velocity and different ventilation velocity in different slope fire tunnel were obtained by building model and making numerical simulation with Pyro Sim software. Conclusions are summarized as follows: at the same ventilation speed, the bigger the slope of ascent is or the smaller the slope of downgrade is, the easier smoke exhaust downstream and the shorter smoke reflux distance is. The unit time increased heat exhausted to outside with smoke downstream near the fire source caused by increased ventilation speed is denoted as ?Q1 and the unit time decreased heat spread upstream with smoke near the fire source caused by increased ventilation speed is denoted as ?Q2. If ?Q1<?Q2, the average temperature near the fire source will rise. And if ?Q1>?Q2, the average temperature near the fire source will drop; Obtained the relationship between reflux distance and ventilation speed of downgrade tunnel with a slope of 5% by fitting to simulated data.æ›´å¤š è¿˜åŽŸ

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ã€Key wordsã€‘ Tunnel fireï¼› Numerical simulationï¼› Slopeï¼› Smoke refluxï¼› Critical wind velocityï¼› Temperatureï¼›

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Analysis on Temperature Distribution and Smoke Reflux of a Fire Road Tunnel by the FDS Numerical Simulation

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