Large-scale wafer fab clean room space of the special manufacturing process, can’t follow the general plant and the smoke extraction system design concepts, and wafer manufacturing process using a large number of toxic chemicals and flammable substances, Domestic current norms laid down by the fire, There is no way appears to be effective protection; And fire in the clean room at the same time, To enable staff to escape the downward airflow so the air-conditioning system FFU (Fan Filter Unit) can’t be shut down, the result of fire smoke would spread more rapidly, resulting in more lives and property losses. First of all, the basis of this study NFPA92A/92B, as well as the U.S. Federal Standard FS 209E provides speed FFU less than 0.45m / s, and based on the stability of the fire source Klote baseline design capacity, it is assumed that the source for the fire 2000KW, the use of U.S. tobacco control NIST's Fire Dynamics Simulator software, and the use of multi-grid convergence of technology, to simulate realistic-size dimensions for the 168m, 78m, 14m large-scale clean room space, and to further explore the global dynamics of flow field of fire. The results found that in a large space in the smallest limited combustible 2000KW under fire, according to NIST to provide the characteristic fire diameter relationship, the lattice size 0.125mx 0.125mx 0.125m, the simulated and experimental temperature of the same regression equation, the number of all lattice 5,630,784, and its fire can easily affect the normal work of FFU, thereby undermining the overall flow field, flow field to produce turbulent flow field, the extension of suspended particulates in the FAB-story residence time, resulting in greater losses .