The ground-level ozone produced by photochemical air pollution is a series environmental problem in Taiwan. Three dimensional chemical transport model (3-D CTM) is an important tool for air quality planning and management. The computation of CTM is a time-consuming task; their applications to long-term simulations were prohibited in the past. The short periods with high concentration, the so-called “episode”, were selected for simulations. Sometimes, the models were well tuned by adjusting parameters or boundary conditions so as to obtain better results. However, the performance may be poor while these models were applied to other situations. In this research, we use a 3D CTM to carry out one-month continuous simulation in order to determine the performance the model under various meteorological conditions. The simulation use same parameters for all period. The performances of the calculated 1-h concentrations are: the unpaired-in-time peak prediction accuracy ±0.71; the normalized bias ±0.67; the gross error, <0.73. This is somewhat worse than the performance criteria suggested by USEPA. The performances of the calculated 8-h concentrations are: the unpaired-in-time peak prediction accuracy ±0.73; the normalized bias ±0.54; the gross error, <0.61. The uncertainties in the emission database can generate some errors on the predictions. The performance of this model can be improved if the reasons that cause some extraordinarily flawed results can be identified. Since this system is so complex, there are numerous opportunities for improvements in the future.