Townhouses are generally narrow entrance and long distance of depth in building, withthestaircase often placed in the center of the floor plan, which means that the stairwell cannot effectively achieve external ventilation and daylighting. Considering about the living quality and physical environment, the condition of existing typical townhouseshould be improved. The staircase is theessential vertical path for residence that goes through the entire building and itis the possible path can be used to conduct building ventilation. If the staircase can be utilized for air exchange, the air quality in the building can be improved. At the same time, the effect of ventilation can conducted by Buoyancy ventilation to improve environmental comfort in different season. In this study, a typical townhousewas selected as study case, located in the middle position in a row at Qishan. The main discussion topic is the interior staircase ventilation well and the spaces that are influenced by natural ventilation. The Computational Fluid Dynamics (CFD) was conducted to simulate and evaluate for ventilation efficiency. The results show that natural ventilation in the overall interior space by staircase ventilation tower is mainly affected by rooftop openings. Therefore, different types of the air baffles and angles can improve indoor airflow and environmental comfort. There were 9 scenarios based on three different type of ventilation baffle on the top of staircase. The air movement through indoor from open window to the rooftop were calculated by CFD with natural ventilation effects. In comparison with the original type of typical way, three angles of the rooftop baffle with on and off the wind deflector to simulate the summer and winter season for natural ventilation. The results show that the integrated way for slope raffle is better for controlling the different side of opening, and it is a good way to adopt the natural ventilation efficiency.