Impacts of horizontal and vertical louvers on the natural cross-ventilation performance of a generic building

Wind-based natural cross-ventilation is defined as a process in which fresh air is injected into a building via a high-pressure windward window and exhausts into the atmosphere through a low-pressure leeward window. There are several parameters that affect the natural ventilation performance, which should be considered in detail to reach the maximum air quality inside the buildings. In the present study, the effects of horizontal and vertical louvers on the wind-driven natural cross-ventilation performance of a generic building are assessed using computational fluid dynamics. In this regard, horizontal and vertical louvers with installation louver angles of 15 degrees, 30 degrees, and 45 degrees are compared with each other and corresponding non-louver cases. Computations are carried out for three different free-wind speeds of 1, 2, and 3 m/s to show the impact of the external conditions on the natural ventilation of louvered cases. The obtained results revealed that under a low free-wind speed of 1 m/s, the minimum age of air and maximum air exchange efficiency occur for vertical louvers with an installation angle of 15 degrees, while at moderate and high free-wind speeds of 2 and 3 m/s, the horizontal louvers with an installation angle of 15 degrees provide the best condition for a generic building.HighlightsEffects of horizontal and vertical louvers on the wind-driven cross-ventilation were studied.At a free-wind speed of 1 m/s, the minimum age of air and maximum air exchange efficiency occur for vertical louver with alpha = 15 degrees.At UH = 2 and 3 m/s, horizontal louver with alpha = 15 degrees provides the best condition for a generic building.