L-Shaped Mini Louvers Performance of Solar Radiation Reduction in Glass Windows

Incident solar radiation that falls in building surface has effects in energy load. Cooling load is one of the highest energy consumption in buildings, especially in tropical country. Many researches are done to cope with this problem. Many solutions are offered, from as early as finding the optimum form, changing building orientation, exploring the use of sun shading, to implementing technology in a building. This paper aims to measure the performance of L-shaped mini louvers in a glass window to reduce solar radiation as one of solutions that may be simply used in buildings. The research uses simulation methods to compare the results of blocked solar radiation in glass window with eight different orientations throughout the year. Simulations are done for two locations, in Singapore and Sydney. These locations are taken to get insight of the effectiveness of mini louvers in tropical and sub-tropical area. Singapore has relatively hot temperature all year round; meanwhile Sidney recently has temperature that nearly breaks its record 80 years ago. The simulation will utilize Rhinoceros with Grasshopper plug-ins plus Ladybug. The weather data are obtained from United States Departments of Energy website. Simulation result shows that mini louvers can reduce solar radiation and work best for north direction in Singapore. In Sydney, type 1 and 2 windows work best for north direction whereas type 3 works best for southwest direction.