Comparing the Effectiveness of Dynamic Facades for Natural Daylight and Energy Usage in Buildings

Abstract

Abstract In this research, we explore the integration of dynamic facades to enhance both aesthetics and energy efficiency in buildings. The study introduces two dynamic facade designs, one employing a triangular shape and the other inspired by origami folds, aiming to compare their effectiveness in optimising natural daylight and overall energy usage. The triangular facade features movable wings that dynamically regulate natural light, balancing visual appeal and practical functionality. Similarly, the origami-inspired design adapts to external conditions, creating a symbiotic relationship between form and function. The research employs Python and Rhino 7 with Honeybee and Pollination plug-ins for a comparative analysis. The evaluation includes Spatial Daylight Autonomy (sDA300,50) exceeding 55%, Annual Sunlight Exposure (ASE1000,250) no more than 10%-20%, and optimal facade opening angles based on daylight factor (df) values. The dynamic facades are examined for their impact on energy efficiency, encompassing factors like natural daylight, and operational energy. Through this analysis, the study aims to determine which dynamic facade design, triangular or origami-inspired, proves superior in optimising natural daylighting and overall energy usage. This research contributes valuable insights into the balance of innovative architectural designs and sustainable energy practices, potentially influencing future building designs.