Litcius/Paper detail

Design, fabrication and computational simulation of a bio-kinetic façade inspired by the mechanism of the Lupinus Succulentus plant for daylight and energy efficiency

Elmira Anzaniyan, Matin Alaghmandan, Ayda Montaser Koohsari

2022Science and Technology for the Built Environment13 citationsDOI

Abstract

Designing a facade that is able to keep the balance between the daylight, view out and energy load is a challenge. The present paper aims to use the sun’s radiant energy utilizing the facade as the outer skin, which is in contact with the surroundings to reduce nonrenewable energy consumption and provide comfort to occupants. Using bionic science, a kinetic facade prototype was designed and fabricated with Lupinus Succulentus plants’ movement mechanism, a type of sun-tracking plant. This kinetic façade has been simulated by Grasshopper on the facade of the Southern side of an open office in Tehran. Accordingly, this study is to investigate a bio-kinetic facade, using the integration among kinetic architecture, biomimicry and occupants’ visual and thermal comfort. Bio-kinetic façade not only causes cooling load reduction by approximately 7% but also prevents the direct light entry, resulting in electric lighting load’s reduction by about 48%, which was calculated by Honey bee and Ladybug plugins.

Topics & Concepts

DaylightFacadeDaylightingRenewable energyKinetic energyEnergy consumptionEnvironmental scienceLouverArchitectural engineeringEngineeringAutomotive engineeringMechanical engineeringCivil engineeringElectrical engineeringPhysicsOpticsQuantum mechanicsUrban Heat Island MitigationBuilding Energy and Comfort OptimizationUrban Green Space and Health