Mokshika Arora

BE4050

PBE22202

This DRP proposes a geometry-based methodology for designing static exterior shading devices that does not involve simulation of any physical variables, making it ideal for early design stage. Given the multiple challenges pertaining to daylight, a balanced approach for catering to visual comfort while increasing daylight access and mitigating solar radiation is aimed at in this project. There are multiple methods available for designing a static shading device but they either focus on limited parameters or necessitate detailed building inputs, hindering their integration in early-stage design processes.  The proposed methodology utilizes only geometric calculations to regulate solar radiation while concurrently mitigating glare, using results from "Shaderade" and Guth position index. As one of solutions, controlled perforations are suggested to enhance daylight access through the shading device, effectively balancing visual comfort and energy efficiency.  


Report Content

INTRODUCTION

EXISTING LITERATURE

KEY TAKEAWAYS

MODEL INPUTS

METHODOLOGY

METHODOLOGY

METHODOLOGY

RESULTS

RESULTS

RESULTS