Approaches for Passive Cooling Systems for Sustainable Building Design for Various Climates

Passive cooling utilizes heat gain management and dispersion naturally.This research paper explores passive cooling strategies for buildings, focusing on climate change and sustainability.Buildings account for over 40% of global power demand and CO2 emissions.These strategies can reduce cooling energy by 23.6% annually, increasing resilience to changes in the environment and reducing the need for mechanical cooling.In this context, this research investigates four actions of passive cooling: storing, avoidance, slowing, and removal, and clarifies the attributes of various climates and their impact on the efficacy of passive design solution methods.It examines the feasibility of a solar chimney-powered system, aiming to provide fresh air, indoor comfort, and reduce room cooling loads.The study also explores passive design measures for energy efficiency in residential buildings using building simulation.It concludes that passive cooling systems can improve building performance, energy conservation, and resilience in extreme weather by incorporating sustainable energy sources, protecting buildings from solar radiation, reducing mechanical cooling, diminishing carbon footprints, and advancing environmental sustainability.