Snider, Kaitlyn2024-11-052024-11-052024-05-19https://repository.tcu.edu/handle/116099117/66762This honors thesis delves into the intersection of architecture and environmental science, with a focus on developing a sustainable Heating, Ventilation, and Air Conditioning (HVAC) system inspired by the ingenious design of Macrotermes Natalensis termite mounds. By analyzing the intricate structure and composition of these mounds, particularly their interconnecting tunnels and passive temperature regulation mechanisms, the study aimed to revolutionize HVAC systems to reduce reliance on fossil fuels. Through the application of biomimicry principles and passive architecture techniques, a novel HVAC system was conceptualized and developed. This system promises to significantly decrease HVAC consumption and costs within the South-Central Region of the United States, consequently mitigating the substantial 4% of greenhouse gas emissions attributed solely to HVAC systems. The culmination of the research led to the creation of a pioneering passive architecture pavilion, seamlessly integrating the features of termite mounds with passive architectural design principles. This pavilion operates entirely through passive regulation, without the need for mechanical ventilation. The proposed system not only addresses current environmental concerns but also exhibits adaptability to future climate change scenarios. It has the potential to catalyze a paradigm shift in HVAC and passive architecture practices worldwide, fostering sustainability and resilience in the face of evolving environmental challenges.