Date of Submission
Spring 5-2025
Degree Type
Dissertation/Thesis
Degree Name
Bachelor of Architecture
Department
Architecture
Committee Chair/First Advisor
Christopher Welty
Abstract
Every year, millions of people are displaced from their homes due to catastrophic flooding. According to data from the United Nations High Commissioner for Refugees (UNHCR), floods caused 9.8 million displacements in 2023 alone. Climate change is a primary factor driving the increasing frequency and intensity of storms and flooding worldwide.
This year, heavy rainfall has submerged villages and towns, destroyed homes and livelihoods, and imposed growing hardships on affected communities across regions such as Afghanistan, East Africa, Brazil, and the United States. These events have been intensified by a combination of storm surges, tropical cyclones, hurricanes, and record levels of snowmelt, leading to major river overflows and seasonal flooding. Human activity has also played a critical role: natural ecosystems have been severely degraded, and the built environment has diminished the land’s capacity to absorb heavy rainfall. As a result, floods are becoming more frequent, more intense, and increasingly difficult to manage.
So, must we run or retreat in the face of extreme weather — or can we design architecture that adapts and responds?
This thesis explores how lessons from history and nature can inform architectural strategies to mitigate the impacts of flooding. The research draws on natural systems, geometric structures, and adaptive patterns — studying, for example, how bees rebuild their honeycombs after disruption, how lily pads and water hyacinths float and adapt to water conditions, and how people have historically responded to rising waters across cultures and time.
Building on these insights, I propose a new approach to habitation under flood-prone conditions — one that is adaptable, resilient, and rooted in modular design. The architectural system I developed allows residents to replace damaged apartment units, enabling a quicker and more flexible recovery process. The goal is not to eliminate displacement entirely but to support communities in rebuilding and remaining in place.
While the site presented here is merely an example, the proposal can be applied worldwide. There is a pressing need for architecture that empowers communities to endure and recover from water-related disasters without abandoning their homes and identities.