Bioclimatic design is an effective architectural approach for creating environmentally responsive buildings, improving comfort and quality of life for its users while using fewer resources. However, globalization of construction strategies and standardized systems are often applied to various locations without considering the specificity of each climate and site. Thus, working contrary to bioclimatic premises and reducing the overall building performance. This work analyzes the case of the One-Day Church (ODC) global project from Maranatha Volunteers International (MVI), which consists of building churches around the world using a standard roof and frame kit, and local materials. It proposes design improvements for three macro-climates, namely hot-humid, hot-arid, and temperate.
This study reviews the concepts of environmental design for each climate and takes into consideration the organization values and church architecture for this religious group. The baseline model and proposed changes are simulated, and the results show that the strategies were responsible for improving daylighting levels, natural ventilation, envelope performance, and overall hours of comfort. In conclusion, applying a set of variations on the design based on macro-climate requirements can significantly improve the environmental performance of one-size-fits-all designs, creating a better space for those building users. These bioclimatic strategies may be applied to other standardized construction projects, such as emergency shelters, and in general to demonstrate the benefits of a bioclimatic approach.
Library of Congress Subject Headings
Bioclimatology; Sustainable architecture; Church architecture
Department, Program, or Center
Dennis A. Andrejko
Eller Rodrigues, Cibele, "Bioclimatic Design for Global Projects: The Case of Maranatha One-Day Church" (2016). Thesis. Rochester Institute of Technology. Accessed from
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