Date of Award
Master of Science in Environmental Engineering (MS)
College, School or Department Name
Department of Civil and Environmental Engineering
James R. Mihelcic
Indoor air pollution from combustion of solid fuels is the fifth leading contributor to disease burden in low-income countries. This, and potential to reduce environmental impacts, has resulted in emphasis on use of improved stoves. However, many efforts have failed to meet expectations and effective coverage remains limited. A disconnect exists between technologies, delivery methods, and long-term adoption.
The purpose of this research is to develop a framework to increase long-term success of improved stove projects. The framework integrates sustainability factors into the project life-cycle. It is represented as a matrix and checklist which encourages consideration of social, economic, and environmental issues in projects.
A case study was conducted in which an improved stove project in Honduras was evaluated using the framework. Results indicated areas of strength and weakness in project execution and highlighted potential improvements for future projects. The framework is also useful as a guide during project planning.
Ostrom, Travis K., "Considering sustainability factors in the development project life-cycle : a framework for increasing successful adoption of improved stoves ", Master's report, Michigan Technological University, 2010.