|First Name||Last Name||Position||Research Interests|
|Stefania||Almazan Casali||Research Assistant||
Stefania Almazán-Casali is an environmental social scientist. Her research focuses on understanding the interactions between human decision-making, power dynamics, and natural resource use. She follows a mixed-methods approach to provide insights on the key motivations and conditions guiding the distribution and governance of natural resources. Her approach combines surveys, behavioral experiments, and modelling tools such as agent-based models.
Stefania has international experience researching waste attitudes in Liberia, West Africa; water access in a small community in the Peruvian Andes; and sustainable forest management in Eastern Europe. She is particularly interested in issues surrounding the collaborative management of water resources. Her upcoming research explores the effects of climate change perceptions on water allocation and investment decisions in a river-basin committee in South-East Brazil.
|Stephen (Simi)||Barr||Research Assistant||
Life Cycle Analysis, Sustainable Energy Systems, Carbon Cycle
Dominic’s research explores the institutional barriers of energy poverty recognition and response in the United States whilst considering the spatial, racial/ethnic, gender, and socioeconomic patterns of residential energy affordability, consumption, and efficiency. More narrowly, his doctoral research aims to provide clarity for structuring more effective policy interventions and to improve decision making for assisting energy-vulnerable households, those likely to fall into energy poverty and struggle/unable to pay their energy bills resulting in energy utility shut-offs and forgoing basic necessities. Dominic is developing a multidimensional energy vulnerability index to better understand factors that contribute to household energy poverty in the U.S. Additionally, Dominic’s research uses LCA and LCC methods to better understand the effect of household appliance replacements on overall energy affordability of low-income households.
Miller, W. A., Boudreaux, P., Pallin, S., Biswas, K., Gehl, T., Atchley, J., ... & Shah, A. (2016). A field study setup of four homes having non-ventilated and semi-conditioned sealed attics. Journal of Green Building, 11(3), 1-20.
Sustainable Supply Chain Governance, Environmental Justice, Global Value Chain, Life Cycle Approach, Environmental Governance
Environmental Justice, redistribution of wealth, private sector sustainability efforts, big data analysis.
Claire's interests include renewable energy grid integration, energy systems planning, and the nexus of energy technology, economics, and policy. Her overarching interest is in mitigating climate change, and is currently researching alternative transportation fuel and technology for Amazon at the CSS.
|Elena||Essa||Research Assistant, Merit Fellow||
Elena’s research and academic interests focus on sustainable energy and technology deployment in developing communities, energy justice, and also international climate policy
Grant is interested in performing techno-economic assessments of carbon capture and utilization (CCU) technologies along with developing a more comprehensive framework for evaluating the costs of the various environmental impacts of these technologies. He is also interested in how complex systems modeling might be able to inform the deployment of carbon negative processes. Finally, he is intrigued by the ability of sustainable technologies, systems, and policies to reduce global catastrophic and existential risks.
Food System Sustainability, Life Cycle Assessment, Packaging Impacts and Alternatives
My research rest on the intersectionality of environmental justice, ecology, and health. Specifically, I am interested in how ecological processes are damaged by environmental injustice, which affects health but also how championing natural ecological processes can alleviate these detrimental effects. Currently, my research looks at how health suffers as a response to inefficient homes.
Microbiology, biogeochemistry, microplastics, bioremediation, water quality
Energy Poverty Index
Urban resilience, sustainable food-energy-water infrastructure, socially-engaged design
Brent Heard's work focuses on anticipating the sustainability implications of emerging technologies, with his current research investigating the effects of expanded refrigerated supply chains on food system sustainability.
Nutrient recovery through urine separation, Life Cycle Assessment, Water Systems, Circular Economy
Stephen is working on assessing a new form of recycling: Pee-cycling. Instead of adding nutrient heavy urine to the wastewater treatment system and intensively treating the nitrogen and phosphorus as a waste, the project looks to create fertilizer with it instead. He is developing life cycle models to analyze the environmental trade-offs of this approach with the conventional wastewater treatment system.
Nate's research involves material flow analysis for the supply chain of major automotive materials. Other research interests he'd like to pursue include sustainable energy infrastructure and sustainable business practice integration, particularly in the tourism industry.
International agriculture, renewable energy, and trade-focused professional with diverse experience in agricultural sourcing, supply chain development, and climate resilience work with farmers in emerging markets.
Life Cycle Assessment, Waste Management, Circular Economy, Climate Economics
energy efficiency, energy policy, clean energy, sustainable businesses, energy finance and economics, supply chain sustainability, and life-cycle energy assessments
Mineral resources, metals recovery, technology recycling, E-waste
Sustainable Supply Chain, Transportation/Mobility System, Life Cycle Assessment
Pursuing life cycle optimization research in product design and replacement of new technologies and sustainable
Renewable energy technology design and grid integration, implementation and design of renewable microgrids in developing countries, sustainable development, energy systems planning
|Shashank||Prakash Nair||Research Assistant||
Energy systems, Renewable Energy, Carbon Capture and Sequestration (CCS), Direct Air Capture, Negative Emissions Technologies (NETs), Energy Optimization Models, Building Energy
Nicole is interested in developing a more sustainable infrastructure for producing electricity, by optimizing the use of current generation assets and advancing alternative energy resources, with the goal of reducing emissions and waste. While obtaining her undergraduate degree Nicole participated in a co-op with Duke Energy for one year, where she gained experience in the operation and maintenance of coal fired power plants and natural gas combustion turbine combined cycle plants. After graduation she worked for Burns & McDonnell in their OnSite Energy and Power group creating dispatch models, feasibility studies and designs for combined heat and power plants. Nicole graduated from North Carolina State University in 2013 with a Bachelors of Science in Mechanical Engineering and a minor in Environmental Science.
My research interest is the universal scaling law of national development.
Morteza a PhD candidate in Resource Policy and Behavior (SEAS) and Transportation Engineering (CEE) at the University of Michigan. He is affiliated with the Center for Sustainable Systems, working under the supervision of Ming Xu, Sam Stolper, and Henry Liu. His research broadly focuses on leveraging the emerging modes of transportation (i.e. automated, shared, & electric vehicles) to improve transportation system efficiency while reducing social inequality and environmental impacts. He utilizes data science techniques, economics, and optimization to investigate the mechanisms that promote sustainable transportation.
Sustainable food systems, (Social) life cycle assessment, industrial ecology, ecosystem services, supply chain management
Max's research interests include the expansion of renewable energy systems in developing countries, and solar energy technologies.
My research interests are in the general area of Data Science application in Environmental Systems. Specifically, my current interests are on computational modeling to predict the unknown life cycle inventory datasets and high-resolution urban air quality mapping.