|First Name||Last Name||Position||Research Interests|
|Laura||Aguilar Esteva||Research Assistant|
|Jose||Alfaro||Core Staff, Professor of Practice||
|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.
Sustainable energy, Life cycle assessment, Climate change, Sustainable development, Environmental economics, Energy Storage, Linkages between energy and environment, Electric vehicles
|Stephen (Simi)||Barr||Research Assistant||
Life Cycle Analysis, Sustainable Energy Systems, Carbon Cycle
Dominic’s research explores spatial, racial and socioeconomic patterns of residential energy affordability, consumption and efficiency. Particularly, he is interested in identifying spatial clusters of high energy consuming and high energy inefficient households to best locate residents mired in fuel poverty. Moreover, he is interested in developing methods for selecting cost-optimal energy retrofit policies for residential buildings at the urban scale.
|Kevin (Zicheng)||Bi||Research Assistant||
Life Cycle Assessment, Industrial Ecology, Renewable Energy, Electric Vehicles & Fleet Electrification
Aquaponics, Urban Sustainability, Sustainable Development
Christine is interested in watershed management, drainage system optimization, real-time controls, and ecological response monitoring. Currently, her thesis research is focusing on developing ecologically-based flow targets for the Clinton River Watershed through using real-time sensing and hydrologic modeling. Outside of her professional life, Christine enjoys exploring new places, yoga, kayaking, and ramen noodles."
Development and application of both quantitative and qualitative means to help policy makers and decision makers attain improved planning, evaluation, and management of natural resources, especially water resources. Specific research interests include multi-objective analysis and risk analysis application.
Lexie is driven by a deep desire to seek nuanced understanding of complex issues and to create systemic change that reduces or prevents suffering in the world. She is pursuing a dual MBA/MS degree in sustainable business through the Erb Institute for Glocal Sustainable Enterprise, because she believes the best way to accomplish this aspiration is by leveraging the role of business to catalyze sustainability and social equity. Ultimately she plans to focus her career on transforming the way society uses natural resources and facilitating the transition to a closed-loop circular economy.
Sustainability and resilience dynamics, Industrial Ecology, Urban-Rural Linkages, Life cycle flows, Green Infrastructure, Food-Water-Energy Systems.
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 energy efficiency at the CSS.
|Michelle||Farhat||Research Assistant, Office Assistant||
Renewable energy, microgrids, and grid improvement in developing countries, especially through decentralized electricity generation.
industrial ecology and renewable energy
Sustainable energy, climate change, energy/water nexus, energy justice, sustainable development
Craig O. Freeland Jr is an undergraduate student at Denison University that will be completing his BA in Educational Studies and Environmental Studies this coming school year. He is a 2018 Doris Duke Conservation Scholar and will be working in the Urban Energy Justice Lab this summer. After completing his undergraduate work, Craig plans on going to graduate school in Chicagoland or the D.C. metropolitan area to work towards becoming a secondary educator.
She is most interested in renewable energy and sustainable energy practices, and would like to develop skills in improving energy infrastructure on large and small scales as well as researching energy generation technology. She is also interested in designing renewable energy infrastructure for different locations, particularly solar and wind power systems and would like to study the inefficiencies of different types of systems and work to improve them.
|James (Jim)||Gawron||Research Assistant||
Jim's research involves the development of an integrated model using life cycle assessment methods to provide insight into the energy and emissions performance of autonomous vehicles for a variety of deployment scenarios. His other research interests include fleet electrification, shared mobility, and renewable energy.
Energy Poverty Index
sustainable food supply chains in cities; urban agriculture; beef hoofprint of cities
GIS, remote sensing, spatial analysis, land use/cover change, scenario-based simulation.
Andrew is interested in the implementation process of renewable energy generation and storage technologies.
Life cycle assessment, autonomous vehicles, electric vehicles, individual travel patterns, GPS data, lightweighting materials, emission inventory
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.
|Martin||Heller||Core Staff, Research Specialist||
Life Cycle Assessment of Food and Agricultural Systems; Food System Sustainability; Sustainable Diets; Integrating Nutrition and Environmental Impact
Heller, M. (2019) "Waste Not, Want Not: Reducing Food Loss and Waste in North America Through Life Cycle-Based Approaches." United Nations Environment Programme (Download full report here.)
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.
My research interests are in the general area of Life Cycle Assessment. Specifically, I'm interested in using existing life cycle inventory datasets to predict the unknown datasets through computational modeling. Instead of expensive, time-consuming site investigation or literature review, the computational approach takes advantage of the underlying similarity of various datasets to easily estimate the unknown data with reasonable accuracy.
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.
Kai Huang is an associate professor in the College of Environmental Science & Engineering, Beijing Forestry University (BJFU), China. His field of expertise is environment management and environmental policy, with specific interests on environmental footprinting and industrial ecology. At BJFU, he is a core faculty member in the College of Environmental Science & Engineering and Beijing Key Laboratory for Source Control Technology of Water Pollution. He has devoted to the interdiscipline research of environmental management for nearly ten years.
|Helaine||Hunscher||Core Staff, Program Coordinator|
Life Cycle Assessment, Renewable Energy, Water Treatment, Process Design
Krutarth's current research focuses on evaluating the environmental performance of advanced lightweight materials for automotive and aerospace applications. He has developed parametric life cycle models to analyze the impact of lightweighting on energy consumption and GHG emissions
Co-author of journal article:
Padmanabhan, M., Jhaveri, K., Sharma, R., Basu, P. K., Raj, S., Wong, J. and Li, J. (2016), Light-induced degradation and regeneration of multicrystalline silicon Al-BSF and PERC solar cells. Phys. Status Solidi RRL, 10: 874–881. doi:10.1002/pssr.201600173
He was named a Dow Sustainability Fellows in Winter 2018 and received $20,000 for his studies.
energy efficiency, energy policy, clean energy, sustainable businesses, energy finance and economics, supply chain sustainability, and life-cycle energy assessments
Development and deployment of energy generation and storage technologies; Emergent systems sustainability assessment; Future of mobility; Circular economies; Corporate sustainability.
My current research is centered around a life cycle perspective on autonomous vehicles. Other interests in sustainability research include food systems and biomimicry
|Gregory||Keoleian||Core Staff, Director, Professor||
1) the development and application of life cycle models and metrics to enhance the sustainability of products and technology, 2) pioneering new methods in life cycle design, life cycle optimization of product replacement, life cycle cost analysis and life cycle based sustainability assessments ranging from energy analysis and carbon footprints to social indicators, 3) systems including alternative vehicle technology, renewable energy systems such as photovoltaics and willow biomass electricity, buildings and infrastructure, information technology, food and agricultural systems, household appliances, and packaging alternatives.
My interests lie in how to mitigate the negative effects of climate change and how to adapt to a changing climate though sustainable practices.
Mineral resources, metals recovery, technology recycling, E-waste
|Geoffrey||Lewis||Core Staff, Research Specialist||
GIS, data analysis, Smart City infrastructure
Pursuing life cycle optimization research in product design and replacement of new technologies and sustainable
|Leona||Liu||Research Assistant, Office Assistant||
Leona is interested in renewable energy, electric vehicles, waste management and closed loop recycling.
International Sustainable Development, Global Effects of Climate Change, Urban Planning and Policy
Renewable energy technology design and grid integration, implementation and design of renewable microgrids in developing countries, sustainable development, energy systems planning
|Shelie||Miller||Core Staff, Associate Professor||
Dr. Miller’s research interests center around the life cycle impacts of emerging energy systems. Recent work focuses on the non-carbon aspects of biofuels, such as disruptions to the nitrogen cycle and changes in land use. Interests also include advancing Life Cycle Assessment methods to analyze dynamic and emerging systems, such as hydraulic fracturing in the US and electricity grids in developing countries.
|Joshua||Newell||Core Staff, Associate Professor||
Dr. Newell's research can be divided into two primary areas of interest. The first, Metabolisms of Urban Infrastructure and Form, focuses on structural features of the urban form (e.g. built environment, transport, energy, and water infrastructure) that due to their durability have long-term implications for resource consumption patterns and processes within and outside of urban areas. The second research area, "Ethical" Urban Consumption and Commodities, focuses on the interrelationships between the consumption of consumer products, our responsibilities as global ‘green’ urban citizens, and the role of governance mechanisms and frameworks (including local institutions) in regulating product consumption. His research approach is often multi-scalar and integrative and, in addition to theory and method found in geography and urban planning, he draws upon principles and tools of industrial ecology (e.g. footprinting and life-cycle analysis), and spatial analysis (e.g. land use/land cover change).
Jon's research interests include clean energy and battery storage.
|Scott||Noesen||External Advisory Board Member||
Integrate sustainable thinking and processes into all phases of business and non-profit institution activities.
Examining environmental justice implications of market driven environmental policy. I am also interested in the equity, implementation, and access of electrification within public and private transportation. In my spare time I enjoy watching Netflix, hiking, biking and cooking.
|Nolan||Orfield||Core Staff, Lecturer, Research Associate||
Dr. Orfield is interested in product design and the role that life cycle modeling can play in the creation of products that serve rather than deplete the planet. His background in both entrepreneurship and academic research position him to understand not only the complex interaction between goods and the natural world, but also the design constraints required for commercialization.
Kyle is interested in water systems and carbon capture technologies.
Gaby's interests include sustainable water systems and water treatment.
Shen Qu is a Dow Sustainability Postdoctoral Fellow at SEAS of the University of Michigan. His current research focuses on how environmental risks may impact the global trade network. In particular, he combines tools of input-output analysis and network analysis to uncover the role of international trade in spreading and preventing environmental impacts.
Dwarak Ravikumar is a post-doctoral Research Fellow at the Center for Sustainable Systems (CSS). He is currently investigating the environmental trade-offs for a circular economy for carbon emissions and evaluating if it is environmentally worthwhile to utilize the captured carbon to manufacture products in the chemical and construction sectors. Dwarak’s research interests include developing environmentally improved technologies to recycle photovoltaic systems, advancing life cycle assessment methods to evaluate emerging technologies, and improving the sustainability of renewable energy systems.
|Tony||Reames||Core Staff, Assistant Professor||
Tony G. Reames conducts research in the emerging field of energy justice, which investigates fair and equitable access to affordable, reliable, and clean energy technology. His research employs energy analysis, geographic information systems (GIS), and policy analysis tools to study disparities in urban residential energy dynamics focusing on the production and persistence of spatial, racial, and socioeconomic inequality. To watch an interview on how his research interests evolved, visit: http://snre.umich.edu/news/12-22-2016/dr_tony_reames_brings_community_ap...
His is recipient of the Harvard School of Public Health, JPB Foundation Environmental Health Fellowhip 2018-2021.
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.
|Selim||Sardag||Research Assistant, Office Assistant||
Selim is interested in addressing current environmental issues using engineering practices, with a focus on renewable energy integration and greenhouse gas emissions modeling. Selim completed his undergraduate degree in Mechanical Engineering with a minor in Aerospace Engineering at Cornell University. During his undergraduate career, his research focused on evaluating wind and solar resource patterns and draught conditions, and characterizing emissions from biochar combustion cookstoves. He also worked as a manufacturing engineering intern at Turkish Airlines Technic. Outside of academics, Selim plays tennis and likes to travel to find new spots to bungee jump.
My research interest is the universal scaling law of national development.
Brandon's academic interests include the integration of alternative energy with current grid infrastructure, carbon sequestration, and geothermal energy.
Focus: Sustainable Systems / Policy and Planning / Housing and Economic Development
materials, structures, vehicle safety, life cycle assessment, recycling, and sustainability
His field of expertise is environmental science and engineering, with specific interests on water science and technology. He also focuses on the broad fields of environment, sustainability and ecological civilization.
Kanchan is interested in exploring the multifaceted water and energy nexus and its relationship to broader social issues like urban sustainability and design, environmental justice, and public health.
Morteza is interested in assessing the energy and environmental implications of emerging transportation systems and investigating the policy mechanisms that would promote sustainable transport. His research is focused on the synergetic effects of vehicle automation, electrification, and integration with charging infrastructure.
Sustainable food systems, (Social) life cycle assessment, industrial ecology, ecosystem services, supply chain management
Energy systems efficiency, Carbon reduction strategies, Federal regulation compliance strategies for utilities, Renewable electricity, and Grid-scale storage
Renewable Energy Integration and Energy Storage.
Renewable Energy, climate change adaptation, sustainable development, green buildings
Max's research interests include the expansion of renewable energy systems in developing countries, and solar energy technologies.
Shu's interests include residential energy transition, residential energy intensity, residential biomass energy consumption behavior, rural energy policy and agricultrual energy efficiency.
Water Resource Management
|Ming||Xu||Core Staff, Associate Professor||
Dr. Xu develops and applies interdisciplinary system-based analytical tools to understand complex sustainability issues. This includes industrial ecology approaches (e.g., environmental input-output analysis, life cycle analysis, material flow analysis) and complex systems modeling methods (e.g., agent-based modeling, complex network analysis). Current focus of research includes "big data" mining and visualization, environmental implications of emerging bioenergy and clean vehicle technologies, and environmental impacts of international trade.
Environmental planning and management, LID-BMP database establishment, Green and grey infrastructures coupling, life cycle assessment
Yajuan Yu is an Associate Professor in the School of Materials Science & Engineering, Beijing Institute of Technology (BIT), China. Her research focuses on the broad fields of environmental protection and sustainable development, with specific interests on Life Cycle Assessment of green materials, and environmental regulation and assessment. At BIT, she is a core faculty member in the research center for green energy resources and sustainable development. She has devoted to the interdiscipline research of green materials and environmental protection for nearly ten years.
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.