Ziegler integrates data-based modeling, chemistry and policy to evaluate sustainable energy and chemical technologies and systems. His work informs scientific research, engineering and public policy focused on improving our environmental sustainability, with an emphasis on mitigating climate change. At MIT, Ziegler evaluates established and emerging energy technologies, particularly energy storage. He examines how energy storage technologies have changed over time to determine how to accelerate their improvement. He also studies how energy storage can be used to integrate intermittent renewable resources into a broader energy system.
This event is part of the David Bradford Energy and Environmental Policy Seminar Series organized by the Center for Policy Research on Energy and the Environment (C-PREE) in the Princeton School of Public and International Affairs and co-sponsored by the High Meadows Environmental Institute (HMEI).
Ziegler integrates data-based modeling, chemistry and policy to evaluate sustainable energy and chemical technologies and systems. His work informs scientific research, engineering and public policy focused on improving our environmental sustainability, with an emphasis on mitigating climate change. At MIT, Ziegler evaluates established and emerging energy technologies, particularly energy storage. He examines how energy storage technologies have changed over time to determine how to accelerate their improvement. He also studies how energy storage can be used to integrate intermittent renewable resources into a broader energy system.
This event is part of the David Bradford Energy and Environmental Policy Seminar Series organized by the Center for Policy Research on Energy and the Environment (C-PREE) in the Princeton School of Public and International Affairs and co-sponsored by the High Meadows Environmental Institute (HMEI).