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The Global Potential for Small and Micro Reactor Systems to Provide Electricity Access
October 28, 2020 @ 6:30 am - 7:30 am MDT
GEN IV INTERNATIONAL FORUM WEBINAR
THE GLOBAL POTENTIAL FOR SMALL AND MICRO REACTOR SYSTEMS
TO PROVIDE ELECTRICITY ACCESS
Topic: The Global Potential for Small and Micro Reactor Systems to Provide Electricity Access
SPEAKER: Payne Institute Faculty Fellow Dr. Amy Schweikert, Research Assistant Professor in Mechanical Engineering at Colorado School of Mines
Hosted by: GEN IV INTERNATIONAL FORUM
Time: WEDNESDAY, OCTOBER 28, 2020 – 6:30AM – 7:30AM MT
ZOOM WEBINAR – NO REGISTRATION NECESSARY – FOLLOW THIS LINK
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Please join the GEN IV International Forum as they welcome Faculty Fellow Dr. Amy Schweikert, Research Assistant Professor in Mechanical Engineering at the Colorado School of Mines, presenting at webinar titled The Global Potential for Small and Micro Reactor Systems to Provide Electricity Access on Wednesday, October 28, 2020 from 6:30am – 7:30am (MT).
Small and micro-scale modular reactors have received considerable attention for their potential to reduce costs, load follow and meet electricity needs in places where the size of conventional reactor technologies is unwarranted. This small scale is particularly relevant in the developing world where large centralized grids are uncommon and the need for electricity is considerable. More than 1 billion people globally are currently estimated to live without access to any electricity. The Agenda for Sustainable Development calls for reliable, affordable and clean energy for all people by 2030, creating an additional imperative for rapid low carbon technological deployment. This talk will present a novel market analysis of near-term energy demand. We use state-of-the-art satellite imagery to identify regions with no nighttime light as a proxy for electricity poverty, and ambient population to determine the number of persons in these regions. GIS is used to create corresponding maps showing the capacity needed to provide this degree of electricity as a function of location if only micro and mini-grids are available. Additional considerations including resilience to natural hazards, siting considerations and competitive technologies are discussed.
Dr. Amy Schweikert is a Research Assistant Professor in Mechanical Engineering at the Colorado School of Mines. She is a Fellow in the Payne Institute for Public Policy and co-appointed in the Nuclear Science Program. Her work focuses broadly in the areas of infrastructure resilience and development. This includes a focus on quantitative risk modeling for infrastructure related to climate change and hazard events. Additionally, her work looks at socio-technical options for energy expansion for underserved areas of the globe, including the role of nuclear energy as a component of the low-carbon energy technology portfolio. She is a graduate of the Santa Fe Institute’s Summer School on Complex Systems and hired as a coordinator for the 2019 and 2020 sessions. She has consulting experience with the United Nations, the World Bank and a number of public and private entities. Dr. Schweikert is a Colorado native and holds a Ph.D. in Civil Systems Engineering from the University of Colorado Boulder, a Masters of Science in Civil Systems Engineering and a certificate in Engineering for Developing Communities from University of Colorado Boulder. She completed her undergraduate Bachelor of Arts in International Relations with a focus on Foreign Policy and Security Studies from Boston University.