PhD Position in Energy Geoscience and Engineering at Georgia Tech
Explore multiphysics subsurface processes critical to energy transition challenges. Join Georgia Tech's interdisciplinary team to drive research on nuclear waste isolation, CO2 storage, and superhot geothermal reservoirs using experimental and computational methods.
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Project Description
Project Overview
This PhD project focuses on advancing the understanding of multiphysics subsurface processes pivotal to the energy transition. Research areas include nuclear waste isolation, geological storage of CO₂, and exploration and development of superhot geothermal reservoirs. These topics are essential for providing sustainable and safe solutions for energy generation, carbon management, and waste disposal.
What You Will Do
Students will join a dedicated research team combining experimental and computational techniques. The lab offers access to advanced facilities for modeling and hands-on experimentation. Research will be interdisciplinary, involving geoscience, engineering, physics, and environmental science approaches to tackle complex subsurface phenomena. Students will pursue projects aligned with their strengths, whether modeling or experimental work.
Expected Outcomes
The project aims to develop a deeper scientific understanding of subsurface processes to optimize technology for CO₂ storage, nuclear waste isolation, and geothermal energy extraction. Outcomes include improved predictive tools, experimental insights, and innovative solutions for environmental and energy challenges.
Why This Matters
Energy geoscience research is vital for addressing climate change and sustainable energy needs. Optimizing subsurface processes reduces environmental risks and supports the global transition to cleaner energy. This research contributes to long-term safety, environmental protection, and energy security.