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hydrogen technology and demonstration facility for long-duration energy storage applications. The candidate will work with other engineers and scientists in the Thermal Systems R&D Group, within the Energy
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. Preferred Qualifications Ph.D. in chemistry, chemical engineering, materials science & engineering. Record of publications/presentations in areas related to electrolyzers (hydrogen, carbon dioxide reduction
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of water into oxygen and hydrogen during electrolysis. The successful candidate will research the technical details of multiphase LBM algorithms, adapt them for high performance with Python tools and AMReX
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focused on ironmaking. The candidate should have experience leading experimental work in this area. Specifically, the project focuses on hydrogen direct reduction of iron ores including thermal management
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solar energy conversion; solar fuels; hydrogen production, storage, and utilization; fundamental materials science and chemistry; materials discovery, synthesis, and development; advanced characterization
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(TES) and hydrogen technologies integrating with concentrating solar power (CSP). Responsibilities under this position include leading research work on modeling, testing, reporting, and publications
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and Manufacturing Science Group to conduct research on developing real-time, non-destructive inspection techniques for materials utilized in hydrogen fuel-cell and electrolyzer applications. Techniques
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focused on ironmaking. The candidate should have experience leading experimental work in this area. Specifically, the project focuses on hydrogen direct reduction of iron ores including thermal management
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. Preferred Qualifications Ph.D. in chemistry, chemical engineering, materials science & engineering. Record of publications/presentations in areas related to electrolyzers (hydrogen, carbon dioxide reduction