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experimental approaches, execute the necessary physico-chemical analyses, interpretation and dissemination of experimental results. Participate in project planning and execution. Publish innovations and findings
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demonstrate technologies for efficient energy conversion with a broad-range of fuels and near-zero emissions of pollutants. You will have the opportunity to work on projects focused on: catalysts for control
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candidate will interact with a team of scientists and engineers at ORNL on projects evaluating sustainable energy metrics, such as costs, benefits, equity, land use change, and carbon reduction potentials
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. Design and evaluate weatherization technologies and materials suitable for natural gas infrastructure components. Develop experimental setups, conduct experiments, and analyze results. Collaborate in
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using FEM Demonstrated expertise in design and implementation of multi-physics codes for metal AM applications including thermal-mechanical response as well as microstructure and phase transformation
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front-end introduction systems (e.g., laser ablation and single particle) for direct measurement by ICP-MS or ICP-OES. Conceive, design, and implement innovative analytical methods chemical analyses using
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to improve the innovative design and operation of building systems. Designing hardware and software solutions that push the limits of demand flexibility and optimal control in building systems, advancing both
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chemistries suited for long-duration energy storage (LDES), specifically: Assembly, testing, and structural design of redox flow batteries; Membrane processing and electrochemical evaluation within the flow