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Environment at the University of Arizona seeks a postdoctoral researcher to work on a new 3-year project funded by the National Science Foundation that aims improve understanding of the atmospheric H2 soil sink
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the CELCER-EHT project (Ceramic Cells for durable, performant and cost efficient HTE) funded by PEPR-H2 (Priority Research Programs and Equipment on decarbonized hydrogen). The research strategy is based
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Rocketdyne. The work is oriented on the design and testing of various systems and components for applications with supercritical CO2, H2/NH3, molten salt and particle-based storage systems. The Postdoctoral
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flammable gases (light HCs or H2). Experienced in national and international research projects and collaborations. Publications in indexed relevant journals. Motivation to pursue the goals of the project
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Engineering to achieve this target. We currently work on a number of societally relevant and industrially important topics such as chemical recycling of waste, CO2 conversion, sustainable fuels, renewable H2
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H2 in aqueous phase during hydrogenation reactions. Questions that may be explored during your postdoc include: How do reaction mechanisms differ in vapor phase compared to liquid phase? Can we design
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H2 molecules. In the context of these global and local evolutions, Ghent University (UGent) focuses on an important link in the future hydrogen economy, being the storage of hydrogen in pressurized
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(hydrogenotrophic archaea) to convert H2 and CO2 to CH4. The proposed project seeks novel methods to overcome the bottlenecks of hydrogen-to-biomethane process such as poor gas-liquid mass transfer and low hydrogen
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interaction in industrially observed EAF operations due to the limited research work on EAF operations based on the use of H2-DRI. Evaluate reported techniques critically and select a technique adaptable in the
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, heat transfer and DRI-slag interaction in industrially observed EAF operations due to the limited research work on EAF operations based on the use of H2-DRI. Evaluate reported techniques critically and