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. The types of assets to be analyzed include: clean electricity generation, transmission and storage; clean fuels production transport and storage; CO2 capture, transport and storage; and associated supply
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focused on the conversion of CO2 to methane. The deadline for the application is December 8, 2025. The 24 month position is available from January 1, 2026 or as soon as possible hereafter. The research
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high-temperature and pressure energy systems (e.g., supercritical CO2 [sCO2]), experimentation or modeling of supercritical fluids, thermomechanical design, and/or experimentation or modeling of additively
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multilayer model estimating mass (water, CO2) and energy fluxes in plant cover. One of the main challenges of this modeling will be to take into account radiation within a complex three-dimensional canopy
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electricity generation, transmission and storage; clean fuels production transport and storage; CO2 capture, transport and storage; and associated supply chains. The work will focus initially on energy
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of the SUSPLASM project is to design and develop innovative, sustainable, fully electrified, green advanced thermal plasma-based gasification with zero or even negative CO2 footprint for the treatment
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in its CO2-fixing activity. To this end, the candidate will infer ancestral sequences of the CBC enzymes, in order for experimentalists to design strains of two model organisms carrying these ancestral
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of the captured CO2. The main challenge is to select technologies, determine installed capacity, and optimize CAPEX and OPEX while accounting for uncertainties. For more information, see the full posting on our
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quality (PM2.5, CO2, Nox, etc.) and energy monitoring (voltages, currents, battery charge/discharge cycles); Proficiency in languages commonly used in IoT, such as C/C++, Python, and JavaScript. Expertise
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the fundamental science that will lead to realizing the potential for the subsurface storage of CO2 through mineralization. Successful candidates should have a PhD in earth sciences, chemistry, environmental