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Description PhD student in Modelling carbon and greenhouse gas fluxes in lakes Are you interested in working on modelling carbon and greenhouse gas fluxes in lakes, with the support of competent and friendly
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on responses of river network carbon processing to climate stress. The position is for four years of full-time doctoral studies. The employment starts in August 2025 or according to an agreement. The application
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. Position description Construction industry is one of the biggest contributors to waste and carbon emission and this sector is at a crossroads. Unless major changes, the industry risks failing to meet the
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natural mixtures to be explored in much better depth using pure standards. The results of ongoing work in the research group will be used to better understand how Earth’s ecosystems process carbon compounds
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, environmental assessment tools, and cost-minimizing models, where all energy sectors compete for the same primary energy sources in a future carbon constrained world. Currently, we have a special interest in the
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spectral sensor data. By using absorbance data, you will train models to predict key water quality indicators such as nitrate, nitrite, and dissolved organic carbon in both freshwater and marine environments
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networks receive large amounts of carbon from terrestrial ecosystems, which is processed and “respired” into carbon dioxide (CO2) and methane (CH4), the most important greenhouse gases. Norther rivers emit
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reducing the overall carbon footprint and promoting ecological responsibility. As a PhD student, you will join our Machine Learning group in Sustainable Machine Learning. As part of our dynamic research
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achieved by combining advanced experimental probing with the development of constitutive models that capture the rate-dependent (creep and porewater pressure) response of sensitive clays. Thus, we will be
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the Westenhoff group. We try to make a positive difference in society through beyond state-of-the-art research on enzymatic catalysis mechanisms with the intention to replace fossil fuels with non-carbon-based