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involves investigating the application of pyrolysis as an advanced thermal conversion (ATC) technology for processing sewage sludge samples from UK Water Industry. As the successful candidate you will work
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position in the Sustainable Fuels and Chemicals Group within EBRI. This role involves investigating the application of pyrolysis as an advanced thermal conversion (ATC) technology for processing sewage
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Support research and development activities in waste recycling, pyrolysis reactor, in the area of chemical engineering, thermal systems, and mechanical engineering. Conduct design and improvement
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waste pyrolysis would allow for the generation of value-added pyrolysis oil while reducing the input of fossil energy. This aligns with global 'zero waste' strategies and low-carbon fuel production, thus
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carbon support material from hardwood biomass through a controlled pyrolysis process. The biochar obtained from the pyrolysis process will be subjected to chemical activation with KOH/H2O2 and H3PO4
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and supervise PhD and master’s students. Your expertise enables you to give advice across the full spectrum of chemical recycling, including: the impact of plastic waste on pyrolysis processes, advanced
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methodologies such as hydrothermal/solvothermal synthesis, controlled pyrolysis, or chemical carbonization. Knowledge of structural and morphological characterization techniques (SEM/TEM, XRD, Raman, FTIR
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technological consequences are in the focus. The research group in which you will be active has its own pilot scale facility for pyrolysis and gasification trials and advanced analytics for product
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assessing advanced thermochemical technologies, in particular the gasification and pyrolysis of organic waste and wastewater treatment sludge. The researcher will provide technical and scientific support for
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to very high temperatures. Before injection, fuel is used to cool the walls of the combustion reactor. Some applications go further by using active fuel cooling, based on pyrolysis of the fuel before it is