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PhD Studentship: Bioprocess Intensification for carbon dioxide and waste-derived feedstock conversion to bio-based products Award Summary The studentship provides 100% fees (Home & international), a
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expect to gain, a minimum 2:1 Honours degree or international equivalent in a subject relevant to the proposed PhD project, i.e., chemistry, physics, materials science and/or engineering. Enthusiasm
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, process technologies and green chemistries required for the process industries’ transition to Net Zero. “Flow chemistry” is increasingly of interest in the chemicals and pharmaceuticals industries, to allow
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, for biochar production and currently uses the gaseous product of pyrolysis for renewable pyrolysis steam production. While currently successful, the increasing demand for biochar and its by-products in
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understanding effects of types of feedstock and operating conditions on products properties, as well as assessing sustainability and techno-economic feasibility of the developed technology and products in
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central to NWL’s nutrient neutrality and net zero ambitions. However, the alga’s biology remains a black box. This PhD project will use minion nanopore sequencing of the alga’s genome and to define
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proposed PhD project (usually chemical engineering or chemistry, but please get in touch if you think your qualification may be relevant). Enthusiasm for research, the ability to think and work independently
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, to develop the new processes, process technologies and green chemistries required for the process industries’ transition to Net Zero. Fast moving consumer good, such as fabric and home care products, have a
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-jet cleaning systems for flue gas treatment emissions control in waste-to-energy and biomass combustion plants. This project will explore Computational Fluid Dynamics (CFD) methodologies for optimising
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at the Green Chemistry Centre of excellence at the University of York. You will also be taught a range of skills to complement, drive and strengthen your research: life-cycle analysis, techno-economic analysis