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to develop intensified processes for CO2 conversion into sustainable synthetic fuels via cobalt-catalysed Fischer-Tropsch Synthesis (FTS), based on advanced catalysis and reactor engineering concepts
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for gas measurements in real-life applications, for example environmental monitoring of greenhouse gases and air pollutants (i.e. CH4, CO2, N2O, NH3, SO2, CO, etc.) and plasma-based conversion of industrial
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: Optimize network design: Develop a robust, scalable thermodynamic–hydraulic framework to size and configure prosumer-based heating and cooling networks under conditions of price volatility, CO2 taxation
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commodity chemical, responsible for 1-2% of energy consumption and CO2 emissions worldwide. The PhD project will support the efforts for creating an innovative electrochemical membrane reactor
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Climate Act established a target of = 49% reduction in CO2 emissions by 2030 and 95% by 2050 (compared to 1990 emission levels). Realizing this transition will require continued expansion of energy from
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pollution, accounting for 7% of national CO2 emissions, 4% of waste, and 13% of raw material use-figures that place it above the international average. Much of this environmental impact results from
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system using COPS and deploying it in the field for gas measurements in real-life applications, for example environmental monitoring of greenhouse gases and air pollutants (i.e. CH4, CO2, N2O, NH3, SO2, CO