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, CO2 capture, and related fields. Experience with bioprocess optimization, gas-liquid fermentation, Knowledge about the multispecies interaction withing consortium and genome scale metabolic modelling
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CO2 captu Apply for this job See advertisement This is NTNU NTNU is a broad-based university with a technical-scientific profile and a focus in professional education. The university is located in three
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, with sustainability elements such as CO2 and water footprint, solvent and raw-material utilization. perform genotoxicity assays with Parhyale hawaiensis as model organism conducting aquatic toxicity
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gas analysis, a GC/MS, and an HPLC/MS. DFT calculations will be performed using annual allocations on national high-performance computing centers. More details here: https://iramis.cea.fr/en/nimbe/lcmce
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. The specific aim being development of a first-of-it-kind database for impacts of novel CO2-based pathways of production to be emphasized. As a part of the project you will: Quantify the Impact of future
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teaching and competencies in water treatment technology and fish health in recirculating aquaculture systems. The main role of the PhD is to investigate how dissolved CO2 in combination with other water
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directly converting CO2 into functional carbonates that function as carbon-negative, high-performance fillers in coatings and plasters. This PhD will focus on the process-structure and structure-property
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horticulture. Via its combined heat-and-power (CHP) plants used for electricity, heat and CO2 demands, it provides 11% of the yearly national electricity supply and 10% of the dispatchable power capacity
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limitations, including the use of high global warming potential (GWP) refrigerants, toxicity (ammonia), flammability (hydrocarbon refrigerants), high operational pressures (CO2), moderate efficiencies, and
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details can be found at https://www.net-zero-fibe-cdt.eng.cam.ac.uk/ The project is funded in collaboration with Ramboll and Buro Happold who work across diverse projects with key clients focused