Sort by
Refine Your Search
-
Listed
-
Category
-
Employer
-
Field
-
about The DTU Department of Environmental and Resource Engineering at https://sustain.dtu.dk/ , the DTU National Food Institute at https://www.food.dtu.dk/english/ , the NTNU Department of Chemistry at
-
Job Description Biobased materials offer a sustainable alternative to traditional fossil-based resources by reducing dependence on limited petroleum supplies and lowering carbon emissions
-
and industrial applications. In the long term, this work aims to contribute to a reduction in resource use and carbon emissions by improving the efficiency, reliability, and durability of concrete
-
, the candidate’s salary will be paid by the University of Queensland in accordance with Australian PhD funding regulations. As part of your research, you will: Identify seaweeds resources and outline their potential
-
, ambitious, dynamic, and well-resourced working environment. Our unit and our department have state-of-the-art facilities for flow cytometry, next generation sequencing, single-cell transcriptomics, mass
-
of this position will be the investigation of meteorological phenomena impacting the wind energy sector, in particular with respect to wind resources and wind conditions. For example, investigating how large-scale
-
for the position. This position will be placed in Department of Chemical and Biochemical Engineering, in Applied Thermodynamics – Center of Energy Resources Engineering, which has a long tradition in research within
-
for the PhD Scholarship is 1st July 2025. The PhD scholarship will be carried out at the National Institute of Aquatic Resources (DTU Aqua) in Silkeborg in Denmark. Responsibilities and qualifications The goal
-
Job Description The Departments of Environmental and Resource Engineering (DTU Sustain) and the National Food Institute (DTU Food) at the Technical University of Denmark (DTU) offer a full-time
-
PhD fellowship/scholarship - Intercropping of cover crops and vegetables to mitigate nitrate leac...
the effect of species and management choices (e.g. sowing time) for complementary resource use and environmental and climate impact. The focus will be on cover crop and vegetable growth above- and belowground