93 high-performance-computing PhD positions at Technical University of Denmark in Denmark
Sort by
Refine Your Search
-
Listed
-
Category
-
Field
-
student in this project, you will: Collaborate with leading experts across Denmark and Europe in a high-impact, interdisciplinary setting Gain hands-on experience with protein characterization, advanced
-
dynamic community of PhD students and actively supports diversity. We are looking for a motivated applicant with good competences in operation research who wants to gain hands-on experience in cutting-edge
-
, including electrical engineering, control theory, industrial engineering, electronics engineering, energy policy, data science, and applied mathematics. As part of the Alliance program, your project will be
-
experiments and analysing data. Design and perform cultivation in bioreactors. Writing peer-reviewed scientific publications. Actively interacting and collaborating with other partners involved in the project
-
) and Technical University of Denmark (DTU) aims at understanding and designing noble metal clusters in the non-scalable regime to enable exceptional catalytic performance for e.g. methane and ammonia
-
Neighborhood Search (LNS), which will use the developed approaches to design smarter LNS destroy/repair strategies, enabling further performance improvements. The PhD student will join a strong academic team at
-
renewable power system dynamics. Collaborate with experts from DTU and IIT Bombay, gain hands-on experience with advanced simulation tools, and contribute to high-impact publications. Enhance your
-
with focus on hazard assessment of the new developed materials, and chemicals used in their production Perform prospective Life Cycle Assessment (pLCA) to evaluate environmental impacts across the value
-
academic approval, and the candidate will be enrolled in one of the general degree programmes at DTU. For information about our enrolment requirements and the general planning of the PhD study programme
-
characterize the toxicological and chemical profile of emerging pollutants in our drinking water. To achieve this you will: Develop novel sample preparation and high-resolution mass spectrometry workflows