Sort by
Refine Your Search
-
Listed
-
Employer
-
Field
-
University. The University of Copenhagen provides a dynamic interdisciplinary research environment, offering access to state-of-the-art research infrastructure for qualitative and comparative political
-
. The overall goal of the project is to design a novel high temperature heat pump. You will be conducting Computational Fluid Dynamic (CFD) simulations and cycle analysis, which will be instrumental
-
We have a successful record of activating molecular N2 or CO2 through thermal heterogeneous catalysis. For instance, we recently identified a new class of promotion based on spin quenching on Cobalt
-
offer a unique opportunity to contribute to high-impact research in drones, AI, and human-computer interaction. Successful candidates will join a dynamic and inspiring international research environment
-
. The overall goal of the project is to design a novel high temperature heat pump. You will be conducting Computational Fluid Dynamic (CFD) simulations and cycle analysis, which will be instrumental
-
high academic level. We offer a dynamic, ambitious, and academically diverse research and teaching environment with nearly 55 academic staff members, a competent administrative secretariat with around 15
-
high academic level. We offer a dynamic, ambitious, and academically diverse research and teaching environment with nearly 55 academic staff members, a competent administrative secretariat with around 15
-
the biogeochemical mechanisms that underpin the resilience of restored wetlands, integrating field observations, laboratory experiments, and modelling approaches. You will explore how nutrient dynamics, hydrological
-
the biogeochemical mechanisms that underpin the resilience of restored wetlands, integrating field observations, laboratory experiments, and modelling approaches. You will explore how nutrient dynamics, hydrological
-
engineering, dynamics and process regulation, process and facility planning, unit operations, heat transmission, fluid mechanics and applied thermodynamics. The Department enjoys very close relations with